CN209536640U - A kind of big volume unreeling structure of steel strand wires and steel strand wires separate winder - Google Patents
A kind of big volume unreeling structure of steel strand wires and steel strand wires separate winder Download PDFInfo
- Publication number
- CN209536640U CN209536640U CN201920184215.1U CN201920184215U CN209536640U CN 209536640 U CN209536640 U CN 209536640U CN 201920184215 U CN201920184215 U CN 201920184215U CN 209536640 U CN209536640 U CN 209536640U
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- steel strand
- strand wires
- big volume
- unreeling structure
- support block
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Abstract
The utility model discloses a kind of big volume unreeling structures of steel strand wires, the big volume unreeling structure of steel strand wires is two, the big volume unreeling structure of two steel strand wires is arranged side by side, it is used alternatingly, the big volume unreeling structure of steel strand wires, it include: backing board, the first Right side support block and the first Left-side support block are provided on the backing board, the both ends for being wound with the steel strand wires axis of steel strand wires pass through rotary shaft respectively and are slidably connected with the first Right side support block and the first Left-side support block, correspondingly, present invention also provides a kind of steel strand wires separate winders, it include: such as the above-mentioned big volume unreeling structure of steel strand wires.When use, the big volume unreeling structure of two steel strand wires can be used alternatingly, and be opened after a use by the movement of the first track, the big volume unreeling structure of another steel strand wires is moved through rapidly continue bundling, efficiency is higher by the first track.
Description
Technical field
The utility model relates to steel strand wires technical field of processing equipment, more particularly to a kind of big volume unreeling structure of steel strand wires
And steel strand wires separate winder.
Background technique
In steel strand wires process, needs the steel strand wires rolled up greatly carrying out bundling, be divided into multiple rouleaus met the requirements.
Steel strand wires bundling mechanism is non-standard equipment, with the development of technology and progressive, and steel strand wires bundling mechanism is also with improvement, thus full
The use demand of sufficient user.
Summary of the invention
The purpose of the utility model is to provide a kind of big volume unreeling structure of steel strand wires and steel strand wires separate winders.
To realize the purpose of this utility model, the utility model provides a kind of big volume unreeling structure of steel strand wires, the steel
The big volume unreeling structure of twisted wire is two, and the big volume unreeling structure of two steel strand wires is arranged side by side, and is used alternatingly, the big volume of steel strand wires
Unreeling structure, comprising: backing board is provided with the first Right side support block and the first Left-side support block on the backing board, is wound with
The both ends of the steel strand wires axis of steel strand wires pass through rotary shaft and the first Right side support block respectively and the first Left-side support block slides
It connects, the first driving motor, output shaft and the steel strand wires axis side of first driving motor is provided on the backing board
Axis connection is rotated, first driving motor drives the steel strand wires axis rotation, is provided with the first idler wheel on the downside of the backing board,
Two the first scroll wheels of left and right ends pass through a linkage axis connection respectively, are provided with movable motor on the backing board, institute
It states the output shaft of movable motor and drives the universal driving shaft of two the first scroll wheels of the left end to rotate by transmission belt, thus, band
The first scroll wheel rotation is moved, is provided with the first guide rail, first scroll wheel and first below first scroll wheel
Guide rail is used in combination, and the first scroll wheel moves on the first guide rail.
Wherein, inverted L shape seat is provided on the backing board, first driving motor is arranged on the inverted L shape seat.
Wherein, an axle bed, rotary shaft insertion is respectively set on the first Right side support block and the first Left-side support block
In the axis hole of axle bed and it is slidably connected.
Correspondingly, present invention also provides a kind of steel strand wires separate winders, comprising: such as the above-mentioned big volume unreeling machine of steel strand wires
Structure.
Compared with prior art, the beneficial effects of the utility model are, when use, the big volume unreeling machine of two steel strand wires
Structure can be used alternatingly, and be opened after a use by the movement of the first track, the big volume unreeling structure of another steel strand wires is logical
It crosses the first track and is moved through, can rapidly continue bundling, efficiency is higher.
Detailed description of the invention
Fig. 1 show a kind of steel strand wires separate winder of the application;
In figure, the big volume unreeling structure of 1- steel strand wires, 2- steel strand wires guiding device, 3- steel strand wires rouleau rolling-up mechanism,
Fig. 2 show a kind of the first schematic diagram of structure of the big volume unreeling structure of steel strand wires of the application;
In figure, the first guide rail of 101-, 102- the first Right side support block, 103- backing board, 104- the first Left-side support block,
The first driving motor of 105-, 106- steel strand wires axis, the first scroll wheel of 107-, 108- movable motor.
Fig. 3 show a kind of the second schematic diagram of structure of the big volume unreeling structure of steel strand wires of the application;
Fig. 4 show the application shaft base structure schematic diagram;
Fig. 5 show the application the first scroll wheel attachment structure schematic diagram;
Fig. 6 show the first schematic diagram of structure of the application steel strand wires guiding device;
In figure, 201- spindle motor, 202- guide table, 203- guide table guide rail, 204- wheel carrier mechanism, 205- inlet wire
Wheel group, 206- mobile platform, 207- guiding leading screw, 208- go out line wheel group,
Fig. 7 show the second schematic diagram of structure of the application steel strand wires guiding device;
In figure, 2041- wheel carrier, 2042- elevating screw, 2043-n type frame, 2044- thread bush, 2045- upper backup pad,
It is oriented to rotating wheel on 2046-, is oriented to rotating wheel under 2047-, 2048- guiding leading screw link block,
Fig. 8 show the structure schematic side view of the application wheel carrier;
Fig. 9 show the structural schematic diagram of the application N-shaped frame;
Figure 10 show the first schematic diagram of structure of the application steel strand wires rouleau rolling-up mechanism;
Figure 11 show the second schematic diagram of structure of the application steel strand wires rouleau rolling-up mechanism;
In figure, 301- transverse cylinder, the traversing guide rail of 302-, the second rotating electric machine of 303-, the left side 304- fixed block, 305- steel
Twisted wire volume Mobile base, 306- steel stranded wire reel Mobile base guide rail, the right side 308- fixed block, 307 rouleau steel strand wires axis, 309- first are small
Coil twisted wire axis rotary shaft,
Figure 12 show the application left border and cylinder shaft body structural schematic diagram;
In figure, the first annular frame of 3071-, 3072- the first circular slab gap, the first circular slab of 3073-, 3074- circular shaft
Body, the side 3075- cylindrical body, 3076- first dock block, 3077- central cylinder.
Figure 13 show the structural schematic diagram of the application cylinder shaft body;
In figure, 30741- arc combination block, 30742- perforation groove, the first hinged block of 30743-, 30744-H type block,
The second hinged block of 30745-,
Figure 14 show the application Right Border schematic diagram;
In figure, the second annular peripheral frame of 3078-, 3079- the second circular slab gap, the second circular slab of 3080-, 3081- second
Dock block.
Figure 15 is the first schematic diagram of structure of the steel stranded wire reel mobile mechanism of the application;
Figure 16 is the second schematic diagram of structure of the steel stranded wire reel mobile mechanism of the application;
In figure, the mobile base frame body of 3051-, 3052- elevator, 3053- Mobile base cylinder, 3054- jacking cylinder, 305- steel
Twisted wire rolls up Mobile base, 306- steel stranded wire reel Mobile base guide rail.
Specific embodiment
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.It should be appreciated that this place
The specific embodiment of description is only used to explain the utility model, is not used to limit the utility model.
It should be noted that " connection " described herein and the word for expressing " connection ", as " being connected ",
" connected " etc. had both included that a certain component is directly connected to another component, and had also included that a certain component passes through other component and another portion
Part is connected.
It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root
According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular
Also be intended to include plural form, additionally, it should be understood that, when in the present specification using belong to "comprising" and/or " packet
Include " when, indicate existing characteristics, step, operation, component or module, component and/or their combination.
It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, "
Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way
Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein for example can be in addition to herein
Sequence other than those of diagram or description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that
Be to cover it is non-exclusive include, for example, containing the process, method, system, product or equipment of a series of steps or units not
Those of be necessarily limited to be clearly listed step or unit, but may include be not clearly listed or for these processes, side
The intrinsic other step or units of method, product or equipment.
For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ",
" ... upper surface ", " above " etc., for describing such as a component shown in the figure or module or feature and other
The spatial relation of component or module or feature.It should be understood that spatially relative term be intended to comprising in addition to component or
Different direction in use or operation except orientation of person's module described in figure.For example, if component in attached drawing
Perhaps module is squeezed, be described as " above other component or module or construction " or " in other component or module or
On construction " component or module after will be positioned as " below other component or module or construction " or " at other
Under component or module or construction ".Thus, exemplary term " ... top " may include " ... top " and
" in ... lower section " two kinds of orientation.The component or module can also be positioned with other different modes (to be rotated by 90 ° or in other
Orientation), and respective explanations are made to the opposite description in space used herein above.
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.
As shown in Fig. 1-Figure 16,
This application provides a kind of steel strand wires separate winders, comprising: the big volume unreeling structure of steel strand wires, steel strand wires guiding device
And steel strand wires rouleau rolling-up mechanism, steel strand wires are exported from the big volume unreeling structure of steel strand wires to be come, by steel strand wires guiding device
Afterwards, it is wrapped on steel strand wires rouleau rolling-up mechanism, realizes the work for being divided into rouleau from the big volume of steel strand wires.
Wherein, the big volume unreeling structure of the steel strand wires is two, and the big volume unreeling structure of two steel strand wires is arranged side by side, alternately
It uses, the big volume unreeling structure of steel strand wires, comprising: backing board is provided with the first Right side support block and the on the backing board
One Left-side support block, be wound with the steel strand wires axis of steel strand wires both ends pass through respectively rotary shaft and the first Right side support block and
First Left-side support block is slidably connected, and the first driving motor, the output of first driving motor are provided on the backing board
The rotation axis connection of axis and steel strand wires axis side, first driving motor drive the steel strand wires axis rotation, the backing board
Downside is provided with the first idler wheel, and two the first scroll wheels of left and right ends pass through a linkage axis connection, the backing board respectively
On be provided with movable motor, the output shaft of the movable motor drives two the first scroll wheels of the left end by transmission belt
Universal driving shaft rotation, thus, the first scroll wheel rotation is driven, is provided with the first guide rail, institute below first scroll wheel
It states the first scroll wheel and the first guide rail is used in combination, the first scroll wheel moves on the first guide rail.
Wherein, inverted L shape seat is provided on the backing board, first driving motor is arranged on the inverted L shape seat.
Wherein, an axle bed, rotary shaft insertion is respectively set on the first Right side support block and the first Left-side support block
In the axis hole of axle bed and it is slidably connected.
When use, the big volume unreeling structure of two steel strand wires can be used alternatingly, by the after a use
The movement of one track is opened, and the big volume unreeling structure of another steel strand wires is moved through can rapidly continue by the first track
Bundling, efficiency are higher.
Wherein, steel strand wires guiding device, comprising: the wheel carrier mechanism on the mobile platform is arranged in mobile platform, described
Wheel carrier mechanism, comprising: longitudinally disposed wheel carrier, the wheel carrier include spaced first longitudinal direction plate and second longitudinal direction plate, institute
It is longitudinally disposed to state first longitudinal direction plate, lower end is arranged on a mobile platform, and upper end passes through cross connecting plate and longitudinally disposed the
Two longitudinal plate upper ends connect, and there are four the lower guiding rotating wheels of spacing side by side setting for setting on the first longitudinal direction plate, under described
Guiding rotating wheel is slidably connected by wheel shaft and first longitudinal direction plate, and setting above rotating wheel is oriented under described four, and there are two above lead
To rotating wheel, two sidewalls of the wheel shaft both ends of each upper guiding rotating wheel respectively with a N-shaped frame are slidably connected, on the wheel carrier
It is provided with the opening being used in combination with the N-shaped frame, N-shaped frame sliding in opening, the wheel carrier upper end is provided with
Support plate, the upper backup pad are connect by link block with wheel carrier top, and thread bush passes through the lateral connection on the wheel carrier top
Plate, elevating screw pass through thread bush and are threadedly coupled with thread bush, and the elevating screw lower end and the sliding of N-shaped block top connect
It connects, by rotation and lifting lead screw upper guiding rotating wheel is gone up and down.
Wherein, the wheel shaft of at least one lower guiding rotating wheel connects after first longitudinal direction plate with the output shaft of driving motor
It connects, its rotation is driven by driving motor.
Wherein, steel strand wires enter wheel carrier mechanism from right side, successively by being oriented to rotation on the first lower guiding rotating wheel, first
It is oriented to guiding rotating wheel under rotating wheel, third under wheel, second, is oriented to rotating wheel, the 4th lower guiding rotating wheel on second.
Wherein, sliding shoe, the sliding shoe and the guiding being arranged on guide table are provided with below the mobile platform
Platform rail is used in combination, and is slided on the guide table guide rail, and guiding leading screw company is provided with below the mobile platform
Block is connect, spindle motor is provided on the guide table, the output shaft of the spindle motor is connect with guiding leading screw, the guiding
Lead screw passes through guiding leading screw link block and is threadedly coupled with guiding leading screw link block, drives guiding leading screw rotation by spindle motor
Turn, so that it is mobile to drive the guiding leading screw link block, to drive mobile platform mobile.
When use, wheel carrier can be driven mobile, so that steel strand wires are in steel strand wires rouleau by the movement of mobile platform
Successively orderly winding on rolling-up mechanism, effect is preferable, by adjusting elevating screw, can adjust guiding rotating wheel and lower guiding
The gap of rotating wheel.
Wherein, on the right side of wheel carrier and an inlet wire wheel group and out line wheel group, the inlet wire wheel group packet is respectively set in left side
Include the longitudinal idler wheels of a transverse-roller and two, steel strand wires are by transverse-roller upper end, then, by two longitudinal idler wheels it
Between;The line wheel group out, comprising: two longitudinal idler wheels.
Wherein, a kind of steel strand wires rouleau rolling-up mechanism provided by the present application, comprising: rouleau steel strand wires axis, the small coil
Twisted wire axis right end is slidably connected by the first rouleau steel strand wires axis rotary shaft with right side fixed block, and left end is twisted by the second small coil
Spool rotary shaft is slidably connected with left side fixed block, wherein the second rotating electric machine is provided on the fixed block of left side, second rotation
The output shaft of rotating motor and the second rouleau steel strand wires axis rotate axis connection, and the rotation of the second rotating electric machine drives the second small coil
The rotation of twisted wire axis, the left side lower end of fixing block are provided with traversing guide rail, and the left side fixed block can be moved up in traversing guide rail
It is dynamic, transverse cylinder is provided on the left of the left side fixed block, the transverse cylinder drives the left side fixed block in traversing guide rail
Upper movement, the rouleau steel strand wires axis, comprising: left border and Right Border and cylinder shaft body, the left border and circular shaft
Body connection, the left side fixed block is mobile to drive the left border and cylinder shaft body mobile.
By said mechanism, wirerope-winding is carried out in cylinder shaft body, and after reaching to a certain degree, the left side fixed block is moved
It is dynamic to drive the left border and cylinder shaft body mobile, so that cylinder shaft body is left with Right Border, so that wire rope roll can
It is separated from cylinder shaft body.
The left border, comprising: first annular frame is provided with the first circular slab, institute in the first annular frame
It states and is evenly arranged with multiple first circular slab gap, the second rouleau steel strand wires axis rotation around center of circle interval on the first circular slab
Axis passes through the first circular slab center and is fixedly connected,
The Right Border, comprising: the second annular peripheral frame is provided with the second circular slab, institute in second annular peripheral frame
It states and is evenly arranged with multiple second circular slab gap, the first rouleau steel strand wires axis rotation around center of circle interval on the second circular slab
Axis passes through the second circular slab center and is fixedly connected,
The position of the first circular slab gap and the second circular slab gap is corresponding, and the cylinder shaft body surface is provided with more
A lateral evenly spaced perforation groove, the position of the perforation groove and the first circular slab gap, the second circular slab gap
It is corresponding.
Using said mechanism, be able to use fixed metal tape and fasten wire rope roll, using metal tape pass through perforation groove,
First circular slab gap, the second circular slab gap, thus by wire rope roll around a circle, it is using fastener that the both ends of metal tape are tight
Gu.
Wherein, the cylinder shaft body, including the identical arc combination block of four structures, arc combination block pass through contractibility and the
Two rouleau steel strand wires axis rotate axis connection, and the contractibility includes: four evenly spaced contracting mechanisms, the contracting mechanism,
It include: that setting is connected with the first hinged block on the inside of arc combination block, the first hinged block and H-type block one end are articulated and connected, H-type block
The other end is articulated and connected with the second hinged block being arranged in the second rouleau steel strand wires axis rotary shaft.
The contractibility is two be arranged along the second rouleau steel strand wires axis new ro-tational axis.
By said mechanism, in left side, fixed block is mobile drives the left border and cylinder shaft body to move away Right Border
When, the contractibility deformation of the inside, cylinder shaft body can move to the right, so that the diameter of cylinder shaft body becomes smaller, so that wire rope roll
It can easily separate, when winding steel wire again is rolled up, cylinder shaft body and Right Border is held out against so that contractibility deforms,
The diameter of cylinder shaft body becomes larger.
Wherein, the second rouleau steel strand wires axis rotary shaft is connected with the first docking block, docks block left side with first and connects
It connects, first docking block right side is provided with central cylinder, and a side cylinder is respectively set in the central cylinder two sides
Body is connected with the second docking block in the first rouleau steel strand wires axis rotary shaft, connect with the second docking block right side, and described the
Two docking block left sides are provided with center hole, and a mother rib lateral rotundum, the centered cylinder is respectively set in the center hole two sides
Body is used in combination with center hole, in central cylinder insertion center hole and is slidably connected, the side cylindrical body and side circle
Hole is used in combination, and in side cylindrical body insertion mother rib lateral rotundum and is slidably connected.
By said mechanism, when cylinder shaft body is connected with Right Border, the central cylinder and center hole phase
It is used cooperatively, in central cylinder insertion center hole and is slidably connected, the side cylindrical body is used in combination with mother rib lateral rotundum, side
It in cylindrical body insertion mother rib lateral rotundum and is slidably connected, enables left border and Right Border synchronous rotary.
Wherein, steel stranded wire reel mobile mechanism is arranged below steel strand wires axis, comprising: steel stranded wire reel Mobile base and steel stranded wire reel
Mobile base guide rail, the steel stranded wire reel Mobile base are arranged on steel stranded wire reel Mobile base guide rail, can drive in Mobile base cylinder
Under moved on steel stranded wire reel Mobile base guide rail, the steel stranded wire reel Mobile base, comprising: mobile base frame body and elevator, institute
Stating mobile base frame body includes elevator slot, and elevator is provided in the elevator slot, and the elevator is sliding in elevator slot
Dynamic, the elevator lower end is provided with jacking cylinder, and the jacking cylinder drives the elevator to move up and down.
By said mechanism, when needing for wire rope roll to be detached from, using jacking cylinder by elevator jack-up come top pillar steel
Then wire rope roll disengaging is placed on elevator by cord volume, can be under the drive of Mobile base cylinder in steel stranded wire reel Mobile base
It is moved on guide rail, wire rope roll is moved to and facilitates cartage department.
The above is only the preferred embodiment of the utility model, it is noted that for the general of the art
For logical technical staff, without departing from the principle of this utility model, several improvements and modifications can also be made, these change
It also should be regarded as the protection scope of the utility model into retouching.
Claims (4)
1. a kind of big volume unreeling structure of steel strand wires, which is characterized in that the big volume unreeling structure of steel strand wires is two, and two steel twist
The big volume unreeling structure of line is arranged side by side, and is used alternatingly, the big volume unreeling structure of steel strand wires, comprising: backing board, the backing board
On be provided with the first Right side support block and the first Left-side support block, the both ends for being wound with the steel strand wires axis of steel strand wires pass through rotation respectively
Shaft is slidably connected with the first Right side support block and the first Left-side support block, and the first driving electricity is provided on the backing board
Machine, the output shaft of first driving motor and the rotation axis connection of steel strand wires axis side, first driving motor drive institute
The rotation of steel strand wires axis is stated, is provided with the first idler wheel on the downside of the backing board, two the first scroll wheels of left and right ends pass through respectively
One linkage axis connection, movable motor is provided on the backing board, and the output shaft of the movable motor passes through transmission belt and drives
The universal driving shaft of two the first scroll wheels of the left end rotates, thus, the first scroll wheel rotation is driven, described first rolls
The first guide rail is provided with below wheel, first scroll wheel and the first guide rail are used in combination, and the first scroll wheel is led first
It is moved on rail.
2. the big volume unreeling structure of steel strand wires according to claim 1, which is characterized in that be provided with inverted L on the backing board
Type seat, first driving motor are arranged on the inverted L shape seat.
3. the big volume unreeling structure of steel strand wires according to claim 1, which is characterized in that the first Right side support block and
An axle bed is respectively set on one Left-side support block, rotary shaft is inserted into the axis hole of axle bed and is slidably connected.
4. a kind of steel strand wires separate winder characterized by comprising the big volume unreeling structure of steel strand wires as described in claim 1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920184215.1U CN209536640U (en) | 2019-01-31 | 2019-01-31 | A kind of big volume unreeling structure of steel strand wires and steel strand wires separate winder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920184215.1U CN209536640U (en) | 2019-01-31 | 2019-01-31 | A kind of big volume unreeling structure of steel strand wires and steel strand wires separate winder |
Publications (1)
Publication Number | Publication Date |
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CN209536640U true CN209536640U (en) | 2019-10-25 |
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ID=68272992
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Application Number | Title | Priority Date | Filing Date |
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CN201920184215.1U Active CN209536640U (en) | 2019-01-31 | 2019-01-31 | A kind of big volume unreeling structure of steel strand wires and steel strand wires separate winder |
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2019
- 2019-01-31 CN CN201920184215.1U patent/CN209536640U/en active Active
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