CN2918473Y - Towel satin jacquard weave transmission device - Google Patents
Towel satin jacquard weave transmission device Download PDFInfo
- Publication number
- CN2918473Y CN2918473Y CN 200620102991 CN200620102991U CN2918473Y CN 2918473 Y CN2918473 Y CN 2918473Y CN 200620102991 CN200620102991 CN 200620102991 CN 200620102991 U CN200620102991 U CN 200620102991U CN 2918473 Y CN2918473 Y CN 2918473Y
- Authority
- CN
- China
- Prior art keywords
- drive
- driven pulley
- clutch
- transmission
- wheel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Looms (AREA)
Abstract
The utility model relates to a towel satin shelve weaving transmission device, which comprises a low weft density transmission chain device, a high weft density transmission mechanism I and II. A transmission wheel is respectively arranged on a main spindle of the loom, a driven wheel and a clutch is respectively arranged and connected with a transmission shaft; an auxiliary transmission mechanism, the main spindle of the loom and the transmission shaft are respectively connected with a small frame side; a chain wheel or a synchronized band pulley is connected with a driving wheel and an auxiliary driving mechanism, the auxiliary driving mechanism and the driven wheel. The utility model can uninterruptedly weave different weft density satin textile, improve the loom efficiency, keep the clutch and the control signal in synchronous state, and improve the quality of the production.
Description
Technical field the utility model relates to textile machine, and especially a kind of towel satin shelves of terry cloth loom are weaved transmission device.
It is distinctive a kind of transmission device in the terry cloth loom that background technology forging shelves are weaved transmission device, the transmission principle of this device drives beating motion and the warp let-off, takeup motion by the main shaft of loom, when weaving, beat up, send footpath, spooler synchronous operation at fluffing or plain cloth; When the satin shelves are weaved, the operation of beating up is constant, send the footpath, batch and to assist operation by main electric cabinet or shedding motion, usually stop two and send satin shelves: main shaft changes three circles, beat up three times, then send the footpath, get volume once, clutch will change the adhesive of the 3rd when circle at main shaft, at the 4th circle in a flash then, clutch disconnects again, because the loom main shaft rotating speed is fast, requires the clutch adhesive, the time compole that drags, disconnects is short, frequency is too high, and impulsive force is bigger, and service time, clutch abrasion appearred in length easily, weave instability, need often to change clutch.In addition, because the remanent magnetism effect of clutch, clutch can not right-only be caught up with the automatically controlled signal of loom master electric cabinet, beat up, sending the footpath to move can not be synchronous fully, and the filling density of towel cloth satin shelves part is irregular like this, satin shelves fabric length is difficult to control, Gu this, it can only be applicable to the low speed loom, the requirement of incompatible modern loom weaving process.
Summary of the invention the utility model is weaved the weak point that transmission device exists at the satin shelves of terry cloth loom, provide a kind of rational in infrastructure, to weave filling density even, length is stable, the towel satin shelves that are fit to the high-speed cruising loom are weaved transmission device.
The utility model change former loom satin shelves weave use clearance-type stop the volume, stop sending and weave drive mechanism, design adopts high filling density continous mode to send the footpath, batch drive mechanism, it specifically is the technical scheme that on the original structure basis, increases one or more clutches formations of one or more groups gearratio and correspondence, it includes low filling density driving-chain device, high filling density transmission mechanism I and II, low filling density driving-chain device includes drive, loom main shaft, send the footpath power transmission shaft, little wallboard, drive, driven pulley and clutch, drive, power transmission shaft joins driven pulley with sending directly with the loom main shaft that is connected little wallboard respectively with clutch, and drive is connected with the driven pulley sprocket wheel.Described high filling density transmission mechanism I and II have auxiliary drive gear I and II, drive, driven pulley, clutch and bearing core.The drive of high filling density transmission mechanism I and II is connected loom main shaft, and the footpath power transmission shaft is sent in the driven pulley connection, send the corresponding clutch of footpath power transmission shaft to join with being fixedly connected on again.Auxiliary drive gear I and the II of high filling density transmission device I and II have auxiliary central spindle, auxiliary adapter sleeve, auxiliary end cap and bearing, the auxiliary central spindle of auxiliary drive gear I and II is connected little wallboard respectively, the other end is connected with 4 accessory drives wheels respectively, wherein 2 accessory drives wheel be connected with a joggle with drive respectively sprocket wheel or synchronously Supreme Being's belt wheel or belt pulley is connected transmission, 2 accessory drives are taken turns and are connected with a joggle with driven pulley respectively or sprocket wheel or synchronous pulley or belt pulley are connected transmission in addition.By different drives and corresponding accessory drives wheel, accessory drives is taken turns the different drive ratios with corresponding drive and driven pulley, and the realization terry cloth loom is weaved different towel cloth satin shelves filling densities.
The utility model is weaved at original terry cloth loom satin shelves increases by two groups or more groups high filling density transmission mechanisms on the transmission device, weave in the whole process at the satin shelves, the requirement of peace weaving process, control corresponding clutch by the control signal of shedding motion or Main Control Tank, weave different satin shelves towel cloths, increase the kind of towel cloth, improve the quality of varieties and the outward appearance shaping attractive in appearance; Two groups high filling density transmission mechanisms are arranged; in weaving process; can not shut down; do not tear machine open, weave the satin shelves fabric of different filling densities continuously, improve the service efficiency of terry cloth loom; adopt high filling density to send the footpath continuously, batch; clutch disconnects frequency and significantly reduces, and avoids clutch fluctuation of service and hysteresis, and the remanent magnetism effect; reach and make clutch and control signal synchronous; make when weaving satin shelves fabric, reliable and stable, error in length is few; meanwhile; increased the service life of clutch, reduced the maintenance time of loom, reduced production costs.
Description of drawings Fig. 1 is the utility model topology view.
Fig. 2 is the utility model pulley transmission structure view.
Fig. 3 is the utility model single-stage chain gear transmission topology view.
Fig. 4 is the utility model twin-stage sprocket wheel drive mechanism view.
Fig. 5 is the utility model single-stage synchronous pulley drive mechanism view.
Fig. 6 is the utility model twin-stage synchronous pulley drive mechanism view.
Fig. 7 is the utility model sprocket wheel, synchronous pulley drive mechanism view.
Fig. 8 is the utility model synchronous pulley, chain gear transmission topology view.
The specific embodiment describes technology contents of the present utility model below in conjunction with accompanying drawing in detail by embodiment: hang down the loom main shaft 14 of filling density driving-chain device and send footpath power transmission shaft 24 respectively by bearing block 10, the bearing block assembly that bearing 11 and bearing cap 12 constitutes and by bearing block 28, the bearing block assembly that bearing 27 and bearing cap 26 constitute flexibly connects wallette plate 3, drive 1 fixedly connected loom main shaft 14, clutch 33, the bearing core 36 fixedly connected footpath power transmission shafts 24 that send, driven pulley 34 is socketed in by bearing 35 and connects the bearing core 36 that send on the power transmission shaft 24 of footpath, driven pulley 34 is fixedly connected on the clutch 33 that send on the power transmission shaft 24 of footpath again, and drive 1 and driven pulley 34 are by sprocket wheel 37 transmissions.8 one fixedly connected wallette plates 3 of the asessory shaft core of the auxiliary drive gear I of high filling density transmission mechanism I, a running in bearings 7, accessory drives wheel 5 and 6 is by auxiliary adapter sleeve 4 and auxiliary end cap 9 movable assembling connection bearings 7, accessory drives wheel 5 is connected with a joggle or the sprocket wheel connection with the drive 13 that is fixed on the loom main shaft 14, accessory drives wheel 6 is connected with a joggle with driven pulley 21 or sprocket wheel connects, driven pulley 21 is enclosed within by bearing 22 movable skies and is fixedly connected on the bearing core 23 that send on the power transmission shaft 24 of footpath, and it is connected with being fixedly connected on the clutch 25 that send on the power transmission shaft 24 of footpath.20 1 affixed wallette plates 3 of the asessory shaft core of the auxiliary drive gear II of high filling density transmission mechanism II, other end running in bearings 19, auxiliary adapter sleeve 17 and auxiliary end cap 18, accessory drives wheel 15 and 16 is by assisting adapter sleeve 17 movable assembling connection bearings 19, and accessory drives wheel 15 is connected with a joggle or the sprocket wheel connection with the drive 2 that is fixed on the loom main shaft 14; Accessory drives wheel 16 is connected with a joggle with driven pulley 30 or sprocket wheel connects, and driven pulley 30 is enclosed within by bearing 31 skies and is fixedly connected on the bearing core 32 that send footpath power transmission shaft 24, and it connects with clutch 29 again, and clutch 29 is fixed in and send footpath power transmission shaft 24.Loom fluffing, plain cloth and satin shelves are pressed the weaving process instruction of electric cabinet or shedding motion, corresponding clutch 33,29,25 is switched on or switched off finishes the above-mentioned function of weaving.
When fluffing, plain cloth, instruction clutch 33 is connected, and loom main shaft 14 and drive 1 rotate, and by sprocket wheel 27 driven pulley 34 is rotated, and makes by clutch 33 again and send footpath turning cylinder 24 to rotate, and realizes sending the footpath, batching transmission.
When loom satin shelves are weaved, make the technology of filling density, the different drive ratios of assembling accessory drives wheel 15,16 and drive 2 and driven pulley 30 sizes is set according to the towel cloth satin.Instruction clutch 29 is connected, other two original off-states of clutch, at this moment, drive 2 drives accessory drives wheel 15 and rotates, accessory drives wheel 16 drives driven pulley 30 and rotates, and driven pulley 30 drives by clutch 29 and send footpath power transmission shaft 24 to rotate, and finishes and send the footpath, batches action.
Press satin shelves filling density weaving process, attaching accessory drives wheel 6 and 5 and drive 13 and driven pulley 21 gearratio that varies in size are set, instruction clutch 25 is connected, drive 13 drives auxiliary wheel 5 and rotates, the auxiliary wheel 6 that rotates synchronously drives driven pulley 13 and rotates, driven pulley 13 drives by clutch 25 and send footpath power transmission shaft 24 to rotate, and finishes and send the footpath, batches action.
For weaving different towel cloth satin shelves filling density specifications design corresponding one or more groups accessory drives wheel and drive, the accessory drives wheel realizes recently that with the different transmission of driven pulley two groups of series gearratios that the utility model provides were at 1: 2.34,1: 2.52,1: 2.67,1: 2.83,1: 3,1: 3.17,1: 3.35,1: 3.5, in 1: 2.25 scope, drive 2,13, accessory drives wheel 15,5,, accessory drives wheel 16,6, the number of teeth of driven pulley 30,21 should be mutually:
| | Auxiliary moving | | Gearratio |
27 | 48 | 57 | 75 | 2.34 |
27 | 50 | 55 | 75 | 2.52 |
27 | 51 | 53 | 75 | 2.67 |
27 | 53 | 52 | 75 | 2.83 |
27 | 54 | 50 | 75 | 3 |
27 | 56 | 49 | 75 | 3.17 |
27 | 58 | 48 | 75 | 3.35 |
27 | 59 | 47 | 75 | 3.5 |
27 | 47 | 58 | 75 | 2.25 |
The drive mechanism difference of transmission system, the multiple kind of drive is adopted in design, can easily adapt to the type that the different kinds of drive are selected by manufacturer:
Fig. 2 is the single-stage pulley transmission mechanism, and drive 2 rotates by belt pulley 38 with driven pulley 30, drives and send footpath power transmission shaft 24, realizes sending the footpath, batching.The drive 2 of this moment and 30 structure have adjustable side 2-1,30-1, spacer 2-2,30-2 and stiff end 2-3,30-3, the syntagmatic of regulating the three, making belt transmission is the optimum operation situation, apolegamy drive 2 and driven pulley 30 are weaved different satin shelves towel cloths than different drive ratios.
Fig. 3 is the single-stage chain wheel driving mechanism, and drive 2 adopts sprocket wheel 37 transmissions with driven pulley 30.By the requirement of satin shelves filling density, select the gearratio of one group of drive 2 with driven pulley 30 correspondences, weave corresponding satin shelves towel cloth.
Fig. 4 is the twin-stage chain gear transmission, drive 2 passes through sprocket wheel 37 transmissions with accessory drives wheel 15, accessory drives wheel 16 passes through sprocket wheel 37 transmissions with driven pulley 30, the corresponding drive 2 and accessory drives wheel 15 of different drive ratios are installed, accessory drives wheel 16 and driven pulley 30 are weaved the different towel cloth of satin shelves filling density specification.
Fig. 5 is the single-stage synchronous pulley driving mechanism, and drive 2 passes through synchronous pulley 39 transmissions with driven pulley 30, and the drive 2 and driven pulley 30 of the different transmission velocity ratios of auxiliary tone is installed, and weaves the towel cloth of different satin shelves filling density.
Fig. 6 is the twin-stage synchronous pulley driving mechanism, drive 2 adopts synchronous pulley 39 transmissions with accessory drives wheel 15, accessory drives wheel 16 adopts synchronous pulley 39 transmissions with driven pulley 30, change one group of drive 2 and accessory drives wheel 15 that different drive ratios is installed, accessory drives wheel 16 and driven pulley 30 are weaved the towel of the different satin shelves filling densities that require.
Fig. 7 is sprocket wheel, synchronous pulley driving mechanism, drive 2 is taken turns 37 transmissions of 15 sprocket wheels with accessory drives, auxiliary wheel 16 rotates with driven pulley 30 synchronous pulleys 39, change corresponding different drive 2 and accessory drives wheel 15 are installed, the gearratio of accessory drives wheel 16 and driven pulley 30 is weaved different satin shelves filling density towels.
Fig. 8 is synchronous pulley, chain wheel driving mechanism, and drive 2 passes through synchronous pulley 39 transmissions with accessory drives wheel 15, and accessory drives wheel 15,16 rotates synchronously, and accessory drives wheel 16 is weaved different satin shelves filling density towel cloths with 37 transmissions of driven pulley 30 sprocket wheels.
Claims (2)
1. towel satin shelves are weaved transmission device, it has low filling density driving-chain device, high filling density transmission mechanism I and II, low filling density driving-chain device includes loom main shaft, send the footpath power transmission shaft, little wallboard, drive, with being connected the loom main shaft of little wallboard and sending the footpath power transmission shaft to join, drive is connected with the driven pulley sprocket wheel respectively for driven pulley and clutch, drive, driven pulley and clutch; High filling density transmission mechanism I and II include auxiliary drive gear I and II, drive, driven pulley, clutch and bearing core, the drive of high filling density transmission mechanism I and II is connected loom main shaft, the footpath power transmission shaft is sent in the driven pulley connection, send the corresponding clutch of footpath power transmission shaft to join with being fixedly connected on again, the auxiliary central spindle (8) that it is characterized in that auxiliary drive gear I and II is connected little wallboard (3) respectively with (20), one is connected with accessory drives wheel (5) and (6) respectively, (15) with (16), accessory drives wheel (5) is connected with a joggle with (2) with drive (13) respectively with (15) or sprocket wheel or synchronous pulley or belt pulley are connected transmission, and accessory drives is taken turns (6) and is connected with a joggle with (30) with driven pulley (21) respectively with (16) or sprocket wheel or synchronous pulley or belt pulley are connected transmission.
2. towel satin shelves according to claim 1 are weaved transmission device, it is characterized in that the asessory shaft core (8) of auxiliary drive gear I and II and (20) one are respectively fitted with bearing (7) and (19), auxiliary adapter sleeve (4) and (17) and auxiliary end cap (9).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200620102991 CN2918473Y (en) | 2006-04-24 | 2006-04-24 | Towel satin jacquard weave transmission device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200620102991 CN2918473Y (en) | 2006-04-24 | 2006-04-24 | Towel satin jacquard weave transmission device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN2918473Y true CN2918473Y (en) | 2007-07-04 |
Family
ID=38216288
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 200620102991 Expired - Fee Related CN2918473Y (en) | 2006-04-24 | 2006-04-24 | Towel satin jacquard weave transmission device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN2918473Y (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102691760A (en) * | 2011-03-23 | 2012-09-26 | 陆生云 | Transmission device high in transmission power and transmission efficiency and capable of replacing speed reducer |
-
2006
- 2006-04-24 CN CN 200620102991 patent/CN2918473Y/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102691760A (en) * | 2011-03-23 | 2012-09-26 | 陆生云 | Transmission device high in transmission power and transmission efficiency and capable of replacing speed reducer |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN1804175B (en) | Loom drive mechanism and control system thereof | |
CN2918473Y (en) | Towel satin jacquard weave transmission device | |
CN201695153U (en) | Rapier loom cloth rolling device | |
CN2895463Y (en) | Automatic weft-density-changing apparatus | |
CN101713118B (en) | Multi-beam let-off device | |
CN102758299B (en) | Air-jet loom | |
CN202786640U (en) | Air jet loom weft insertion mechanism | |
CN102031614A (en) | Shedding mechanism for jacquard machine | |
CN201915198U (en) | Shedding mechanism of jacquard | |
CN207775450U (en) | A kind of woven opening picking motion of multilayer fabric | |
CN2873821Y (en) | Loom driving mechanism | |
CN1928178A (en) | Woven wave fabric and method and apparatus for producing the same | |
CN102212916A (en) | Digital synchronization power system for jacquard machine and water-jet loom | |
CN2712957Y (en) | External electronic let-off mechanism for flat chafer fabric rapier loom | |
CN214115852U (en) | Flat yarn weft feeding device | |
CN201362776Y (en) | Winding mechanism for rapier pile fabric loom | |
CN208632763U (en) | A kind of modified big round needle loom | |
CN202415850U (en) | Rapier loom | |
CN203683818U (en) | Flexible rapier loom | |
CN208604273U (en) | Overhead electronics separate openings mechanism | |
CN201695152U (en) | Let-off motion of rapier loom | |
CN2447343Y (en) | Warp let-off device | |
CN213804397U (en) | Slurry feeding device for textile fabric production | |
CN216006182U (en) | Multifunctional cam independent lockrand device | |
CN219972694U (en) | Textile fabric processing cloth dewatering equipment |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20070704 Termination date: 20100424 |