CN105486044B - Fiber production drying machine - Google Patents

Abstract

The present invention relates to the fiber plant-scale equipment.A kind of fiber production drying machine, including shell, spiral filament forming machine is provided with shell, finish chamber and hothouse, finish chamber is provided with charging hole and discharge opening, provided with support swing rod in hothouse, by supporting the Drying of swing rod support in the drying chamber, the driving Drying swing mechanism swung and the heating arrangements heated to Drying, the bearing of trend of Drying intersects with swaying direction, one end of Drying is docking together with discharge opening, the other end is docking together with spiral filament forming machine, swing mechanism includes connecting rod, rotating disk and the dynamic motor of driving rotating disk, one end of connecting rod is articulated with rotating disk, the other end is hinged with Drying, connecting rod deviates the axis of rotating disk with the pin joint of rotating disk.The swing drying type fiber production drying machine of surface finish processing can be carried out the invention provides a kind of, the problem of surface oiling agent is handled can not be carried out to fiber by solving existing drying machine.

Description

Fiber production drying machine

Technical field

The present invention relates to the fiber plant-scale equipment, more particularly to a kind of fiber production drying machine.

Background technology

, it is necessary to carry out finish surface treatment and drying to fiber during fiber production is carried out.It is existing to fiber Drying machine is dried not integrate with finish oil-filling mechanism and to be vacuum drying.It is in Chinese Patent Application No. ZL2014103372805, notification number are CN104132516A, entitled " a kind of rotary drum dryer for dry fiber fabric " Patent document in i.e. disclose a kind of existing drying machine.

The content of the invention

The swing drying type fiber production drying machine of surface finish processing, solution can be carried out the invention provides a kind of Existing drying machine can not carry out the problem of surface oiling agent be handled to fiber.

Above technical problem is solved by following technical proposal：A kind of fiber production drying machine, including shell, institute State and spiral filament forming machine, finish chamber and hothouse are provided with shell, the finish chamber is provided with charging hole and discharge opening, the hothouse and set There is support swing rod, by supporting swing mechanism that swing rod support Drying in the drying chamber, driving Drying swing and to drying The heating arrangements that dry cylinder is heated, the bearing of trend of the Drying intersects with swaying direction, one end of the Drying It is docking together with the discharge opening, the other end is docking together with the spiral filament forming machine, the swing mechanism includes connecting rod, rotating disk The motor moved with driving rotating disk, it is hinged with the Drying that one end of the connecting rod is articulated with the rotating disk, the other end, The connecting rod deviates the axis of the rotating disk with the pin joint of the rotating disk.Can by the liquid in the solid waste isolated with The mode of evaporation is further separated out, and steam can be handled by the exhaust emission system discharge in laboratory or itself sets Meter condensing unit is reclaimed.In use, fiber enters finish chamber through charging hole and carried out by the finish in finish chamber at surface Drawn after reason from discharge opening, be then passed through drying and dried, dried fiber is coiled into silk by spiral filament forming machine and rolled up.Rotating disk and company Bar swings the rule that the continuous rotary motion of motor is converted to Drying, and the swaying direction of Drying extends to be non-along Drying Direction, driven when Drying is swung through the fiber in Drying and produce laterally rolling.When fiber passes through Drying, in heating Dried in the presence of structure（Heating arrangement can be drying lamp, heating wire etc.）.The swing mode of Drying can be improved Drying efficiency.

Swung preferably, the inner surface of the bottom wall of the Drying extends provided with some bearing of trends along Drying The on-slip ditch of directional spreding.Solid waste can be effectively promoted to produce tumbling motion in Drying swing process, so as to carry High drying efficiency.

Preferably, the on-slip ditch is wave structure.Drive the effect of solid waste rolling good.

Preferably, the support swing rod is supported in the hothouse by vibration isolator, the vibration isolator is annular, institute Vibration isolator is stated to be made for rubber, the end face of the vibration isolator provided with several along vibration isolator it is circumferentially distributed deposit hole, it is described Deposit and intermediate plate is provided with hole, the hole of depositing is divided into the inner chamber body being distributed along the vertical direction and outer chamber, institute by the intermediate plate Intermediate plate is stated to be communicated with the inner chamber body and the main friction passage of outer chamber, the main friction passage being provided with friction plate, institute State friction plate and be equipped with the friction lever that can be slided along the distribution arrangement of inner chamber body and outer chamber, the friction lever is logical provided with branch friction Road, the outer end of the outer chamber is provided with the elastomeric cap arched upward inside outer chamber.Vibration isolating effect is good, can prevent from using process The vibration unofficial biography of middle generation.Deposited in use, liquid is filled in hole, suspension plate declines and produces vibration transmission in welding process When causing to deposit bore deformation to vibration isolator, deposit bore deformation and drive the liquid of position in the inner between inner chamber body and outer chamber back and forth Flowing, friction plate and friction lever are rocked, and liquid flowing and friction plate and friction lever change vibrational energy during rocking Consumed for heat energy.If vibration it is smaller and when being not enough to promote to deposit bore deformation, now only liquid is rocked, liquid sloshing When friction lever produce rock and energy-absorbing, set friction lever can improve to frequency low-amplitude vibrate absorption so that the present invention It is not only able to absorb the vibrational energy of high amplitude, the vibrational energy of short arc can also be absorbed, therefore vibration isolating effect is more preferable.

Preferably, the friction plate, two axial ends of the friction lever are all stretched out in the axial two ends of the friction lever Face is all sphere.Liquid is enabled to also to drive friction when receiving the vibration of the distribution arrangement of non-inner chamber body and outer chamber Bar is run and energy-absorbing along interior outer chamber distribution arrangement.Energy-absorbing effect is good.

Preferably, the friction lever is cylinder, being designed with some edges on two axial ends of the friction lever rubs The circumferentially distributed groove of pole.Can be by contact area of the energy-absorbing bar with liquid, to improve energy-absorbing effect and induction sensitivity. Vibration to the radial direction along the second connecting hole also can be responded enough and energy-absorbing in generation, absorb the better reliability of vibrational energy.

Shaken structure present invention additionally comprises increasing, the increasing is shaken the inner core that structure includes square, the pros being set on inner core The outer tube of shape and the roller being arranged between inner core and outer tube, the external diameter of a circle of the inner core are less than the inscribe of the outer tube Diameter of a circle, the roller has four, and four rollers are correspondingly positioned at four sides of the inner core and described outer In 4 spaces that pipe is surrounded, the connecting rod is hinged by the structure of shaking that increases with the Drying, the support swing rod One end is hinged on the Drying by the structure of shaking that increases, and the other end of the support swing rod is hinged on the hothouse Together.When swinging, increase structure of shaking and the motion of Drying is changed into irregular fluctuation from original rule swing, Drying is made past Vibration is produced while physical pendulum is dynamic, so that can more effectively promote fiber to produce upset in Drying.Shaken by increasing The method that structure is hinged two parts is：One part is connected on square inner core, another part is connected on outer tube.

Preferably, being provided with inner chamber in the bottom wall of the Drying, the bottom wall of the Drying is provided with air-vent, described interior Intracavitary is provided with roller bearing, and the bearing of trend of the roller bearing is identical with the bearing of trend of the Drying, is set on the side face of the roller bearing Have some along the circumferentially distributed axially extending wind groove of roller bearing, inner surface of the inner chamber provided with insertion to the bottom wall of the Drying Exhaust vent.Drying produce swing during roller bearing interior intracavitary produce rolling, roller bearing roll when wind groove formation air-flow and Drying is blowed to from exhaust vent, so as to which effectively the gas in Drying blows off from air-vent, drying effect is good.

Preferably, circumferential two wall of the wind groove along the roller bearing is all the curved surface of indent.Drying is back and forth Roller bearing can produce rotating during swing, and the structure enables to all produce larger air-flow during roller bearing rotating, and whole pendulum Can be produced in dynamic process wind, will not one way produce wind, so as to play the effect for improving wind groove formation wind.

Preferably, the finish intracavitary is provided with some first guide rollers.Fiber is enabled to pass through reliable during finish chamber Ground is contacted with finish, will not produce the phenomenon generation for being lifted away from finish.

Preferably, the entrance point and the port of export of the Drying are designed with the second guide roller, second guide roller Bearing of trend is vertical with the bearing of trend of the Drying, and second guide roller circumferentially prolongs provided with some along the second guide roller Stretch the isolation channel of axially distribution.During use, pass through per one fiber from one of isolation channel, multiply fiber passes through this hair simultaneously It is bright when being dried, wrapping phenomena will not be produced.

Present invention tool has the advantage that：Can immediately it be dried after to the processing of fiber oiling agent, compact conformation is good, does Dry effect is good.

Brief description of the drawings

Fig. 1 is the intention of the embodiment of the present invention one.

Fig. 2 be hothouse and phase inner part along along figure schematic diagram from F to projection.

Fig. 3 be Fig. 2 in Drying A-A schematic cross-sectional views.

Fig. 4 is the enlarged diagram for increasing structure of shaking.

Fig. 5 is the schematic cross-sectional view of vibration isolator.

Fig. 6 is the close-up schematic view at Fig. 5 C.

Fig. 7 is the close-up schematic view at Fig. 6 D.

Fig. 8 is the close-up schematic view at Fig. 7 E.

Fig. 9 is the enlarged diagram of the second guide roller.

Figure 10 be embodiment three in Drying cross-sectional view.

Figure 11 be Figure 10 in roller bearing enlarged diagram.

In figure：Shell 1, the first guide roller 11, finish chamber 13, charging hole 131, discharge opening 132, hothouse 14, support pendulum Bar 141, exhaust outlet 143, spiral filament forming machine 15, Drying 2, left second guide roller 21, isolation channel 211, right second guide roller 22, driving Frame 23, on-slip ditch 24, inner chamber 25, exhaust vent 26, air-vent 27, increase and shake structure 3, inner core 31, outer tube 32, needle roller 33, mounting hole 34th, space 35, motor 5, motor shaft 51, motor casing 52, driving wheel 53, swing mechanism 6, connecting rod 61, connecting rod be hinged with rotating disk Point 611, rotating disk 62, transmission mechanism 63, wheel for inputting 631, output wheel 632, the first transmission belt 64, the second transmission belt 65, vibration isolator 7th, hole 71, inner chamber body 711, outer chamber 712, intermediate plate 72, elastomeric cap 73, main friction passage 75, friction plate 76, friction lever are deposited 77th, axial end 771, groove 772, branch friction passage 78, roller bearing 9, accelerator rod 91, wind groove 92, wind groove are along the circumferential of roller bearing Wall 921.

Embodiment

The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.

Embodiment one, referring to Fig. 1, a kind of fiber production drying machine, including shell 1.Set successively from the top down in shell 1 There are finish chamber 13 and hothouse 14.Finish chamber 13 is provided with charging hole 131 and discharge opening 132.Some first are provided with finish chamber 13 Guide roller 11.Spiral filament forming machine 15 is additionally provided with shell 1.Spiral filament forming machine 15 is located at the right side of hothouse 14.

The heating arrangements heated in hothouse 14 provided with support swing rod 141, Drying 2 and to Drying.Heating arrangements 142 For the heating wire being arranged in Drying 2.Exhaust outlet 143 is provided with hothouse 14.

Drying 2 is swingably supported in hothouse 14 by least 2 support swing rods 141.Support the upper of swing rod 141 End increases structure 3 of shaking by one and linked together with Drying, and lower end is hinged with the bottom wall of hothouse 14.Drying 2 For the groove extended in left-right direction.The left end of Drying 2 is provided with two the second guide rollers of a left side 21.The right-hand member of Drying 2 is provided with the right side Second guide roller 22.The structure of left second guide roller 21 and right second guide roller 22 is identical and all extended along the longitudinal direction.

Referring to Fig. 2, swing mechanism 6 is additionally provided with hothouse 14.Swing mechanism 6 includes connecting rod 61, rotating disk 62, transmission mechanism 63 and the dynamic motor 5 of driving rotating disk.Motor 5 includes motor casing 52 and motor shaft 51.Driving wheel 53 is connected with motor shaft 52.Pass Motivation structure 63 includes wheel for inputting 631 and output wheel 632.Driving wheel 53 passes through the first transmission belt 64（Transmission belt can for chain or Belt）Linked together with wheel for inputting 631.Rotating disk 62 is linked together by the second transmission belt 65 with output wheel 632.Connecting rod 61 One end be articulated with rotating disk 62.The other end of connecting rod 61 is connected with the bogie 23 under Drying 2 with increasing structure 3 of shaking by one Together.Connecting rod is that bias is connected to rotating disk with the axis namely connecting rod 1 that the pin joint 611 of rotating disk deviates rotating disk.Oscillating machine Direction when structure driving Drying changes is the width of left and right directions namely Drying 2 in figure.The lower end of swing rod 141 is supported to lead to Cross the support of vibration isolator 7 and the bottom wall of hothouse 14.Drying 2 is tetragonal structure.

Referring to Fig. 3, the inner surface of the bottom wall of Drying 2 is provided with some on-slip ditches 24.On-slip ditch 24 is wave structure.Only Bearing of trend extension swaying direction distribution of the slide groove 24 along Drying.

Referring to Fig. 4, increasing structure 3 of shaking includes inner core 31, outer tube 32 and four needle rollers 33.Inner core 31 is square, is also Regular prism shape.Inner core 31 is provided with two mounting holes 34, and the cross section of outer tube 32 is square loop, and outer tube 32 is set in inner core 31 On.Inner core 31 can be rotated in outer tube 32.Four needle rollers 33 are located at four sides of inner core 31 and outer tube 32 are surrounded 4 respectively In individual space 35.Needle roller 33 is the elastomer being made by elastomeric material.

Referring to Fig. 5, vibration isolator 7 is loop configuration.Vibration isolator 7 is made for rubber.The end face of vibration isolator 7 is provided with some It is individual to deposit hole 71 along the circumferentially distributed of vibration isolator.Deposit and intermediate plate 72 is provided with hole 71.Intermediate plate 72 will deposit hole 71 and be divided into inner chamber Body 711 and outer chamber 712.The lower end of outer chamber 712 is provided with elastomeric cap 73.Elastomeric cap 73 is to be arched upward towards inside outer chamber 712 Bowl-type.

Referring to Fig. 6, intermediate plate 72 is provided with some main friction passages 75.The communication with cavity body 711 of main friction passage 75 and outer Cavity 712.Friction plate 76 is provided with main friction passage 75.

Referring to Fig. 7, be equipped with friction plate 76 it is some can along along the distribution arrangement i.e. figure of inner chamber body and outer chamber upper and lower To the friction lever 77 of slip.Friction lever 77 is cylinder.Friction lever 77 is provided with branch friction passage 78.The connection of branch friction passage 78 rubs The space of the upper and lower of wiping board 76（Outer chamber in connecting）.Two axial ends 771 of friction lever 77 are all sphere.

Referring to Fig. 8, some grooves 772 are designed with two axial ends 771 of friction lever 77.Groove 772 is along friction lever 77 is circumferentially distributed.

Referring to Fig. 9, left second guide roller 21 is provided with some isolation channels that axially distribution is circumferentially extended along the second guide roller 211。

Referring to Fig. 1 to Fig. 9, in use, spacing enter finish chamber 13 and in the effect of the first guide roller 11 through charging hole 131 Under be submerged in finish by oil agent, then leave finish chamber 13 from discharge opening 132, then lead each personal share filament winding left side second excessively Enter to the mode of an isolation channel on roller 21 from the left end of Drying 2, again from the right-hand member pull-out of Drying, the fibre after pull-out The isolation channel that dimension is also crossed on second guide roller of the right side 22 per one filament winding, is finally coiled into silk volume by spiral filament forming machine 15..

Drying 2 is to the specific drying process of fiber：

Referring to Fig. 1 to Fig. 4, the driving Drying of swing mechanism 6 swings and produces vibration along the longitudinal direction, and fiber is with rolling of rolling Dynamic mode moves right last from right-hand member pull-out.The fiber that heating arrangements are pointed in Drying 2 is dried.

The absorbing process of vibration isolator 7 in the present embodiment is, referring to Fig. 5 and combines Fig. 2, in inner chamber body 711 and outer chamber Liquid is all filled in 712（Can certainly make the present invention when filling liquid）, the vibration of generation passes to vibration isolator 7 and leads When cause is deposited hole 71 and deformed so that liquid flowing, friction plate 76 and friction lever 77 back and forth between inner chamber body 711 and outer chamber 712 （Referring to Fig. 8）Generation is rocked, liquid flowing and friction plate and friction lever vibrational energy is changed into heat energy during rocking and Consume.If vibration it is smaller and when being not enough to promote to deposit bore deformation, now only liquid is rocked, friction lever during liquid sloshing Generation is rocked and energy-absorbing.

Embodiment two, the difference of be the same as Example one is：

Referring to Figure 10, inner chamber 25 is provided with the bottom wall of Drying 2.Inner chamber 25 is provided with the exhaust vent in insertion to Drying 2 26.The roof of Drying 2 is provided with air-vent 27.

Exhaust vent 26 staggers with on-slip ditch 24, and which can more effectively promote fiber to be produced in the presence of on-slip ditch Raw rolling.Roller bearing 9 is provided with inner chamber 25.Roller bearing 9 is tubular structure.Accelerator rod 91 is provided with roller bearing 9.Accelerator rod 91 can speed up The rolling in inner chamber 25 of roller bearing 9.The bearing of trend of roller bearing 9 is identical with the bearing of trend of Drying 2.

Referring to Figure 11, the side face of roller bearing 9 is provided with some wind grooves 92.Wind groove 92 is circumferentially distributed axially extending along roller bearing.Wind Circumferential two wall 921 of the groove 92 along roller bearing is all the curved surface of indent.

Referring to Figure 10 and Fig. 4, Drying 2 is caused to incline in the width direction when Drying 2 produces swing during use When tiltedly, roller bearing 9 produces rolling, and wind groove 92 produces wind and blown out from exhaust vent 26 and play a part of driving away steam during rolling.

Claims (10)

1. a kind of fiber production drying machine, including shell, it is characterised in that in the shell provided with spiral filament forming machine, finish chamber and Hothouse, the finish chamber is provided with charging hole and discharge opening, the hothouse provided with support swing rod, by supporting swing rod to support Drying, the driving Drying swing mechanism swung and the heating arrangements heated to Drying in the drying chamber, it is described The bearing of trend of Drying intersects with swaying direction, and one end of the Drying is docking together with the discharge opening, another End is docking together with the spiral filament forming machine, and the swing mechanism includes the dynamic motor of connecting rod, rotating disk and driving rotating disk, the connecting rod One end be articulated with that the rotating disk, the other end are hinged with the Drying, pin joint of the connecting rod with the rotating disk Deviate the axis of the rotating disk.

2. fiber production drying machine according to claim 1, it is characterised in that the inner surface of the bottom wall of the Drying Some on-slip ditches are provided with, the bearing of trend of the on-slip bank Drying extends, the swing side of the on-slip bank Drying To distribution.

3. fiber production drying machine according to claim 1 or 2, it is characterised in that the support swing rod passes through vibration isolation Pad is supported in the hothouse, and the vibration isolator is annular, and the vibration isolator is made for rubber, the end of the vibration isolator Face provided with several along vibration isolator it is circumferentially distributed deposit hole, described deposit is provided with intermediate plate in hole, the intermediate plate deposits hole by described The inner chamber body being distributed along the vertical direction and outer chamber are divided into, the intermediate plate is communicated with the master of the inner chamber body and outer chamber Friction passage, is provided with friction plate in the main friction passage, the friction plate be equipped with can along inner chamber body and outer chamber distribution The friction lever that direction is slided, the friction lever is provided with branch friction passage, and the outer end of the outer chamber is provided with inside outer chamber The elastomeric cap arched upward.

4. fiber production drying machine according to claim 3, it is characterised in that all stretch at the axial two ends of the friction lever Go out the friction plate, two axial ends of the friction lever are all sphere.

5. fiber production drying machine according to claim 4, it is characterised in that the friction lever is cylinder, described Some grooves circumferentially distributed along friction lever are designed with two axial ends of friction lever.

6. fiber production drying machine according to claim 1 or 2, it is characterised in that also including increasing shake structure, the increasing Structure of shaking includes inner core, the square outer tube being set on inner core and the rolling being arranged between inner core and outer tube of square Post, the external diameter of a circle of the inner core is less than the inscribe diameter of a circle of the outer tube, and the roller has four, four rollings Post is correspondingly in 4 spaces that four sides of the inner core and the outer tube are surrounded, and the connecting rod passes through institute State increasing structure of shaking to be hinged with the Drying, one end of the support swing rod is hinged on the drying by increasing structure of shaking On cylinder, the other end of the support swing rod is hinged with the hothouse.

7. fiber production drying machine according to claim 1 or 2, it is characterised in that set in the bottom wall of the Drying There is inner chamber, the roof of the Drying is provided with air-vent, and the interior intracavitary is provided with roller bearing, and the bearing of trend of the roller bearing is with described The bearing of trend of Drying is identical, and the side face of the roller bearing is provided with some along the circumferentially distributed axially extending wind groove of roller bearing, institute State exhaust vent of the inner chamber provided with insertion to the inner surface of the bottom wall of the Drying.

8. fiber production drying machine according to claim 7, it is characterised in that circumference of the wind groove along the roller bearing Two walls all be indent curved surface.

9. fiber production drying machine according to claim 1 or 2, it is characterised in that the finish intracavitary is provided with some First guide roller.

10. fiber production drying machine according to claim 1 or 2, it is characterised in that the entrance point of the Drying and The port of export is designed with the second guide roller, and the bearing of trend of second guide roller is vertical with the bearing of trend of the Drying, institute The second guide roller is stated provided with some isolation channels that axially distribution is circumferentially extended along the second guide roller.