CN102476759A - Tension-free wire arrangement device - Google Patents
Tension-free wire arrangement device Download PDFInfo
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- CN102476759A CN102476759A CN2010105821497A CN201010582149A CN102476759A CN 102476759 A CN102476759 A CN 102476759A CN 2010105821497 A CN2010105821497 A CN 2010105821497A CN 201010582149 A CN201010582149 A CN 201010582149A CN 102476759 A CN102476759 A CN 102476759A
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- screw mandrel
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Abstract
The invention discloses a tension-free wire arrangement device which comprises a screw, a motor driving the screw and an accommodating frame, wherein the screw is provided with a screw rod and a nut; the nut is provided with a wiring part; the motor driving the screw drives the screw rod of the screw to rotate; and the nut reciprocates on the screw rod, and the screw rod of the screw is arranged along the radial direction of the central shaft of the accommodating frame. The tension-free wire arrangement device also comprises a motor which is used for driving rotation, wherein the speed of the motor which is used for driving rotation is matched with the speed of the motor driving the screw; and the motor which is used for driving rotation leads the screw and the accommodating frame to rotate relatively. Compared with the prior art that a winding wheel is driven by the motor to rotate so that a pipe or a wire is wound on the winding wheel, the accommodating frame of the tension-free wire arrangement device disclosed by the invention cannot cause tension to the wire or the pipe accommodated in the accommodating frame, therefore, tension cannot be caused during arrangement of the wire or the pipe, and such quality problems as diameter reduction or other deformation problems caused by over-large tension of the pipe or the wire can be solved.
Description
Technical field
The present invention relates to a kind of strand oscillator, relate in particular to a kind of no tension force strand oscillator.
Background technology
At present; In the course of processing of tubing and wire rod and in the wires and cables industry, need use strand oscillator; This strand oscillator generally comprises the motor of screw mandrel, the motor that drives screw mandrel, reel and the coiling of driving reel, and reel is through the motor-driven rotation and then tubing or wire rod are wrapped on the reel.
Yet, because of tubing or wire rod are that pulling through reel just is wound on the reel, so tubing or wire rod have tension force; When tension force is big; This tension force then can elongate tubing or wire rod, the diameter of tubing or wire rod is diminished or produces distortion, thereby cause tubing or wire rod quality defects.
Summary of the invention
The object of the present invention is to provide a kind of no tension force strand oscillator.
For realizing above-mentioned purpose; No tension force strand oscillator provided by the present invention comprises screw mandrel, drives the motor of screw mandrel and accommodates frame, and said screw mandrel has screw rod and nut, and this nut is provided with cabling portion; The screw rod rotation of the motor-driven screw mandrel of said driving screw mandrel; Said nut is crank motion on said screw rod, and the screw rod of said screw mandrel is positioned at said radial direction of accommodating the frame center shaft, and this no tension force strand oscillator also comprises the motor of driven in rotation; The speed of the motor of the motor of this driven in rotation and said driving screw mandrel is complementary, and the motor of this driven in rotation makes said screw mandrel and the said frame of accommodating make relative rotary motion.
Wherein, The motor of driven in rotation makes said screw mandrel and the said frame of accommodating as relative rotary motion two kinds of type of drive arranged; A kind of is that the said screw mandrel of motor-driven of driven in rotation serves as axle rotation with the said frame center shaft of accommodating, and another kind is that the said frame of accommodating of the motor-driven of driven in rotation serves as the axle rotation with the said frame center shaft of accommodating.
Serves as the axle rotation for the said screw mandrel of the motor-driven of driven in rotation with the said frame center shaft of accommodating:
Preferably; Said no tension force strand oscillator has support, and this support has crossbeam, and this crossbeam is provided with the motor of said driven in rotation; The motor of this driven in rotation is vertical shape setting and axially is connected with a vertically rotating shaft of setting; The end of said rotating shaft is fixed with the motor of said driving screw mandrel, and the motor of this driven in rotation can make said rotating shaft with the rotation of the motor of institute's driven in rotation, and the motor of this driving screw mandrel is and is horizontally disposed with and the electric machine rotational axis end of this driven in rotation is fixedly connected with said screw mandrel.
Preferably; Be provided with rotating shaft in said center shaft position of accommodating frame; This rotating shaft end is fixed with the motor of said driving screw mandrel, and the electric machine rotational axis end of this driving screw mandrel is fixedly connected with said screw mandrel, and this rotating shaft lower end is fixedly connected with the motor of said driven in rotation.
Preferably; Be provided with screw lift in said center shaft position of accommodating frame; This screw lift has elevator screw rod and lifting unit; This lifting unit is enclosed within axially pumping of this this elevator screw rod of elevator screw rod upper edge, is installed with the motor and the said screw mandrel of said driving screw mandrel on this lifting unit, and this drives the said screw mandrel of the terminal captive joint of electric machine rotational axis of screw mandrel; The elevator screw rod of this screw lift is fixedly installed on the rotating disk of this screw lift below, and it is that axle rotates with the center shaft that the motor of this rotating disk through a driven in rotation makes this rotating disk.
Preferably, fixed installation live conductor portion on the lifting unit of said screw lift, this line ball portion is positioned at the below of said screw mandrel.
Serves as the axle rotation for the said frame of accommodating of the motor-driven of driven in rotation with the said frame center shaft of accommodating:
Preferably; Said no tension force strand oscillator has the rotation pedestal; This rotation pedestal is arranged at said accommodating below the frame, and the said frame of accommodating removably is fixed on this rotation pedestal, and this rotation pedestal is the axle rotation with the center shaft through the motor-driven of said driven in rotation; The motor of this driven in rotation is installed on this rotation pedestal bottom, and the said frame of accommodating of the motor-driven of said driven in rotation serves as the axle rotation with the said frame center shaft of accommodating.
Preferably; Said no tension force strand oscillator has support, and this support has crossbeam, and this crossbeam has extended to form connecting portion downward vertically; This connecting portion end is fixed with the motor of said driving screw mandrel, and the S. A. end of the motor of this driving screw mandrel is fixedly connected with said screw mandrel.
Preferably, said no tension force strand oscillator has support, and this support has crossbeam, and this crossbeam is fixed with the motor of said driving screw mandrel, and the S. A. end of the motor of this driving screw mandrel is fixedly connected with said screw mandrel.
Preferably, be provided with fulcrum in said center shaft position of accommodating frame, this shaft end is fixed with the motor of said driving screw mandrel, and the S. A. end of the motor of this driving screw mandrel is fixedly connected with said screw mandrel.
Preferably; Be provided with screw lift in said center shaft position of accommodating frame; This screw lift has elevator screw rod and lifting unit; This lifting unit is enclosed within axially pumping of this this elevator screw rod of elevator screw rod upper edge, is installed with the motor and the said screw mandrel of said driving screw mandrel on this lifting unit, and this drives the said screw mandrel of the terminal captive joint of electric machine rotational axis of screw mandrel.
As stated; The present invention does not have tension force strand oscillator and reel and compares through motor-driven rotation and then prior art that tubing or wire rod are wrapped on the reel; Accommodate frame the wire rod or the tubing of accommodating is not within it had tension; So wire rod or tubing do not have tension force in the process of winding displacement, avoided overtension because of tubing or wire rod to cause its diameter to diminish or the generation of quality problems such as other distortion has taken place.
Description of drawings
Fig. 1 does not have the structural representation of tension force strand oscillator first embodiment for the present invention;
Fig. 2 does not have the structural representation of tension force strand oscillator second embodiment for the present invention;
Fig. 3 does not have the structural representation of tension force strand oscillator the 3rd embodiment for the present invention;
Fig. 4 does not have the structural representation of tension force strand oscillator the 4th embodiment for the present invention;
Fig. 5 does not have the structural representation of tension force strand oscillator the 5th embodiment for the present invention;
Fig. 6 does not have the structural representation of tension force strand oscillator the 6th embodiment for the present invention;
Fig. 7 does not have the structural representation of tension force strand oscillator the 7th embodiment for the present invention.
Each description of reference numerals is following among the figure:
Screw mandrel 10 screw rods 11
The motor 20 that drives screw mandrel is accommodated frame 30
Connecting portion 53 ' rotating shaft 60/60 " '
Screw lift 90 elevator screw rods 91
The specific embodiment
By specifying technology contents of the present invention, structural attitude, realized purpose and effect, give explanation below in conjunction with embodiment and conjunction with figs. are detailed.
See also Fig. 1, it has disclosed first embodiment that the present invention does not have the tension force strand oscillator, and the present invention does not have the tension force strand oscillator and comprises screw mandrel 10, the motor 20 that drives screw mandrel, the motor 40 of accommodating frame 30, driven in rotation, support 50 and rotating shaft 60.
Certainly, the motor 40 of driven in rotation is not limited to above installation connection mode, and other any mounting meanss that can drive rotating shaft 60 rotations all can.
The end of rotating shaft 60 is fixed with the motor 20 of a driving screw mandrel; The motor 20 of this driving screw mandrel can be the turbine worm reducing motor that has auto-lock function; Be and be horizontally disposed with, and the S. A. end that drives the motor 20 of screw mandrel is fixedly connected with screw mandrel 10, screw mandrel 10 is horizontally disposed with.
Accommodate frame 30 and can be the bottom surface for circular framework, be positioned over below the screw mandrel 10, the center of circle, bottom surface of accommodating frame 30 is right against rotating shaft 60 for good.
For ease of explanation, at first define center shaft (this center shaft is virtual, below mentioned center shaft all with reference to this definition) here, this center shaft is that the center of circle, bottom surface of accommodating frame 30 vertical extent that makes progress forms, also can be said to is the center shaft of accommodating frame 30.
The present invention does not have the tension force strand oscillator when work; The screw rod 11 that drives the motor 20 driving screw mandrels 10 of screw mandrel makes nut 12 crank motion on screw rod 11; The motor 40 of driven in rotation drives rotating shafts 60 rotations and makes screw mandrel 10 is the axle rotation with the center shaft; The two speed of the motor 20 that drives screw mandrel and the motor of driven in rotation 40 is complementary, and with center shaft is serving as axle rotation with suitable speed along the 11 reciprocating whiles of screw rod thereby make the nut 12 of screw mandrel 10.The winding displacement process that the present invention does not have the tension force strand oscillator below is detailed:
The present invention does not have the tension force strand oscillator when winding displacement, and initial winding displacement position can begin in nut 12 distance center axle most proximal end, and wire rod penetrates through wires hole 121 entering of nut 12 and accommodates frame 30 bottom surfaces near central axis; Nut 12 outwards moves along screw rod 11, and simultaneously screw mandrel 10 is that axle rotatablely moves with the center shaft, thus make wire rods in the through wires hole 121 with the center shaft be axle from inside to outside progressively spiral fashion be arranged in and accommodate frame 30 bottoms; When nut 12 moves to the outermost end of screw rod 11, at this moment, arranged the ground floor wire rod in the bottom of accommodating frame 30; Drive motor 20 contrarotations of screw mandrel, nut 12 inwardly moves along screw rod 11, begins ranked second deck wire this moment; Wire rod with the center shaft be axle from outside to inside progressively spiral fashion be arranged in above the ground floor wire rod of accommodating in the frame 30, when nut moved to the inner terminal of screw rod 11, second layer wire rod was arranged and is finished; Drive motor 20 contrarotation once more of screw mandrel; Begin arranging of the 3rd deck wire, go round and begin again, row completely accommodates frame 30 until wire rod.Certainly, the present invention initial winding displacement position of not having a tension force strand oscillator also can begin in nut 12 distance center axle distal-most end.
See also Fig. 2; It has disclosed second embodiment that the present invention does not have the tension force strand oscillator; This second embodiment and first embodiment are similar, and its difference is: crossbeam 52 1 ends are connected with column 51, crossbeam 52 other ends extended to form downward vertically connecting portion 53 '; Connecting portion 53 ' end is fixed with the motor 20 that drives screw mandrel, and the S. A. end of the motor 20 of this driving screw mandrel is fixedly connected with screw mandrel 10; This second embodiment also comprises rotation pedestal 70; This rotation pedestal 70 is arranged at accommodates below the frame 30; Accommodate frame 30 and removably be fixed on the rotation pedestal 70, this rotation pedestal 70 is the axle rotation with the center shaft through motor 40 drivings of a driven in rotation, and the motor 40 of this driven in rotation can be installed on rotation pedestal 70 bottoms; Also can be installed on rotation pedestal 70 1 sides, can rotation pedestal 70 rotated through belt or gear transmission.
The principle of work of present embodiment is similar with first embodiment; The screw rod 11 that promptly drives the motor 20 driving screw mandrels 10 of screw mandrel makes nut 12 crank motion on screw rod 11; And the motor of driven in rotation 40 driven in rotation pedestals, 70 rotations and making to accommodate frame 30 be the axle rotation with the center shaft, thereby accomplish wire rod with the center shaft be axle from inside to outside or from outside to inside progressively spiral fashion be arranged in layer by layer and accommodate in the frame 30.
See also Fig. 3; It has disclosed the 3rd embodiment that the present invention does not have the tension force strand oscillator; The 3rd embodiment and second embodiment are similar; Its difference is: crossbeam 52 1 ends are connected with column 51, and crossbeam 52 other ends are fixed with the motor 20 that drives screw mandrel, and the S. A. end of the motor 20 of this driving screw mandrel is fixedly connected with screw mandrel 10.
See also Fig. 4; It has disclosed the 4th embodiment that the present invention does not have the tension force strand oscillator, and the 4th embodiment and first embodiment are similar, and its difference is: this embodiment is not provided with support 50; Be provided with in the center shaft position of accommodating frame 30 rotating shaft 60 ' "; this rotating shaft 60 ' " terminal (top) be fixed with one drive screw mandrel motor 20, the motor 20 S. A. ends of this driving screw mandrel are fixedly connected with screw mandrel 10, this rotating shaft 60 ' " lower end is fixedly connected with the motor 40 of a driven in rotation.
The principle of work of present embodiment is similar with first embodiment; The screw rod 11 that promptly drives the motor 20 driving screw mandrels 10 of screw mandrel makes nut 12 crank motion on screw rod 11; The motor 40 of driven in rotation drive rotating shafts 60 ' " with the center shaft is that the axle rotation rotates screw mandrel 10, thus accomplish wire rod with the center shaft be axle from inside to outside or from outside to inside progressively spiral fashion be arranged in layer by layer and accommodate in the frame 30.
See also Fig. 5, it has disclosed the 5th embodiment that the present invention does not have the tension force strand oscillator, and it is similar that the present invention does not have the 5th embodiment and the 4th embodiment of tension force strand oscillator; Its difference is: the center shaft position accommodating frame 30 is provided with fulcrum 80; These fulcrum 80 ends (top) are fixed with the motor 20 of a driving screw mandrel, and the motor 20 S. A. ends of this driving screw mandrel are fixedly connected with screw mandrel 10, and this 5th embodiment also comprises rotation pedestal 70; This rotation pedestal 70 is arranged at accommodates below the frame 30; Accommodate frame 30 and removably be fixed on the rotation pedestal 70, this rotation pedestal 70 is the axle rotation with the center shaft through motor 40 drivings of a driven in rotation, and the motor 40 of this driven in rotation can be installed on rotation pedestal 70 bottoms; Also can be installed on rotation pedestal 70 1 sides, can rotation pedestal 70 rotated through belt or gear transmission.
The principle of work of present embodiment is similar with first embodiment; The screw rod 11 that promptly drives the motor 20 driving screw mandrels 10 of screw mandrel makes nut 12 crank motion on screw rod 11; And the motor of driven in rotation 40 driven in rotation pedestals, 70 rotations and making to accommodate frame 30 be the axle rotation with the center shaft; And then make wire rod on the through wires hole 121 of screw mandrel 10 accomplish and be the circular movement of axle with the center shaft along the axial crank motion of screw mandrel 10, thereby accomplish wire rod with the center shaft be axle from inside to outside or from outside to inside progressively spiral fashion be arranged in layer by layer and accommodate in the frame 30.
See also Fig. 6; It has disclosed the 6th embodiment that the present invention does not have the tension force strand oscillator; The present invention does not have that the 6th embodiment and the 4th embodiment of tension force strand oscillator is similar, and its difference is: the center shaft position accommodating frame 30 is provided with screw lift 90, and this screw lift 90 drives through the motor 40 of a driven in rotation; The motor 40 of this driven in rotation can be the turbine worm reducing motor that has auto-lock function; This screw lift 90 has elevator screw rod 91 and lifting unit 92, and elevator screw rod 91 is elongated rod shape, has screw thread.Lifting unit 92 has the endoporus (not shown), has screw thread in the endoporus, and lifting unit 92 is enclosed within elevator screw rod 91 and axially the pumping at elevator screw rod 91 upper edge elevator screw rods 91 through screw thread.Be installed with the motor 20, the screw mandrel 10 and line ball portion 110 that drive screw mandrel on the lifting unit 92, this drives the terminal captive joint screw mandrel 10 of motor 20 S. A.s of screw mandrel, and line ball portion 110 is positioned at the below of screw mandrel 10; The elevator screw rod 91 of screw lift 90 is fixedly installed on the rotating disk 100 of these screw lift 90 belows, and it is that axle rotates with the center shaft that the motor 40 of this rotating disk 100 through driven in rotation makes this rotating disk 100.
The principle of work of present embodiment is similar with first embodiment; The screw rod 11 that promptly drives the motor 20 driving screw mandrels 10 of screw mandrel makes nut 12 crank motion on screw rod 11; And wherein the motor 40 of a driven in rotation to drive rotating disk 100 be that to make screw lift 90 be the axle rotation with the center shaft in the axle rotation with the center shaft; And then the nut 12 that makes screw mandrel 10 is the axle rotation with the center shaft; The motor 40 of another driven in rotation drives the lifting unit 92 of screw lifts 90 along elevator screw rod 91 upward movements, not only make wire rod on the through wires hole 121 of screw mandrel 10 accomplish and be the circular movement of axle with the center shaft along the axial crank motion of screw mandrel 10, and then accomplish wire rod with the center shaft be axle from inside to outside or from outside to inside progressively spiral fashion be arranged in layer by layer and accommodate in the frame 30; And the screw rod 11 of lifting unit 92 upward movements drive screw mandrel 10 moves from the bottom up in the process of winding displacement; The wire rod that 110 pairs of wire rods that sequence of line ball portion are pushed to avoid sequencing is loose, when the lifting unit 92 of screw lift 90 rises to elevator screw rod 91 tops (perhaps preset assigned address), at this moment; Accommodating wire rods in the frame 30 arranges and finishes; Frame 30 is accommodated in replacing, and the drive motor of elevator 90 i.e. wherein motor 40 counter-rotatings of a driven in rotation, and the lifting unit 92 of elevator 90 down moves to get back to and accommodates frame 30 bottoms; The drive motor of elevator 90 promptly wherein the motor 40 of a driven in rotation reverse once more, thereby carry out winding displacement once more.
See also Fig. 7; It has disclosed the 7th embodiment that the present invention does not have the tension force strand oscillator; It is similar that the present invention does not have the 7th embodiment and the 6th embodiment of tension force strand oscillator; Its difference is: this 7th embodiment does not establish rotating disk 100 and the motor 40 that drives this rotating disk 100, but rotation pedestal 70 is set below accommodating frame 30, and this rotation pedestal 70 is arranged at accommodates below the frame 30; Accommodate frame 30 and removably be fixed on the rotation pedestal 70, this rotation pedestal 70 is the axle rotation with the center shaft through motor 40 drivings of a driven in rotation.Rotation pedestal 70 with the function that the motor 40 that drives this rotation pedestal 70 is risen is: the motor of driven in rotation 40 driven in rotation pedestals 70 are that the axle rotation makes that to accommodate frame 30 be spool to rotate with the center shaft with the center shaft.
In sum; Seven embodiment that the present invention does not have a tension force strand oscillator have all realized screw mandrel 10 and have accommodated frame 30 and make relative rotary motion; Wherein, The first, the 4th, the 6th embodiment is that screw mandrel 10 is that axle rotates with respect to accommodating frame 30 with the center shaft, and all the other embodiment are that to accommodate frame 30 be that axle rotates with respect to screw mandrel 10 with the center shaft, all realized wire rod with the center shaft be axle from inside to outside or from outside to inside progressively spiral fashion be arranged in layer by layer and accommodate in the frame 30.
The present invention does not have tension force strand oscillator and reel and compares through motor-driven rotation and then prior art that tubing or wire rod are wrapped on the reel; Accommodate wire rod or the tubing that 30 pairs of frames accommodate within it and do not have tension; So wire rod or tubing do not have tension force in the process of winding displacement, avoided overtension because of tubing or wire rod to cause its diameter to diminish or the generation of quality problems such as other distortion has taken place.
The present invention does not have the tension force strand oscillator and is not limited to the above-mentioned specific embodiment; Those skilled in the art that also can make multiple variation in view of the above, and no tension force strand oscillator is equal to or similar variation all should be encompassed in the scope of claim of the present invention but any and the present invention deposit.
Claims (11)
1. no tension force strand oscillator; Comprise screw mandrel, drive the motor of screw mandrel and accommodate frame, said screw mandrel has screw rod and nut, and this nut is provided with cabling portion; The screw rod rotation of the motor-driven screw mandrel of said driving screw mandrel; Said nut is crank motion on said screw rod, it is characterized in that: the screw rod of said screw mandrel is positioned at said radial direction of accommodating the frame center shaft, and this no tension force strand oscillator also comprises the motor of driven in rotation; The speed of the motor of the motor of this driven in rotation and said driving screw mandrel is complementary, and the motor of this driven in rotation makes said screw mandrel and the said frame of accommodating make relative rotary motion.
2. no tension force strand oscillator as claimed in claim 1 is characterized in that: the said screw mandrel of the motor-driven of said driven in rotation serves as the axle rotation with the said frame center shaft of accommodating.
3. no tension force strand oscillator as claimed in claim 2; It is characterized in that: said no tension force strand oscillator has support; This support has crossbeam; This crossbeam is provided with the motor of said driven in rotation, and the motor of this driven in rotation is vertical shape setting and axially is connected with a vertically rotating shaft of setting, and the end of said rotating shaft is fixed with the motor of said driving screw mandrel; The motor of this driven in rotation can make said rotating shaft with the rotation of the motor of institute's driven in rotation, and the motor of this driving screw mandrel is and is horizontally disposed with and the electric machine rotational axis end of this driven in rotation is fixedly connected with said screw mandrel.
4. no tension force strand oscillator as claimed in claim 2; It is characterized in that: be provided with rotating shaft in said center shaft position of accommodating frame; This rotating shaft end is fixed with the motor of said driving screw mandrel; The electric machine rotational axis end of this driving screw mandrel is fixedly connected with said screw mandrel, and this rotating shaft lower end is fixedly connected with the motor of said driven in rotation.
5. no tension force strand oscillator as claimed in claim 2; It is characterized in that: be provided with screw lift in said center shaft position of accommodating frame; This screw lift has elevator screw rod and lifting unit; This lifting unit is enclosed within axially pumping of this this elevator screw rod of elevator screw rod upper edge, is installed with the motor and the said screw mandrel of said driving screw mandrel on this lifting unit, and this drives the said screw mandrel of the terminal captive joint of electric machine rotational axis of screw mandrel; The elevator screw rod of this screw lift is fixedly installed on the rotating disk of this screw lift below, and it is that axle rotates with the center shaft that the motor of this rotating disk through a driven in rotation makes this rotating disk.
6. no tension force strand oscillator as claimed in claim 5 is characterized in that: fixed installation live conductor portion on the lifting unit of said screw lift, this line ball portion is positioned at the below of said screw mandrel.
7. no tension force strand oscillator as claimed in claim 1; It is characterized in that: said no tension force strand oscillator has the rotation pedestal; This rotation pedestal is arranged at said accommodating below the frame, and the said frame of accommodating removably is fixed on this rotation pedestal, and this rotation pedestal is the axle rotation with the center shaft through the motor-driven of said driven in rotation; The motor of this driven in rotation is installed on this rotation pedestal bottom, and the said frame of accommodating of the motor-driven of said driven in rotation serves as the axle rotation with the said frame center shaft of accommodating.
8. no tension force strand oscillator as claimed in claim 7; It is characterized in that: said no tension force strand oscillator has support; This support has crossbeam; This crossbeam has extended to form connecting portion downward vertically, and this connecting portion end is fixed with the motor of said driving screw mandrel, and the S. A. end of the motor of this driving screw mandrel is fixedly connected with said screw mandrel.
9. no tension force strand oscillator as claimed in claim 7; It is characterized in that: said no tension force strand oscillator has support; This support has crossbeam, and this crossbeam is fixed with the motor of said driving screw mandrel, and the S. A. end of the motor of this driving screw mandrel is fixedly connected with said screw mandrel.
10. no tension force strand oscillator as claimed in claim 7; It is characterized in that: be provided with fulcrum in said center shaft position of accommodating frame; This shaft end is fixed with the motor of said driving screw mandrel, and the S. A. end of the motor of this driving screw mandrel is fixedly connected with said screw mandrel.
11. no tension force strand oscillator as claimed in claim 7; It is characterized in that: be provided with screw lift in said center shaft position of accommodating frame; This screw lift has elevator screw rod and lifting unit; This lifting unit is enclosed within axially pumping of this this elevator screw rod of elevator screw rod upper edge, is installed with the motor and the said screw mandrel of said driving screw mandrel on this lifting unit, and this drives the said screw mandrel of the terminal captive joint of electric machine rotational axis of screw mandrel.
Priority Applications (1)
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CN2010105821497A CN102476759A (en) | 2010-11-26 | 2010-11-26 | Tension-free wire arrangement device |
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CN2010105821497A CN102476759A (en) | 2010-11-26 | 2010-11-26 | Tension-free wire arrangement device |
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CN102476759A true CN102476759A (en) | 2012-05-30 |
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CN2010105821497A Pending CN102476759A (en) | 2010-11-26 | 2010-11-26 | Tension-free wire arrangement device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106276664A (en) * | 2016-08-24 | 2017-01-04 | 武汉船用机械有限责任公司 | A kind of rope-winding winch |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3445077A (en) * | 1967-08-03 | 1969-05-20 | Nassau Smelting & Refining Co | Strand distributing and receiving apparatus and method |
JPS5574954A (en) * | 1978-11-30 | 1980-06-05 | Sony Corp | Automatic winding device |
CN2125569U (en) * | 1992-03-04 | 1992-12-23 | 王更生 | Simple pole vertical cable re-storing machine |
CN201882702U (en) * | 2010-11-26 | 2011-06-29 | 深圳市沃尔核材股份有限公司 | Tension-free wire arrangement device |
-
2010
- 2010-11-26 CN CN2010105821497A patent/CN102476759A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3445077A (en) * | 1967-08-03 | 1969-05-20 | Nassau Smelting & Refining Co | Strand distributing and receiving apparatus and method |
JPS5574954A (en) * | 1978-11-30 | 1980-06-05 | Sony Corp | Automatic winding device |
CN2125569U (en) * | 1992-03-04 | 1992-12-23 | 王更生 | Simple pole vertical cable re-storing machine |
CN201882702U (en) * | 2010-11-26 | 2011-06-29 | 深圳市沃尔核材股份有限公司 | Tension-free wire arrangement device |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106276664A (en) * | 2016-08-24 | 2017-01-04 | 武汉船用机械有限责任公司 | A kind of rope-winding winch |
CN106276664B (en) * | 2016-08-24 | 2018-10-30 | 武汉船用机械有限责任公司 | A kind of rope-winding winch |
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Application publication date: 20120530 |