CN102807134A - Tension control device for automatic winder - Google Patents
Tension control device for automatic winder Download PDFInfo
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- CN102807134A CN102807134A CN2012103018934A CN201210301893A CN102807134A CN 102807134 A CN102807134 A CN 102807134A CN 2012103018934 A CN2012103018934 A CN 2012103018934A CN 201210301893 A CN201210301893 A CN 201210301893A CN 102807134 A CN102807134 A CN 102807134A
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- tension
- push rod
- moving magnet
- electromagnetic actuator
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Abstract
The invention provides a tension control device for an automatic winder. The tension control device comprises a single spindle control panel, a fixed tension disk cylinder, a fixing tension disk, a moving tension disk, a push rod binder, an electromagnetic driving device, and a tension box, and is characterized in that a movable tension disk cylinder for pushing the push rod binder is arranged in the electromagnetic driving device, the center of the movable tension disk cylinder is provided with a vent; the tension box is provided with an air channel; the vent in the center of the movable tension disk cylinder is connected with the air channel on the tension box; and the air channel is provided with a switching valve. A pneumatic mode and an electromagnet mode can be implemented for pressurization simultaneously on the same winder, so that the tension is adjusted by stages, the consistency of the tension is improved, the efficiency of the winder is improved, manpower and time are saved, and the tension control device is simple in structure and convenient to use.
Description
Technical field
The invention belongs to textile machine manufacturing technology field, relate to a kind of automatic winder tenslator, is the tenslator that a kind of bobbin-winding machine is pneumatic and electromagnet combines specifically.
Background technology
At present, the automatic winder Tension Control mainly contains dual mode, promptly pneumatic pressurization and electromagnet pressurization, and two kinds of modes respectively have merits and faults.Adopt pneumatic fitting, comprise single ingot control desk, tension force casing, active tension dish, fixedly tension pulley, cylinder, fixedly tension pulley and cylinder are fixed on the tension force casing, and the active tension disk activity is installed on the valve of cylinder with fixedly tension pulley is corresponding.The active tension dish disposes the push-rod assembly of air pressure control, and said push-rod assembly comprises push rod, pallet and felt, and push rod combines as the inserts of pallet, and felt is bonded on the pallet.Push-rod assembly under the gas effect, promotes the active tension dish and fixedly tension pulley is closed; When the gas circuit that active tension dish valve is installed was opened, the pressure that acts on the gas on the active tension dish was pushed the active tension dish open, and fixedly tension pulley and active tension dish are opened.Pneumatic pressurization is more stable, and uniform tension in order property still can not realize the segmentation control of tension force than higher everywhere, and promptly a bobbin-winding machine can not be set different tension force sizes according to the kind difference.Realize the sectional-regulated of tension force though can increase devices such as tension force gas piping, ingot internode gas piping connection pipe at the ingot internode, need at least one cover gas circuit of additive incrementation control setup, increased cost, implement also more complicated.By name " the automatic winder tension pulley pressure device " that the applicant has (patent No.: utility model patent 201020246120.7), comprise single ingot control desk, tension force casing, active tension dish, fixedly tension pulley, cylinder, fixedly tension pulley and cylinder are fixed on the tension force casing; Described active tension disk activity is installed on the valve of cylinder with fixedly tension pulley is corresponding; Described active tension dish disposes a push-rod assembly and radius-rod drive device, it is characterized in that, described radius-rod drive device is an electromagnetic actuator device; Electromagnetic actuator device housing front portion is provided with a slotted hole; The rear portion is provided with the cavity that is communicated with slotted hole, in the said electromagnetic actuator device housing slotted hole moving magnet strut bar is set, and a moving magnet is set on the rear end of moving magnet strut bar; Moving magnet places in the interior rear cavity of housing; Moving magnet is through cable order ingot control desk, and described push rod one end inserts in the slotted hole of electromagnetic actuator device housing, and the moving magnet strut bar withstands on push rod one end; Move along slotted hole with moving magnet at the magnetic action lower push-rod, promote the active tension dish and fixedly tension pulley is closed.Described moving magnet strut bar middle part is the convex edge, and the moving magnet strut bar is with a spring outward, and spring one end withstands on the moving magnet strut bar convex edge, and the spring other end withstands on the inwall at housing rear portion.Because what this patent adopted is the electromagnet pressuring method, therefore, can realize the tension force step-less adjustment, can be according to different yarn varieties and the different tension value of grouping and setting.But the electromagnet pressing mode is less stable comparatively speaking, the phenomenon that tension force is lost can occur.How a kind of automatic winder tenslator is provided, the advantage of the comprehensive two kinds of Tension Control modes of ability, this is the technical matters that needs to be resolved hurrily at present.
Summary of the invention
The present invention is directed to the deficiency of prior art, a kind of automatic winder tenslator is provided, on same bobbin-winding machine, can guarantee tension force conformability everywhere, can carry out tension force segmentation setting to different kinds again.
The objective of the invention is to realize through following technical scheme:
A kind of automatic winder tenslator; Comprise: single ingot control desk, fixedly tension pulley cylinder, fixedly tension pulley, active tension dish, push rod conjunction, electromagnetic actuator device, tension force casing; It is characterized in that: the set inside one of said electromagnetic actuator device promotes the active tension dish cylinder of push rod conjunction; The centre of active tension dish cylinder has an air extractor vent; The tension force casing is provided with gas channels, and the air extractor vent in the middle of the active tension dish cylinder is connected with the gas channels on the tension force casing, and said gas channels is provided with switch valve.
Improvement to technique scheme: said push rod conjunction comprises push rod, pallet and felt, and push rod and trays are one, and felt is bonded on the pallet.
Further improvement to technique scheme: described electromagnetic actuator device housing front portion is provided with a slotted hole; The rear portion is provided with the cavity that is communicated with slotted hole, in the said electromagnetic actuator device housing slotted hole moving magnet strut bar is set, and a moving magnet is set on the rear end of moving magnet strut bar; Moving magnet places in the interior rear cavity of electromagnetic actuator device housing; Moving magnet is through cable order ingot control desk, and described push rod one end inserts in the slotted hole of electromagnetic actuator device housing, and the moving magnet strut bar withstands on push rod one end; Move along slotted hole with moving magnet at the magnetic action lower push-rod, regulate the active tension dish and the fixing tension force of tension pulley generation.
Improvement to technique scheme: described moving magnet strut bar middle part is the convex edge, and the moving magnet strut bar is with a spring outward, and spring one end withstands on the moving magnet strut bar convex edge, and the spring other end withstands on the inwall at electromagnetic actuator device housing rear portion.
Further improvement to technique scheme: be provided with on the described electromagnetic actuator device inner walls one with the cooresponding bulge loop in convex edge, moving magnet strut bar middle part; Active tension dish and fixing tension pulley open mode, the bulge loop of moving magnet strut bar convex edge and electromagnetic actuator device inner walls is inconsistent.
Further improvement to technique scheme: described active tension dish cylinder is that the cavity that is communicated with slotted hole with electromagnetic actuator device housing rear portion is as the gas cavity, with the drive spindle of the push rod in the push rod conjunction as active tension dish cylinder.
Further improvement to technique scheme: described switch valve is an electric-air valve, and the control end of electric-air valve is connected on single ingot control desk.
Advantage of the present invention and good effect are:
Automatic winder of the present invention is taked tenslator pneumatic and that electromagnet combines, on same bobbin-winding machine, can realize pneumatic and pneumatic combination electromagnet dual mode pressurization simultaneously, and the Tension Control mode can be selected through the upper computer parameter.If the yarn variety that a chassis spins is single, then only select pneumatic pressurization; If the user will spin the yarn of different cultivars simultaneously, then on pneumatic pressurization basis, finely tune through moving magnet again, can realize the flexible segmentation of tension force.Improve the conformability of tension force, improved the efficient of bobbin-winding machine again simultaneously, practiced thrift manpower and time.Active tension dish cylinder is that the cavity that is communicated with slotted hole with electromagnetic actuator device housing rear portion is as the gas cavity, with the drive spindle of the push rod in the push rod conjunction as active tension dish cylinder.It is simple in structure, compact, and is easy for operation.
Description of drawings
Fig. 1 is the part sectional view of automatic winder tenslator of the present invention;
Fig. 2 is the gas circuit scheme drawing of automatic winder tenslator of the present invention.
The specific embodiment
Below in conjunction with accompanying drawing the present invention is described in further detail:
Referring to Fig. 1, Fig. 2; The embodiment of a kind of automatic winder tenslator of the present invention comprises: single ingot control desk, fixedly tension pulley cylinder 1, fixedly tension pulley 2, active tension dish 3, push rod conjunction 4, electromagnetic actuator device, tension force casing 6, electromagnetic actuator device set inside one active tension dish cylinder 5; There is an air extractor vent centre of active tension dish cylinder 5; Be designed with gas channels 8 on the tension force casing 6, the air extractor vent of active tension dish cylinder 5 is connected with gas channels 8 on the tension force casing 6, on the gas channels 8 switch valve is set; Described switch valve is an electric-air valve, and the control end of electric-air valve is connected to single ingot control desk.
Above-mentioned push rod conjunction 4 comprises push rod, pallet and felt, and push rod and trays are one, and felt is bonded on the pallet.
Above-mentioned electromagnetic actuator device housing front portion is provided with a slotted hole; The rear portion is provided with the cavity that is communicated with slotted hole, in the said electromagnetic actuator device housing slotted hole moving magnet strut bar is set, and a moving magnet 7 is set on the rear end of moving magnet strut bar; Moving magnet 7 places in the interior rear cavity of electromagnetic actuator device housing; Moving magnet 7 is through cable order ingot control desk, and described push rod one end inserts in the slotted hole of electromagnetic actuator device housing, and the moving magnet strut bar withstands on push rod one end; Move along slotted hole with moving magnet at the magnetic action lower push-rod, promote active tension dish 3 and fixing tension pulley 2 closures.
Above-mentioned moving magnet strut bar middle part is the convex edge, and the moving magnet strut bar is with a spring outward, and spring one end withstands on the moving magnet strut bar convex edge, and the spring other end withstands on the inwall at electromagnetic actuator device housing rear portion.
Be provided with on the above-mentioned electromagnetic actuator device inner walls one with the cooresponding bulge loop in convex edge, moving magnet strut bar middle part, active tension dish 3 is made a call to 2 with fixing tension pulley and is opened state, the bulge loop of moving magnet strut bar convex edge and electromagnetic actuator device inner walls is inconsistent.
The cavity that active tension dish cylinder of the present invention 5 electromagnetic actuator device housing also capable of using rear portions are communicated with slotted hole is as the gas cavity, with the drive spindle of the push rod in the push rod conjunction 4 as active tension dish cylinder 5.On the cavity wall at electromagnetic actuator device housing rear portion, open pore, this air extractor vent is connected with gas channels 8 on the tension force casing 6.If want 5 work of active tension dish cylinder; Inflate in the gas cavity at electromagnetic actuator device housing rear portion by gas channels 8; By the anterior slotted hole exhaust of electromagnetic actuator device housing; Thereby apply air pressure and give the push rod in the push rod conjunction 4, make push rod conjunction 4 promote active tension dishes 3 and draw close and be closed, thereby generation pressure to fixing tension pulley 2.
In the production process:
If 1 selects pneumatic pressurization, active tension dish cylinder 5 work is given push rod conjunction 4 thereby apply air pressure, make push rod conjunction 4 promote active tension dishes 3 and draw close and be closed to fixing tension pulley 2, thus generation pressure; After active tension dish cylinder 5 quit work, when fixedly the gas circuit of tension pulley cylinder 1 was opened, the gaseous tension that acts on the active tension dish 3 was pushed active tension dish 3 open, and fixedly tension pulley 2 is opened with active tension dish 3.
When fixing tension pulley cylinder 1 closed gas circuit, under the combined action of active tension dish cylinder 5, magnetic force that moving magnet 7 parts produce and spring force, make active tension dish 3 and fixing tension pulley 2 recover closure states.
If upper computer selecting is not selected moving magnet 7 pressurizations for use, is by the 5 pneumatic pressurizations of active tension dish cylinder so always.
The direction of arrow among Fig. 2 is the trend of gas circuit.
If 2 need extraly apply electromagnet tension force to some single ingot on pneumatic basis, then moving magnet 7 combines with pneumatic pressurization and promotes push rod conjunction 4 and move, and makes active tension dish 3 and fixing tension pulley 2 closures, can realize the flexible segmentation of tension force.
Certainly, above-mentioned explanation is not to be the restriction to invention, and the present invention also is not limited to above-mentioned giving an example; Those skilled in the art; In essential scope of the present invention, the variation of having done, remodeling, interpolation or replacement also should belong to protection scope of the present invention.
Claims (9)
1. automatic winder tenslator; Comprise: single ingot control desk, fixedly tension pulley cylinder, fixedly tension pulley, active tension dish, push rod conjunction, electromagnetic actuator device, tension force casing; It is characterized in that; The set inside one of said electromagnetic actuator device promotes the active tension dish cylinder of push rod conjunction, and the centre of active tension dish cylinder has an air extractor vent, and the tension force casing is provided with gas channels; Air extractor vent in the middle of the active tension dish cylinder is connected with the gas channels on the tension force casing, and said gas channels is provided with switch valve.
2. according to the described automatic winder tenslator of claim 1, it is characterized in that said push rod conjunction comprises push rod, pallet and felt, push rod and trays are one, and felt is bonded on the pallet.
3. according to claim 1 or 2 described automatic winder tenslators; It is characterized in that described electromagnetic actuator device housing front portion is provided with a slotted hole, the rear portion is provided with the cavity that is communicated with slotted hole; In the said electromagnetic actuator device housing slotted hole moving magnet strut bar is set; One moving magnet is set on the rear end of moving magnet strut bar, and moving magnet places in the interior rear cavity of electromagnetic actuator device housing, and moving magnet is through cable order ingot control desk; Described push rod one end inserts in the slotted hole of electromagnetic actuator device housing; The moving magnet strut bar withstands on push rod one end, moves along slotted hole with moving magnet at the magnetic action lower push-rod, regulates the active tension dish and the fixing tension force of tension pulley generation.
4. according to the described automatic winder tenslator of claim 3; It is characterized in that; Described moving magnet strut bar middle part is the convex edge; The moving magnet strut bar is with a spring outward, and spring one end withstands on the moving magnet strut bar convex edge, and the spring other end withstands on the inwall at electromagnetic actuator device housing rear portion.
5. according to the described automatic winder tenslator of claim 4; It is characterized in that; Be provided with on the described electromagnetic actuator device inner walls one with the cooresponding bulge loop in convex edge, moving magnet strut bar middle part; Active tension dish and fixing tension pulley open mode, the bulge loop of moving magnet strut bar convex edge and electromagnetic actuator device inner walls is inconsistent.
6. according to the described automatic winder tenslator of claim 3; It is characterized in that; Described active tension dish cylinder is that the cavity that is communicated with slotted hole with electromagnetic actuator device housing rear portion is as the gas cavity, with the drive spindle of the push rod in the push rod conjunction as active tension dish cylinder.
7. according to the described automatic winder tenslator of claim 5; It is characterized in that; Described active tension dish cylinder is that the cavity that is communicated with slotted hole with electromagnetic actuator device housing rear portion is as the gas cavity, with the drive spindle of the push rod in the push rod conjunction as active tension dish cylinder.
8. according to claim 1 or 2 described automatic winder tenslators, it is characterized in that described switch valve is an electric-air valve, the control end of electric-air valve is connected on single ingot control desk.
9. according to the described automatic winder tenslator of claim 7, it is characterized in that described switch valve is an electric-air valve, the control end of electric-air valve is connected on single ingot control desk.
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CN201210301893.4A CN102807134B (en) | 2012-08-23 | 2012-08-23 | Tension control device for automatic winder |
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CN201210301893.4A CN102807134B (en) | 2012-08-23 | 2012-08-23 | Tension control device for automatic winder |
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CN102807134A true CN102807134A (en) | 2012-12-05 |
CN102807134B CN102807134B (en) | 2014-03-12 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108147216A (en) * | 2017-12-18 | 2018-06-12 | 江苏华灵纺机有限公司 | The control device of dye bobbin rolling density |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5301895A (en) * | 1992-04-15 | 1994-04-12 | Intronics, Inc. | Yarn tensioning apparatus |
CN1085975C (en) * | 1996-04-18 | 2002-06-05 | Icbt瓦朗斯公司 | Yarn tensioning device and textile machine equipped therewith |
CN201183694Y (en) * | 2008-04-09 | 2009-01-21 | 上海梅花刺轴有限公司 | Yarn tension-adjusting gear of spinning winding machine |
CN201737528U (en) * | 2010-06-22 | 2011-02-09 | 青岛宏大纺织机械有限责任公司 | Pressure device for tension discs of automatic winder |
CN202829141U (en) * | 2012-08-23 | 2013-03-27 | 青岛宏大纺织机械有限责任公司 | Tension control device of automatic winding machine |
-
2012
- 2012-08-23 CN CN201210301893.4A patent/CN102807134B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5301895A (en) * | 1992-04-15 | 1994-04-12 | Intronics, Inc. | Yarn tensioning apparatus |
CN1085975C (en) * | 1996-04-18 | 2002-06-05 | Icbt瓦朗斯公司 | Yarn tensioning device and textile machine equipped therewith |
CN201183694Y (en) * | 2008-04-09 | 2009-01-21 | 上海梅花刺轴有限公司 | Yarn tension-adjusting gear of spinning winding machine |
CN201737528U (en) * | 2010-06-22 | 2011-02-09 | 青岛宏大纺织机械有限责任公司 | Pressure device for tension discs of automatic winder |
CN202829141U (en) * | 2012-08-23 | 2013-03-27 | 青岛宏大纺织机械有限责任公司 | Tension control device of automatic winding machine |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108147216A (en) * | 2017-12-18 | 2018-06-12 | 江苏华灵纺机有限公司 | The control device of dye bobbin rolling density |
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CN102807134B (en) | 2014-03-12 |
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