CN105648813A - Rotary pay-off mechanism for twisting of steel wire rope - Google Patents
Rotary pay-off mechanism for twisting of steel wire rope Download PDFInfo
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- CN105648813A CN105648813A CN201610216888.1A CN201610216888A CN105648813A CN 105648813 A CN105648813 A CN 105648813A CN 201610216888 A CN201610216888 A CN 201610216888A CN 105648813 A CN105648813 A CN 105648813A
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- support
- bobbin loader
- pinboard
- screw mandrel
- wire rope
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- D—TEXTILES; PAPER
- D07—ROPES; CABLES OTHER THAN ELECTRIC
- D07B—ROPES OR CABLES IN GENERAL
- D07B7/00—Details of, or auxiliary devices incorporated in, rope- or cable-making machines; Auxiliary apparatus associated with such machines
- D07B7/02—Machine details; Auxiliary devices
- D07B7/06—Bearing supports or brakes for supply bobbins or reels
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Abstract
A rotary pay-off mechanism for twisting of a steel wire rope comprises a bobbin holder (1), a base (2) and two parallel support seats (3) fixed on the base (2), wherein a spool placement mechanism comprises a support rod (4) and an adjusting shaft (5); two ends of the support rod (4) are connected with two sides of the bobbin holder (1) respectively; two ends of the adjusting shaft (5) are rotationally connected with two sides of the bobbin holder (1) respectively; supports for accommodating spools are arranged on the support rod (4) and comprise a first support (6) and a second support (7), and the first support (6) and the second support (7) are in parallel; two ends of the first support (6) are glidingly connected with the support rod (4) and the adjusting shaft (5) respectively; two ends of the second support (7) are glidingly connected with the support rod (4) and the adjusting shaft (5) respectively; a control mechanism for controlling movement of the first support (6), or the second support (7) or the first support (6) and the second support (7) is arranged on the bobbin holder (1) and is in transmission connection with the adjusting shaft (5). Compared with the prior art, the rotary pay-off mechanism has the characteristics of better adaptability and lower production cost.
Description
Technical field
The present invention relates to a kind of twisting wire rope and rotate payingoff mechanism.
Background technology
At present, steel wire rope range of application is relatively wide, and the steel wire rope of some particular/special requirements needs the multilamellar strand of 2 layers or more than 2 layers to form, and the sth. made by twisting of inside and outside layer rope is to difference. Therefore, the difficult point of its manufacture be in that how to remove when closing rope internal layer stock because of when closing rope with outer layer strand the twisting of internal layer stock cause deformation to produce distorting stress, and general method is that steel wire rope internal layer strand is carried out untwisting and stood up, stand up direction in opposite direction with the twisting of product, thus producing the purpose of distorting stress when reaching to eliminate twisting, the steel wire rope sling so produced has the characteristic of rotation unstressed, straight, soft, micro-, it is adaptable to some have particular/special requirement purposes.
The twisting wire rope rotation payingoff mechanism of prior art is fixing due to I-beam wheel 30 support, therefore the I-beam wheel 30 of a kind of specification can only be placed, when making the raw material of enterprise's production and application different size, need to select the twisting wire rope rotation payingoff mechanism that matches with raw material just can, which results in enterprise's production cost and be significantly increased; Therefore there is the problem that adaptability is poor and production cost is higher in twisting wire rope rotation payingoff mechanism.
Summary of the invention
The present invention is directed to problem above provides the twisting wire rope that a kind of adaptability is better and production cost is relatively low to rotate payingoff mechanism.
This invention address that the technical scheme used by problem above is: provide a kind of twisting wire rope with following structure to rotate payingoff mechanism, it includes bobbin loader, base be fixed on base two parallel bearings, described bobbin loader is tower structure, bobbin loader is between two parallel bearings, and the two ends of bobbin loader are rotationally connected with two bearings respectively, I-beam wheel 30 placement mechanism it is provided with in described bobbin loader, described I-beam wheel 30 placement mechanism includes support bar and regulates axle, the two ends of described support bar are connected with the both sides of bobbin loader respectively, the two ends of described adjustment axle are rotationally connected with the both sides of bobbin loader respectively, and support bar is parallel with adjustment axle, described support bar is provided with the support for placing I-beam wheel 30, described support is divided into the first support and the second support, and first support parallel with the second support, the two ends of described first support are slidably connected with support bar and adjustment axle respectively, the two ends of the second support are slidably connected with support bar and adjustment axle respectively, described bobbin loader is provided with and controls the first support or the second support or the first support and controlling organization that the second support moves, described controlling organization is connected with regulating through-drive.
After adopting above structure, compared with prior art, due to the fact that bobbin loader is provided with and control the first support or the second support or the first support and controlling organization that the second support moves, then in use, if desired for when placing I-beam wheel 30, rotating adjustment axle makes controlling organization control the movement of support, thus I-beam wheel 30 is clamped between two supports, use more convenient, and owing to support is mobile, therefore the I-beam wheel 30 of a range of different model can be clamped, the scope of application is wider, thus reducing the quantity of enterprise procurement equipment, and then the use cost of equipment can be greatly reduced. therefore the present invention has the advantages that adaptability is better and production cost is relatively low.
As improvement, described controlling organization includes least one set screw and screw mandrel combination, described screw mandrel is rotatably connected on the side of bobbin loader, and screw mandrel is parallel with adjustment axle, described screw is fixed on the first support or the second support or the first support and the second support, and described screw mandrel one end coordinates with screw, and screw mandrel one end other end is provided with the first pinion, described adjustment axle is provided with the driving gear engaged with the first pinion, and described driving gear and bobbin loader are provided with position-limit mechanism; Then this structure, parts are less, less costly, and stability when running is also better, so that the stability in use of the present invention improves further, lower in cost.
As further improvement, described controlling organization includes two groups of screws and screw mandrel combination, the screw of two groups is each attached on the first support or the second support, and the screw mandrel of two groups is equipped with the first pinion, connected by travelling gear between first pinion, the axis of described screw mandrel, travelling gear axis and regulate axle axis all at grade; After then so arranging so that screw mandrel is more uniform to the active force of support, also make it easier to promote support, and the stationarity that support is when mobile is also better, the operation of the workman that is more convenient for, can also improve the stability of the present invention simultaneously further.
As further improving, described controlling organization includes four groups of screws and screw mandrel combination; Two groups of sides being positioned at bobbin loader in four groups of screws and screw mandrel combination, remaining two groups of opposite sides being positioned at bobbin loader, and the axisymmetrical rotated along bobbin loader in bobbin loader both sides are distributed; Described screw is fixed on respective on bobbin loader homonymy the first support and the second support, described screw mandrel is equipped with the first pinion, connected by travelling gear between the first adjacent pinion, and all there are driving gear, described driving gear and the first adjacent pinion engagement in the two ends regulating axle; After then so arranging, can synchronize to promote two supports to move simultaneously, after making I-beam wheel 30 clamping, the central point of I-beam wheel 30 is positioned on the center line of bobbin loader length direction, and then eccentric force is less when making bobbin loader rotate, vibrations are also reduced by, and the abrasion of each parts is also reduced, and then the service life of the prolongation present invention, save energy consumption.
As further improving, being provided with pinboard outside the driving gear of described adjustment axle one end, described pinboard is mutually circumferential spacing with driving gear, and the axis of the axis of pinboard and driving gear is on the same line; Described pinboard is plugged with the handle that can rotate pinboard; The side having pinboard on described bobbin loader is provided with locating ring, and the internal diameter of described locating ring is be more than or equal to the external diameter of pinboard, and the dead in line of the axis of locating ring and pinboard, and position-limit mechanism is between locating ring and pinboard;After then pinboard is arranged, it is no longer necessary to regulating punching on axle so that the intensity regulating axle is better, and service life is also longer, and processing cost also decreases; And position-limit mechanism is when being possible to prevent bobbin loader to rotate, regulates the rotation of axle, and then the stability after I-beam wheel 30 clamping is improved further so that the stability of the present invention is better; After furthermore handle is arranged so that it is convenient that workman rotates adjustment axle, it is possible to decrease the working strength of workman, and after adjustment terminates, directly can be taken down by handle, therefore safety is also better.
As further improving, described pinboard outer face is provided with the groove at pinboard outer peripheral face opening, plug blades is slidably connected in groove, described locating ring is provided with end-tooth away from one end of bobbin loader, described plug blades one end coordinates spacing with end-tooth, the first back-moving spring it is provided with between the plug blades other end and groove inner wall, the outer face of described pinboard is provided with spliced eye, the axis of spliced eye and the dead in line of pinboard, described spliced eye is stepped hole, and the aperture in the hole of spliced eye near line plate rail one end is more than the aperture in the hole of the spliced eye other end, described handle is plugged in spliced eye, then this position-limit mechanism simple in construction, parts are less, and dependability is also better.
As further improving, described handle includes shank, handle and connecting rod, described shank is connected with handle by connecting rod, and the axis of shank is parallel with the axis of handle, the external diameter of described shank inserted terminal is equal to the aperture of another stomidium of spliced eye, and shank outer peripheral face is provided with the elongated slot extended along its length, it is hinged with positive stop hook in described elongated slot, positive stop hook one end is provided with barb, the positive stop hook other end is provided with projection reciprocal with barb, positive stop hook has one end of barb to be positioned at the inserted terminal of shank, the middle part of positive stop hook is hinged in elongated slot, and the position between the barb of positive stop hook and hinged place is provided with the second back-moving spring, the bottom surface of described elongated slot is provided with counterbore and through hole, and on the position that the hinged place of positive stop hook is between counterbore and through hole, described second back-moving spring one end is supported with positive stop hook and is closed, the second back-moving spring other end is positioned at counterbore, described projection is arranged in through hole, one end that described connecting rod is connected with shank is provided with circumference spacer pin, described plug blades is provided with and coordinates spacing jack with circumference spacer pin, and the inwall of the nearly spliced eye of jack is inclined-plane, described circumference spacer pin is provided with and the inclined-plane of jack inclined-plane laminating, when circumference spacer pin is positioned at jack, under the interaction on inclined-plane, plug blades one end disengages with end-tooth, then such rotating handle structure, in use, after being plugged into pinboard, interaction due to circumference spacer pin with plug blades, it is no longer necessary to additionally can realize unlocking to the action of plug blades, and also it being no longer necessary to other circumferential position-limit mechanism so that the structure of present invention entirety is simpler, uses also convenient.
As further improving, described bearing is provided with reducing motor, and reducing motor is in transmission connection by gear and bobbin loader; After then so arranging so that the stability that bobbin loader rotates is better, thus ensureing the stability in use of the present invention.
Accompanying drawing explanation
Fig. 1 is the structural representation that twisting wire rope of the present invention rotates payingoff mechanism.
Fig. 2 is the structure for amplifying 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 structure for amplifying schematic diagram of part B in Fig. 4.
As shown in the figure: 1, bobbin loader, 2, base, 3, bearing, 4, support bar, 5, regulate axle, 6, first support, 7, second support, 8, screw, 9, screw mandrel, 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 back-moving spring, 20, spliced eye, 21, elongated slot, 22, positive stop hook, 23, protruding, 24, second back-moving spring, 25, counterbore, 26, through hole, 27, spacer pin, 28, jack, 29, reducing motor, 30, I-beam wheel.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the present invention is described further.
Embodiment one
Such as Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4 and Fig. 5, a kind of twisting wire rope is with rotating payingoff mechanism, it includes bobbin loader 1, base 2 be fixed on base 2 two parallel bearings 3, described bobbin loader 1 is tower structure, bobbin loader 1 is between two parallel bearings 3, and the two ends of bobbin loader 1 are rotationally connected with two bearings 3 respectively, it is provided with I-beam wheel placement mechanism in described bobbin loader 1, described I-beam wheel placement mechanism includes support bar 4 and regulates axle 5, the two ends of described support bar 4 are connected with the both sides of bobbin loader 1 respectively, the two ends of described adjustment axle 5 are rotationally connected with the both sides of bobbin loader 1 respectively, and support bar 4 is parallel with regulating axle 5, the axis of the axis of support bar 4 and adjustment axle 5 is in same level, described support bar 4 is provided with the support for placing I-beam wheel 30, described support is divided into the first support 6 and the second support 7, described first support 6 is equipped with for the rotating shaft with I-beam wheel 30 grafting with on the second support 7 on both relative faces, and first support 6 parallel with the second support 7, the two ends of described first support 6 are slidably connected with support bar 4 and adjustment axle 5 respectively, and the first support 6 is provided with near two close end end two slide openings, and one of them slide opening and support bar 4 are slidably connected, and another slide opening is slidably connected with regulating axle 5, the two ends of the second support 7 are slidably connected with support bar 4 and adjustment axle 5 respectively, and the second support 7 also is provided with near two close end end two slide openings, and one of them slide opening and support bar 4 are slidably connected, and another slide opening is slidably connected with regulating axle 5, described bobbin loader 1 is provided with and controls the controlling organization that the first support 6 and the second support 7 move, and described controlling organization is in transmission connection with regulating axle 5.
Described controlling organization includes least one set screw 8 and screw mandrel 9 combines, described screw mandrel 9 is rotatably connected on the side of bobbin loader 1, and screw mandrel 9 is parallel with regulating axle 5, the axis of the axis of screw mandrel 9 and adjustment axle 5 is in same level, described screw 8 is fixed on the first support 6 or the second support 7 or the first support 6 and the second support 7, described screw mandrel 9 one end coordinates with screw 8, screw mandrel 9 one end other end is provided with the first pinion 10, described adjustment axle 5 is provided with the driving gear 11 engaged with the first pinion 10, it is provided with position-limit mechanism between described driving gear 11 and bobbin loader 1.
Described controlling organization includes four groups of screws 8 and screw mandrel 9 combines; Two groups of sides being positioned at bobbin loader 1 in four groups of screws 8 and screw mandrel 9 combination, remaining two groups of opposite sides being positioned at bobbin loader 1, and the axisymmetrical rotated along bobbin loader 1 in bobbin loader 1 both sides are distributed;Described screw 8 is fixed on and each on bobbin loader 1 homonymy the first support 6 or the second support 7, namely all fixes with the first support 6 with the screw 8 of the first support 6 homonymy and is connected, all fixes with the second support 7 with the screw 8 of the second support 7 homonymy and be connected; Being equipped with the first pinion 10 on described screw mandrel 9, connected by travelling gear 12 between the first adjacent pinion 10, and all there is driving gear 11 at the two ends regulating axle 5, described driving gear 11 engages with the first adjacent pinion 10; The outside of gear train is equipped with outer housing, not only can dust protection, it is also possible to increase safety.
It is provided with pinboard 13 outside the driving gear 11 of described adjustment axle 5 one end, bobbin loader 1 typically each can arrange the damping mechanism of unwrapping wire, and pinboard 13 is generally located on the one end regulating axle 5 away from damping mechanism, after so arranging, the center of gravity making bobbin loader 1 still can be positioned at bobbin loader 1 on the axis rotated, thus vibrations when reducing operation and noise; Described pinboard 13 is spacing with driving gear 11 circumference mutually, and pinboard 13 is connected with driving gear 11 by bolt, and the axis of the axis of pinboard 13 and driving gear 11 is on the same line; Described pinboard 13 is plugged with the handle 14 that can rotate pinboard 13; Described bobbin loader 1 there is the side of pinboard 13 to be provided with locating ring 15, be more than or equal to the external diameter of pinboard 13, (this example is slightly over the internal diameter of described locating ring 15, it is alternatively and is equal to), and the dead in line of the axis of locating ring 15 and pinboard 13, position-limit mechanism is between locating ring 15 and pinboard 13.
Described pinboard 13 outer face is provided with the groove 16 at pinboard 13 outer peripheral face opening, and namely pinboard 13 is provided with groove 16 away from the end face of driving gear 11, and groove 16 is at pinboard 13 outer peripheral face opening; Slidably connecting plug blades 17 in groove 16, the outer face of pinboard 13 is provided with the pressing plate pushing down plug blades 17; Described locating ring 15 is provided with end-tooth 18 away from one end of bobbin loader 1, and described plug blades 17 one end coordinates spacing with end-tooth 18, and specifically plug blades 17 one end is provided with spacing preiection, and this spacing preiection is arranged on end-tooth 18 tooth paddy; Being provided with the first back-moving spring 19 between plug blades 17 other end and groove 16 inwall, specifically groove 16 inwall is provided with counterbore, and first back-moving spring 19 one end is supported with plug blades 17 and closed, and first back-moving spring 19 other end is arranged in counterbore; The outer face of described pinboard 13 is provided with spliced eye 20, the dead in line of the axis of spliced eye 20 and pinboard 13, described spliced eye 20 is stepped hole, and the aperture in the hole of spliced eye 20 near line plate rail 1 one end is more than the aperture in the hole of spliced eye 20 other end, described handle 14 is plugged in spliced eye 20.
Described handle 14 includes shank 141, handle 142 and connecting rod 143, described shank 141 is connected with handle 142 by connecting rod 143, connecting rod 143 is Z-shaped structure, and the axis of shank 141 is parallel with the axis of handle 142, the external diameter of described shank 141 inserted terminal is equal to the aperture of another stomidium of spliced eye 20, namely the external diameter of shank 141 inserted terminal is equal to the aperture of spliced eye 20 aperture, and shank 141 outer peripheral face is provided with the elongated slot 21 extended along its length, it is hinged with positive stop hook 22 in described elongated slot 21, gap is left in the bottom surface of positive stop hook 22 and elongated slot 21, positive stop hook 22 one end is provided with barb, during free state, barb is positioned at the outside of elongated slot 21, positive stop hook 22 other end is provided with reciprocal with barb protruding 23, it also is understood as barb, positive stop hook 22 and protruding 23 structures constituting similar Z-shaped, positive stop hook 22 has one end of barb to be positioned at the inserted terminal of shank 141, the middle part of positive stop 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 the second back-moving spring 24, the bottom surface of described elongated slot 21 is provided with counterbore 25 and through hole 26, counterbore 25 is combined by screwed hole and sunk screw and to be formed, the restoring force of the second back-moving spring 24 just can be regulated after so rotating sunk screw, and on the position that the hinged place of positive stop hook 22 is between counterbore 25 and through hole 26, described second back-moving spring 24 one end is supported with positive stop hook 22 and is closed, second back-moving spring 24 other end is arranged in counterbore 25, described protruding 23 are arranged in through hole 26,One end that described connecting rod 143 is connected with shank 141 is provided with circumference spacer pin 27, the axis of circumference spacer pin 27 is parallel with the axis of shank 141, described plug blades 17 is provided with and coordinates spacing jack 28 with circumference spacer pin 27, and the inwall of the nearly spliced eye 20 of jack 28 is inclined-plane, described circumference spacer pin 27 is provided with and the inclined-plane of jack 28 inclined-plane laminating, the inclined-plane of circumference spacer pin 27 is made up of the inclined-plane of two different gradients, the slope of nearly circumference spacer pin 27 end is less than the gradient on another inclined-plane, after so arranging, make to insert, at circumference spacer pin 27, the speed that the early stage plug blades 17 of jack 28 is slided, so that plug blades 17 quickly disengages with end-tooth 18, and the speed of later stage plug blades 17 slip is slower, displacement is also shorter, so make the restoring force of the second back-moving spring 24 first to less, it is relatively easy to so that later stage circumference spacer pin 27 inserts, when circumference spacer pin 27 is positioned at jack 28, under the interaction on inclined-plane, plug blades 17 one end and end-tooth 18 are disengaged.
Described bearing 3 is provided with reducing motor 29, and reducing motor 29 is in transmission connection by gear and bobbin loader 1.
Embodiment two
Described controlling organization includes two groups of screws 8 and screw mandrel 9 combines, the screw 8 of two groups is each attached on the first support 6, and the screw mandrel 9 of two groups is equipped with the first pinion 10, connected by travelling gear 12 between first pinion 10, the axis of described screw mandrel 9, the axis of travelling gear 12 and regulate the axis of axle 5 all at grade. General bobbin loader 1 is monolateral when arranging controlling organization, and the another side of bobbin loader 1 can arrange corresponding counterweight, with the center of gravity of control line plate rail 1.
Embodiment three
Described controlling organization includes two groups of screws 8 and screw mandrel 9 combines, the screw 8 of two groups is each attached on the second support 7, and the screw mandrel 9 of two groups is equipped with the first pinion 10, connected by travelling gear 12 between first pinion 10, the axis of described screw mandrel 9, the axis of travelling gear 12 and regulate the axis of axle 5 all at grade.
Operating principle, make circumference spacer pin 27 alignment receptacles 28, subsequently shank 141 is inserted facing to spliced eye 20, thereafter through handle 142 i.e. rotatable pinboard 13, thus rotating adjustment axle 5, and driving driving gear 11 to rotate, by rotating, screw mandrel 9 being rotated, finally make bracket slide, thus realizing the clamping to I-beam wheel 30 and unclamping; After adjustment terminates, press protruding 23 by finger so that the step surface of barb and spliced eye 20 disengages, and now can extract shank 141.
Above example is only presently preferred embodiments of the present invention, the present invention be not limited only to above example also allow for other structure change, all in rights to independence claimed range of the present invention change, all belong to scope.
Claims (8)
1. a twisting wire rope is with rotating payingoff mechanism, it includes bobbin loader (1), base (2) be fixed on upper two the parallel bearings (3) of base (2), described bobbin loader (1) is tower structure, bobbin loader (1) is positioned between two parallel bearings (3), and the two ends of bobbin loader (1) are rotationally connected with two bearings (3) respectively, described bobbin loader is provided with I-beam wheel placement mechanism in (1), it is characterized in that: described I-beam wheel placement mechanism includes support bar (4) and regulates axle (5), the two ends of described support bar (4) are connected with the both sides of bobbin loader (1) respectively, the two ends of described adjustment axle (5) are rotationally connected with the both sides of bobbin loader (1) respectively, and support bar (4) is parallel with regulating axle (5), described support bar (4) is provided with the support for placing I-beam wheel, described support is divided into the first support (6) and the second support (7), and first support (6) parallel with the second support (7), the two ends of described first support (6) are slidably connected with support bar (4) and adjustment axle (5) respectively, the two ends of the second support (7) are slidably connected with support bar (4) and adjustment axle (5) respectively, described bobbin loader (1) is provided with the controlling organization controlling the first support (6) or the second support (7) or the first support (6) and the second support (7) movement, described controlling organization is in transmission connection with regulating axle (5).
2. twisting wire rope according to claim 1 rotates payingoff mechanism, it is characterized in that: described controlling organization includes least one set screw (8) and screw mandrel (9) combination, described screw mandrel (9) is rotatably connected on the side of bobbin loader (1), and screw mandrel (9) is parallel with regulating axle (5), described screw (8) is fixed on the first support (6) or the second support (7) or the first support (6) and the second support (7), described screw mandrel (9) one end coordinates with screw (8), screw mandrel (9) one end other end is provided with the first pinion (10), described adjustment axle (5) is provided with the driving gear (11) engaged with the first pinion (10), it is provided with position-limit mechanism between described driving gear (11) and bobbin loader (1).
3. twisting wire rope according to claim 2 rotates payingoff mechanism, it is characterized in that: described controlling organization includes two groups of screws (8) and screw mandrel (9) combination, the screw (8) of two groups is each attached on the first support (6) or the second support (7), and the screw mandrel of two groups (9) is equipped with the first pinion (10), between first pinion (10) by travelling gear (12) connect, the axis of described screw mandrel (9), travelling gear (12) axis and regulate axle (5) axis all at grade.
4. twisting wire rope according to claim 2 rotates payingoff mechanism, it is characterised in that: described controlling organization includes four groups of screws (8) and screw mandrel (9) combination; In four groups of screws (8) and screw mandrel (9) combination two groups are positioned at the side of bobbin loader (1), remaining two groups of opposite sides being positioned at bobbin loader (1), and the axisymmetrical distribution rotated along bobbin loader (1) in bobbin loader (1) both sides; Described screw (8) is fixed on respective on bobbin loader (1) homonymy the first support (6) or the second support (7), described screw mandrel (9) is equipped with the first pinion (10), connected by travelling gear (12) between adjacent the first pinion (10), and all there is driving gear (11) at the two ends regulating axle (5), described driving gear (11) engages with adjacent the first pinion (10).
5. the twisting wire rope according to claim 3 or 4 is with rotating payingoff mechanism, it is characterized in that: driving gear (11) outside of described adjustment axle (5) one end is provided with pinboard (13), described pinboard (13) and driving gear (11) circumference mutually is spacing, and the axis of the axis of pinboard (13) and driving gear (11) is on the same line; Described pinboard (13) is plugged with the handle (14) that can rotate pinboard (13); The side having pinboard (13) on described bobbin loader (1) is provided with locating ring (15), the internal diameter of described locating ring (15) is be more than or equal to the external diameter of pinboard (13), and the dead in line of the axis of locating ring (15) and pinboard (13), position-limit mechanism is positioned between locating ring (15) and pinboard (13).
6. twisting wire rope according to claim 5 rotates payingoff mechanism, it is characterized in that: described pinboard (13) outer face is provided with the groove (16) at pinboard (13) outer peripheral face opening, plug blades (17) is slidably connected in groove (16), described locating ring (15) is provided with end-tooth (18) away from one end of bobbin loader (1), described plug blades (17) one end coordinates spacing with end-tooth (18), the first back-moving spring (19) it is provided with between plug blades (17) other end and groove (16) inwall, the outer face of described pinboard (13) is provided with spliced eye (20), the dead in line of the axis of spliced eye (20) and pinboard (13), described spliced eye (20) is stepped hole, and the aperture in the hole of spliced eye (20) near line plate rail (1) one end is more than the aperture in the hole of spliced eye (20) other end, described handle (14) is plugged in spliced eye (20).
7. twisting wire rope according to claim 6 rotates payingoff mechanism, it is characterized in that: described handle (14) includes shank (141), handle (142) and connecting rod (143), described shank (141) is connected with handle (142) by connecting rod (143), and the axis of shank (141) is parallel with the axis of handle (142), the external diameter of described shank (141) inserted terminal is equal to the aperture of spliced eye (20) another stomidium, and shank (141) outer peripheral face is provided with the elongated slot (21) extended along its length, positive stop hook (22) it is hinged with in described elongated slot (21), positive stop hook (22) one end is provided with barb, positive stop hook (22) other end is provided with and the reciprocal projection of barb (23), positive stop hook (22) has one end of barb to be positioned at the inserted terminal of shank (141), the middle part of positive stop hook (22) is hinged in elongated slot (21), and the position between barb and the hinged place of positive stop hook (22) is provided with the second back-moving spring (24), the bottom surface of described elongated slot (21) is provided with counterbore (25) and through hole (26), and the hinged place of positive stop hook (22) is positioned on the position between counterbore (25) and through hole (26), described second back-moving spring (24) one end is supported with positive stop hook (22) and is closed, second back-moving spring (24) other end is positioned at counterbore (25), described projection (23) is arranged in through hole (26), one end that described connecting rod (143) is connected with shank (141) is provided with circumference spacer pin (27), described plug blades (17) is provided with and coordinates spacing jack (28) with circumference spacer pin (27), and the inwall of the nearly spliced eye (20) of jack (28) is inclined-plane, described circumference spacer pin (27) is provided with and the inclined-plane of jack (28) inclined-plane laminating, when circumference spacer pin (27) is positioned at jack (28), under the interaction on inclined-plane so that plug blades (17) one end disengages with end-tooth (18).
8. twisting wire rope according to claim 1 rotates payingoff mechanism, it is characterized in that: described bearing (3) is provided with reducing motor (29), reducing motor (29) is in transmission connection by gear and bobbin loader (1).
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CN201610216888.1A CN105648813B (en) | 2016-04-08 | 2016-04-08 | Twisting wire rope rotation payingoff mechanism |
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CN201610216888.1A CN105648813B (en) | 2016-04-08 | 2016-04-08 | Twisting wire rope rotation payingoff mechanism |
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Cited By (1)
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CN111021119A (en) * | 2019-12-06 | 2020-04-17 | 嘉善精田精密机械制造有限公司 | Twisting adjusting device for rope twisting machine and adjusting method thereof |
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DE1983081U (en) * | 1968-02-07 | 1968-04-11 | Felten & Guilleaume Carlswerk | ROTATING REWINDER WITH UPSTANDING DEVICE FOR STRINGING GROUPS OF REMOTE CABLES. |
EP0999304A2 (en) * | 1998-11-05 | 2000-05-10 | Kinrei Machinery Co., Ltd. | Wire stranding machine |
CN203174424U (en) * | 2013-03-25 | 2013-09-04 | 湖北三江航天江北机械工程有限公司 | Paying off untwisting device for double twisting machine |
CN205420895U (en) * | 2016-04-08 | 2016-08-03 | 宁波凯特机械有限公司 | Wire rope system of twisting with fingers is constructed with rotatory paying out machine |
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Patent Citations (5)
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US2681544A (en) * | 1953-05-28 | 1954-06-22 | Syncro Mach Co | Cable stranding machine |
DE1983081U (en) * | 1968-02-07 | 1968-04-11 | Felten & Guilleaume Carlswerk | ROTATING REWINDER WITH UPSTANDING DEVICE FOR STRINGING GROUPS OF REMOTE CABLES. |
EP0999304A2 (en) * | 1998-11-05 | 2000-05-10 | Kinrei Machinery Co., Ltd. | Wire stranding machine |
CN203174424U (en) * | 2013-03-25 | 2013-09-04 | 湖北三江航天江北机械工程有限公司 | Paying off untwisting device for double twisting machine |
CN205420895U (en) * | 2016-04-08 | 2016-08-03 | 宁波凯特机械有限公司 | Wire rope system of twisting with fingers is constructed with rotatory paying out machine |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111021119A (en) * | 2019-12-06 | 2020-04-17 | 嘉善精田精密机械制造有限公司 | Twisting adjusting device for rope twisting machine and adjusting method thereof |
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