CN202730364U - Spindle blade structure for doubling in textile twist - Google Patents
Spindle blade structure for doubling in textile twist Download PDFInfo
- Publication number
- CN202730364U CN202730364U CN 201220282259 CN201220282259U CN202730364U CN 202730364 U CN202730364 U CN 202730364U CN 201220282259 CN201220282259 CN 201220282259 CN 201220282259 U CN201220282259 U CN 201220282259U CN 202730364 U CN202730364 U CN 202730364U
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- spindle
- spindle top
- caps
- cap
- blade structure
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Abstract
The utility model relates to a spindle blade structure for doubling in textile twist. The spindle blade structure comprises a spindle shaft and spindle caps sleeved at two ends of the spindle shaft, wherein the spindle caps are used for limiting the spindle shaft in the axial direction through clamp springs at two sides of the spindle caps; and a plurality of elastic caps with springs at the tail ends are arranged on the peripheral surfaces of the spindle caps. The spindle blade structure has the innovative points that an lubricating wear-resisting shaft sleeve is arranged between the spindle caps and the spindle shaft; as the lubricating wear-resisting shaft sleeve is arranged, the clamping phenomenon can not be generated when a bobbin rotates, further, the wear of the spindle caps is avoided, the service life of the spindle cap is long, and the maintenance and replacement cycles are shortened; an ant-inertia mechanism is arranged at the front ends of the spindle caps, the seersuckers caused by inertia are reduced; elastic cap limiting installation grooves for installing limiting clamp pieces at two sides of the spindle caps extend to the end surfaces of the spindle caps along the axial direction of the spindle caps, so that the spindle caps can be directly formed through a mold without machining when the spindle blade structure is used for forming the spindle caps, therefore, the production period is shortened, and the manufacturing cost is lowered.
Description
Technical field
The utility model relates to a kind of weaving and twists with the fingers doubling spindle blade structure, and particularly doubling spindle blade structure is twisted with the fingers in the weaving of a kind of long service life, low cost of manufacture.
Background technology
Weaving twisting machine or doubling frame spindle blade are used for the suit spool, and so that spool can freely rotate thereon.Traditional spindle blade structure comprises ingot axle and spindle top, the two ends suit spindle top of ingot axle, and spindle top is realized axial limiting by the jump ring on the ingot axle, and the bullet cap of three back side band springs is installed at the periphery of spindle top.During use, spool is sleeved on the spindle top, and utilizes the bullet cap automatically to prop up the spool inner surface and realize the fixing of spool.The shortcoming of this kind structure is: 1, spindle top directly is sleeved on the ingot axle, and the inner ring of spindle top very easily weares and teares, and need to frequently change maintenance, and use cost is high, and the normal production of impact; 2, in making the process of spindle top, need to be in its periphery boring, and in the two bottom sides groove milling in hole, play cap and be installed in the hole, play spacing then being installed in the groove of bullet cap of both sides, cap bottom, this kind structure during fabrication, hole and groove all adopt machined, and machining period is long, and expense is high; 3, spool need to carry out axial limiting when cover installs on the spindle top, and it has increased manufacturing cost by a spacing realization of bowl-type that is installed in the ingot shaft end.4, because of the inertia force reason of spool, between each spindle blade to go out yarn tension inhomogeneous, so phenomenon doubling on same spindle causes the seersucker fault of finished product yarn easily.
Summary of the invention
The technical problems to be solved in the utility model provides a kind of long service life, low cost of manufacture and can improve and twist with the fingers the also weaving sth. made by twisting doubling spindle blade structure of line mass.
For solving the problems of the technologies described above, the technical solution of the utility model is: doubling spindle blade structure is twisted with the fingers in a kind of weaving, comprise ingot axle and the spindle top that is sleeved on ingot axle two ends, the jump ring of spindle top by both sides carries out spacing on axially of ingot axle, the spindle top circumferential surface is equipped with several ends with the bullet cap of spring, its innovative point is: between described spindle top and the ingot axle lubricating and wear-resisting axle sleeve is installed, and described lubricating and wear-resisting axle sleeve and spindle top inner ring interference fit, lubricating and wear-resisting axle sleeve and ingot axle are slidingly matched.
Further, described spindle top circumferential surface has and plays the cap installing hole, and described bullet cap installing hole bottom is provided with and plays cap limit mounting groove, and described bullet cap limit mounting groove extends axially to the spindle top end face along spindle top; Described bullet cap is installed in and plays in the cap installing hole, and the spacing card that plays the cap two bottom sides is positioned at and plays cap limit mounting groove.
Further, the spindle top arranged outside inertia eliminating machine of close spool installation end in the described spindle top.
Further, described inertia eliminating machine comprises friction plate, control strip and is arranged between the two tensioning spring, and described friction plate is against on the lubricating and wear-resisting end face of shaft bush, and described jump ring props up the control strip end face.
Further, a spindle top end away from the spool installation end in the described spindle top arranges spacing preiection, described spacing preiection and spindle top global formation.
The utility model has the advantage of: between spindle top and the ingot axle lubricating and wear-resisting axle sleeve is installed, the lubricating and wear-resisting axle sleeve has lubricated, wear-resisting effect, and spool catching phenomenon can not occur when rotating, and has avoided the wearing and tearing of spindle top, long service life reduces and safeguards the replacement cycle.The bullet cap limit mounting groove that the spacing card in spindle top both sides is installed extends axially to the spindle top end face along spindle top, can pass through the mould straight forming when the moulding spindle top, need not machined, shortens the production cycle, reduces manufacturing cost.Global formation on the spindle top arranges spacing preiection, need not to arrange in addition position-limit mechanism.Utilize the inertia eliminating machine to reduce the inertia of spool, so that the yarn even tension between each spindle blade, avoid causing the seersucker fault of finished product yarn.
The spindle top end is realized spacing by the inertia eliminating machine, utilize friction plate to prop up the lubricating and wear-resisting axle sleeve, between tension spring setting and friction plate and control strip, it is spacing that control strip utilizes jump ring to realize, thereby utilize the tensioning spring that is arranged between friction plate and control strip fully to realize spacing under the effect of spring force.
Description of drawings
Fig. 1 is that doubling spindle blade structural representation is twisted with the fingers in the utility model weaving.
Fig. 2 is spindle top structural representation in the utility model.
Fig. 3 is along A-A line cutaway view among Fig. 2.
The specific embodiment
As shown in Figure 1, comprise ingot axle 1, spindle top 21, spindle top 22, jump ring 3, lubricating and wear-resisting axle sleeve 4, bullet cap installing hole 5, bullet cap limit mounting groove 6, bullet cap 7, spring 8, spacing card 9, friction plate 10, tension spring 11, control strip 12, spacing preiection 13.
Spindle top 21,22 integral body are the cylindrical structural with chamfering, and fillet surface is to the spool installation end of ingot axle 1.Between spindle top 21,22 and the ingot axle 1 lubricating and wear-resisting axle sleeve 4 is installed, the axle sleeve that this lubricating and wear-resisting axle sleeve 4 can adopt graphite or tetrafluoro admixed graphite to make also can be ferrous based powder metallurgical and the axle sleeve that infiltrates lubricating oil.Lubricating and wear-resisting axle sleeve 4 and spindle top 21,22 inner ring interference fit, lubricating and wear-resisting axle sleeve 4 is slidingly matched with ingot axle 1.
Spindle top 21,22 circumferential surfaces are evenly distributed with three and play cap installing holes 5, play cap installing hole 5 bottoms and are provided with and play cap limit mounting groove 6, and this plays cap limit mounting groove 6 and extends axially front end face or rear end face to spindle top 21,22 along spindle top 21,22.
Play bullet cap 7 is installed in the cap installing hole 5, play cap 7 terminal linking springs 8, the two bottom sides that plays cap 7 is provided with for spacing spacing card 9, and this spacing card 9 is positioned at and plays cap limit mounting groove 6.
The two ends of above-mentioned ingot axle 1 are set with spindle top 21,22, and spindle top 22 is realized spacing on ingot axles 1 axially by the jump ring 3 of both sides.Spindle top 21 1 ends are spacing by jump ring 3, and the other end is realized spacing by inertia eliminating machine and jump ring 3.
Above-mentioned inertia eliminating machine is arranged on spindle top 21 outsides of close spool installation end in the spindle top.The inertia eliminating machine comprises friction plate 10, control strip 12 and is arranged between the two tensioning spring 11, friction plate 10, tensioning spring 11 and control strip 12 are successively set between the jump ring 3 in spindle top 21 and the spindle top outside, and friction plate 10 is close to lubricating and wear-resisting axle sleeve 4 outside end faces under the tensioning spring effect, and control strip 12 is close to the jump ring 3 in the spindle top outside under the tensioning spring effect.
Spacing when making things convenient for spool to install, spindle top 22 ends away from the spool installation end in the spindle top arrange spacing preiection 13, this spacing preiection 13 and spindle top 22 global formations.
Claims (5)
1. doubling spindle blade structure is twisted with the fingers in a weaving, comprise ingot axle and the spindle top that is sleeved on ingot axle two ends, the jump ring of spindle top by both sides carries out spacing on axially of ingot axle, the spindle top circumferential surface is equipped with several ends with the bullet cap of spring, it is characterized in that: between described spindle top and the ingot axle lubricating and wear-resisting axle sleeve is installed, described lubricating and wear-resisting axle sleeve and spindle top inner ring interference fit, lubricating and wear-resisting axle sleeve and ingot axle are slidingly matched.
2. doubling spindle blade structure is twisted with the fingers in weaving according to claim 1, it is characterized in that: described spindle top circumferential surface has and plays the cap installing hole, described bullet cap installing hole bottom is provided with and plays cap limit mounting groove, and described bullet cap limit mounting groove extends axially to the spindle top end face along spindle top; Described bullet cap is installed in and plays in the cap installing hole, and the spacing card that plays the cap two bottom sides is positioned at and plays cap limit mounting groove.
3. doubling spindle blade structure is twisted with the fingers in weaving according to claim 1, it is characterized in that: the spindle top arranged outside inertia eliminating machine of close spool installation end in the described spindle top.
4. doubling spindle blade structure is twisted with the fingers in weaving according to claim 3, it is characterized in that: described inertia eliminating machine comprises friction plate, control strip and is arranged between the two tensioning spring, described friction plate is against on the lubricating and wear-resisting end face of shaft bush, and described jump ring props up the control strip end face.
5. doubling spindle blade structure is twisted with the fingers in weaving according to claim 1, and it is characterized in that: a spindle top end away from the spool installation end in the described spindle top arranges spacing preiection, described spacing preiection and spindle top global formation.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220282259 CN202730364U (en) | 2012-06-15 | 2012-06-15 | Spindle blade structure for doubling in textile twist |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220282259 CN202730364U (en) | 2012-06-15 | 2012-06-15 | Spindle blade structure for doubling in textile twist |
Publications (1)
Publication Number | Publication Date |
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CN202730364U true CN202730364U (en) | 2013-02-13 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201220282259 Expired - Fee Related CN202730364U (en) | 2012-06-15 | 2012-06-15 | Spindle blade structure for doubling in textile twist |
Country Status (1)
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CN (1) | CN202730364U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103952811A (en) * | 2014-05-14 | 2014-07-30 | 湖州石淙印染有限公司 | Spindle blade capable of positioning textile bobbin |
CN103952812A (en) * | 2014-05-14 | 2014-07-30 | 湖州石淙印染有限公司 | Spindle blade for grasping spinning bobbin |
-
2012
- 2012-06-15 CN CN 201220282259 patent/CN202730364U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103952811A (en) * | 2014-05-14 | 2014-07-30 | 湖州石淙印染有限公司 | Spindle blade capable of positioning textile bobbin |
CN103952812A (en) * | 2014-05-14 | 2014-07-30 | 湖州石淙印染有限公司 | Spindle blade for grasping spinning bobbin |
CN103952811B (en) * | 2014-05-14 | 2016-08-24 | 汪建建 | A kind of spindle blade positioning textile-bobbin |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130213 Termination date: 20180615 |
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CF01 | Termination of patent right due to non-payment of annual fee |