CN106378918B - Double water squeezing de-watering apparatus for rubber for tire component - Google Patents

Abstract

The present invention relates to a kind of double water squeezing de-watering apparatus for rubber for tire component, which includes rack, the first upper backup roll, the second upper backup roll, third upper backup roll, the 4th upper backup roll, the first lower backing roll, the second lower backing roll, third lower backing roll, the 4th lower backing roll, water squeezing roller on first, water squeezing roller on second, bootom couch squeeze roll, sponge, upper accepting water slot and lower accepting water slot under sponge, crawler belt shape in up-draught machine, lower hair-dryer, driving device, drive dynamic control device, crawler belt shape；The device carries out water squeezing processing by way of the upper and lower mantle friction of two crawler belt shape sponges and rubber for tire component, contact, while to upper and lower sponge, ensure that the lasting water-taking efficiency of sponge, can efficiently, neatly wipe the moisture on rubber assembly surface；The damage to crawler belt shape sponge can be reduced, extends service using life, reduces industrial accident.

Description

Double water squeezing de-watering apparatus for rubber for tire component

Technical field：

The present invention relates to rubber tyre production technical fields, and in particular to a kind of double water squeezings for rubber for tire component remove Water installations by way of sponge and tyre surface upper and lower surface friction, efficiently, are neatly wiped using upper and lower two water squeezing structures The moisture on rubber assembly surface.

Background technology：

In existing tire production process, since temperature is higher after head extrusion for the rubber assemblies such as sidewall and tyre surface, need Cooling down is carried out, most of tire production producers are cooled down using water-cooling pattern, and sidewall, tyre surface can be upper after spraying cooling Lower surface is attached with water droplet, water stain.Because of technological requirement, there cannot be moisture when subsequently carrying out fitting assembling to each component, it is no The fitting effect of tire can then be influenced；On the other hand, the rubber assemblies such as tyre surface, sidewall are when stacking is stored up and put, moisture meeting again Cause to be adhered between rubber parts, influences to take.Therefore, the water droplet on the removal rubber assemblies surface such as sidewall and tyre surface, water stain just aobvious It obtains particularly significant.Some producers are removed water using hot wind water-blowing device, and the effect is unsatisfactory, and power consumption is very big but sidewall, tyre surface Still often there is moisture, when being bonded on molding machine, fitting effect is bad.Chinese patent ZL201120555189.2 is announced A kind of rubber assembly squeezing water, including two sponge rollers made of sponge, sponge roller transmission device and pressure roller water squeezing dress Set, two sponge rollers are driven by sponge roller transmission device, and two sponge rollers are disposed vertically up and down, respectively upper layer sponge roller and Lower layer's sponge roller, rubber assembly by upper layer sponge roller and lower layer's sponge roller among, the droplet of tyre surface levels is just by sponge roller It absorbs, and sponge is extruded by pressure roller squeezing water.The shortcomings that patent, is to contact for line, and contact area is too small, tyre surface There is no relative displacement between the contact surface of sponge, water-taking efficiency is not high, and there is no the water to upper sponge roller to carry out extrusion process. In addition, Chinese patent ZL201020169996.6 discloses a kind of more sponge roller water absorbers, join for tire tread extrusion equipment Corollary apparatus on moving-wire, including the suction unit that is arranged in film transport path often cover suction unit by Shanghai for lifting Continuous roller and the lower sponge roller of rotation are constituted, and the suction unit is set as two sets or two sets or more, upper in each set suction unit Sponge roller synchronization lifting, lower sponge roller rotate synchronously, and equal distance, and adjacent two sets of water suctions are kept between more set suction units The length for being smaller than film of unit.Increase a set of above sponge roller on the basis of single sponge roller water absorber, is formed more The form of sponge roller water suction, extends film and sponge roller time of contact, blots the droplet on film.Increase in spray equipment end Sponge roller water absorber is made of upper and lower two sponge rollers, and sidewall tyre surface passes through among two sponge rollers and drives two seas Continuous roller rotation, water-absorbing sponge roller can not reabsorb moisture due to being saturated in use for some time because absorbing water, so to be arranged Water process increases by a pressure roller below the sponge roller of lower end and squeezes lower sponge roller so that the moisture in sponge can exhaust.Specially Sharp ZL201020169996.6 increases the contact area of sponge and rubber assembly compared with patent ZL201120555189.2, But still belonging to line contact, contact area is still smaller.And also without opposite between sponge and the contact surface of rubber assembly Displacement, water-taking efficiency is not high, does not also carry out extrusion process to the water in upper sponge roller, the time, which has been grown, can cause tyre surface, sidewall The upper surface moisture of equal rubber assemblies can not be absorbed cleanly.Rubber for tire component is installed into the side of sponge de-watering apparatus at present Method is that the hand of employment directly draws dragging mostly, can be caused to damage to sponge, is also easy to cause industrial accident.

Invention content：

It is an object of the invention to overcome disadvantage of the existing technology, provide a kind of for the double crowded of rubber for tire component Water de-watering apparatus, using upper and lower two water squeezing structures, by way of sponge and tyre surface upper and lower surface friction, efficiently, neatly Wipe the moisture on rubber assembly surface.

To achieve the goals above, the main body knot of double water squeezing de-watering apparatus of the present invention for rubber for tire component Structure includes under rack, the first upper backup roll, the second upper backup roll, third upper backup roll, the 4th upper backup roll, first Support rollers, third lower backing roll, the 4th lower backing roll, water squeezing roller on first, are squeezed the second lower backing roll on second Damping roller, bootom couch squeeze roll, sponge, crawler belt shape in up-draught machine, lower hair-dryer, driving device, drive dynamic control device, crawler belt shape Lower sponge, upper accepting water slot and lower accepting water slot；There are material channel entrances and material channel to export in rack；First upper backup roll Son, the second upper backup roll, third upper backup roll, the 4th upper backup roll, the first lower backing roll, the second lower backing roll Son, third lower backing roll, the 4th lower backing roll, water squeezing roller on first, on second water squeezing roller and bootom couch squeeze roll according to Secondary parallel construction respectively is fixedly mounted in rack；First upper backup roll, the second upper backup roll are sub, third upper backup roll is sub, 4th upper backup roll is sub with the first lower backing roll respectively, the second lower backing roll is sub, third lower backing roll, the 4th lower backing roll Sub to constitute distributed architecture symmetrical above and below up and down, the first upper backup roll is located at the first lower backing roll top；First upper backup roll Son, the second upper backup roll, third upper backup roll, the 4th upper backup roll are located at same level；First lower backing roll, Second lower backing roll, third lower backing roll, the 4th lower backing roll are located at same level；First upper backup roll and Once the gap between support rollers is less than sponge, crawler belt shape in crawler belt shape and plunges into the commercial sea the sum of the thickness of tender rubber for tire component； Driving device is connect with drive dynamic control device power information, startup that drive dynamic control device can control the driving device, closing, just Turn, reversion and velocity of rotation；Driving device selects common motor, and driving device is by way of belt transmission respectively with One upper backup roll, water squeezing roller, the first lower backing roll and the 4th lower backing roll are sequentially connected on first；It is supported on first Roller, spine is distributed in the surface of water squeezing roller, the first lower backing roll and the 4th lower backing roll on first, is supported on second Roller, third upper backup roll, the 4th upper backup roll, the second lower backing roll is sub, third lower backing roll is sub, squeeze roll on second Son, the surface of bootom couch squeeze roll are smooth；First upper backup roll, the second upper backup roll are sub, third upper backup roll is sub, are propped up on the 4th Support that roller, water squeezing roller is identical with the direction of rotation of bootom couch squeeze roll on first, the first lower backing roll is sub, the second lower backing roll The direction of rotation of water squeezing roller is identical on sub, third lower backing roll, the 4th lower backing roll and second, the first upper backup roll Direction of rotation it is opposite with the direction of rotation of the first lower backing roll；On first on water squeezing roller and second between water squeezing roller Gap is less than 0.8 times of sponge thickness in crawler belt shape；Gap between bootom couch squeeze roll and the 4th lower backing roll is less than crawler belt 0.8 times of sponge thickness under shape；Sponge is sleeved on the first upper backup roll, the second upper backup roll, props up in third in crawler belt shape On support roller, the 4th upper backup roll and first on water squeezing roller；Sponge is sleeved on the first lower backing roll, second under crawler belt shape Lower backing roll is sub, third lower backing roll is sub, on the 4th lower backing roll；Sponge and tire rubber under sponge, crawler belt shape in crawler belt shape The direction of motion of glue component touch part is parallel with the direction of motion of rubber for tire component；The tender crawler belt shape in crawler belt shape Shanghai is plunged into the commercial sea Continuous includes spongy layer and casing ply, and the thickness of casing ply is 0.9~1.1 times of spine length, and casing ply is supported on first Roller, the second upper backup roll, third upper backup roll, the 4th upper backup roll, the first lower backing roll, the second lower backing roll The surface of water squeezing roller is in direct contact on sub, third lower backing roll, the 4th lower backing roll and on first, spongy layer and second The surface of upper water squeezing roller, bootom couch squeeze roll and rubber for tire component is in direct contact；Up-draught machine is located at sponge in crawler belt shape Top, the sponge blowing hot-air in crawler belt shape；Lower hair-dryer is located at the lower section of sponge under crawler belt shape, to crawler belt shape under sponge blow heat Wind；Upper accepting water slot is located at the lower section of water squeezing roller gap on water squeezing roller and second on first；Upper accepting water groove shape is bar shaped Elongated slot, the long side of upper accepting water slot is parallel with the axis of water squeezing roller on first, and the length of the long side of upper accepting water slot is crawler belt shape Shanghai 1.2 times of continuous width, upper accepting water trench bottom is connected to drainpipe；There is sponge in the crawler belt shape of moisture to squeeze to suction in time Water, drying processing, can make sponge in crawler belt shape be constantly in relatively dry state, maintain higher water suction, water rem oval；Under Water receiving tank is located at the lower section of the 4th lower backing roll and the sub- gap of bootom couch squeeze roll；Lower accepting water groove shape be bar shaped elongated slot, under connect The long side of sink is parallel with the axis of bootom couch squeeze roll, and the length of the long side of lower accepting water slot is 1.2 of the width of sponge under crawler belt shape Times, lower accepting water trench bottom is connected to lower drainpipe；Sponge carries out water squeezing under this crawler belt shape for having moisture to suction in time, drying is handled Design, sponge under crawler belt shape can be made to be constantly in relatively dry state, maintain higher water suction, water rem oval；It is squeezed through Sponge has more hole, compared to rubber for tire component, the contact with air under sponge, crawler belt shape in the crawler belt shape of water Area bigger, therefore sponge blowing under sponge, crawler belt shape in crawler belt shape is done successively respectively using up-draught machine, lower hair-dryer Dry efficiency is compared to the drying efficiency higher that directly rubber for tire component is blowed with hair-dryer；First upper backup roll, The diameter of second upper backup roll, third upper backup roll and the 4th upper backup roll is 1.8 times of sponge thickness in crawler belt shape； First lower backing roll, the second lower backing roll are sub, third lower backing roll is sub and the diameter of the 4th lower backing roll is under crawler belt shape 1.8 times of sponge thickness；Gap, the second upper backup roll between first upper backup roll and the second upper backup roll and third Gap, third upper backup roll between upper backup roll and the gap between the 4th upper backup roll are sponges in crawler belt shape 0.8 times of thickness；It is propped up under gap, the second lower backing roll and third between first lower backing roll and the second lower backing roll The gap supportted between gap, third lower backing roll and the 4th lower backing roll between roller is sponge thickness under crawler belt shape 0.8 times；The direction of motion of rubber for tire component be from left to right, when driving device rotates forward, the first upper backup roll, second The direction of rotation of upper backup roll, third upper backup roll and the 4th upper backup roll is clockwise, to make crawler belt shape Shanghai The continuous direction of motion with rubber for tire component touch part be from right to left, it is opposite with the direction of motion of rubber for tire component；Under The direction of rotation of support rollers is counterclockwise, to make the direction of motion of sponge and rubber for tire component touch part under crawler belt shape It is opposite with the direction of motion of rubber for tire component for from right to left；The design of direction of rotation increases sponge and shoe in crawler belt shape Length with sponge under shape Yu rubber for tire component CONTACT WITH FRICTION part, and sponge and sponge under crawler belt shape and wheel in crawler belt shape The water content of tire rubber component CONTACT WITH FRICTION part gradually decreases from left to right；The water stain amount of rubber for tire assembly surface is from left-hand The right side gradually decreases, and makes to correspond to water stain less rubber for tire component compared with dry sponge and is removed water, and is corresponded to compared with wet sponge aqueous The more rubber for tire component of amount is removed water, and water-scavenging capability is stronger, is suitable for the water stain amount of rubber for tire component upper and lower surface The case where higher than normal value.

The method that double water squeezing de-watering apparatus realize double water squeezing water removals, technical process include the following steps：

(1)：It draws front：Rubber for tire component is drawn from other transmission devices before double water squeezing de-watering apparatus to double The material channel entrance of water squeezing de-watering apparatus；

(2)：Device inverts：Driving device is arranged by drive dynamic control device to invert, starts driving device；

(3)：Feeding：The water of rubber for tire component end is dried, it is tender that rubber for tire component is injected crawler belt shape Shanghai Under crawler belt shape in spongiotic intermediate gap, make rubber for tire component with the fortune of sponge under the tender crawler belt shape in crawler belt shape Shanghai It moves and moves to material channel outlet；

(4)：Stop reverse：Driving device is closed by drive dynamic control device；

(5)：It draws at rear portion：Rubber for tire component is drawn to other subsequent transmission devices of double water squeezing de-watering apparatus or led Leading-in device；

(6)：Start to be driven；Start before double water squeezing de-watering apparatus, other subsequent transmission devices or draft gear；

(7)：Device removes water：Driving device is arranged by drive dynamic control device to rotate forward, starts driving device, starts to remove water；

(8)：Water removal finishes：After a tires rubber assembly, which removes water, completes and leave double water squeezing de-watering apparatus, pass through drive Dynamic control device closes driving device, realizes double water squeezing drain functions.

Compared with prior art, the present invention by the upper and lower mantle friction of two crawler belt shape sponges and rubber for tire component, The mode of contact, while water squeezing processing is carried out to upper and lower sponge, it ensure that the lasting water-taking efficiency of sponge, it can efficiently, totally Wipe the moisture on rubber assembly surface in ground.Damage of the installation rubber assembly to crawler belt shape sponge can be reduced, extends device and uses Service life；It is inverted by driving device and realizes that rubber for tire component passes through double water squeezing de-watering apparatus, avoided hand stretching into double water squeezings and remove In water installations, industrial accident is reduced.

Description of the drawings：

Fig. 1 is the principle schematic diagram of double water squeezing de-watering apparatus of the present invention.

Fig. 2 is the structural schematic diagram of crawler belt shape sponge of the present invention and driven roller part.

Fig. 3 is the principle schematic diagram of water receiving tank of the present invention.

Specific implementation mode：

The invention will be further described by way of example and in conjunction with the accompanying drawings.

Embodiment 1：

Double water squeezing de-watering apparatus for rubber for tire component that the present embodiment is related to, agent structure include rack 1, Under one upper backup roll 201, the second upper backup roll 202, third upper backup roll 203, the 4th upper backup roll 204, first Support rollers 301, the second lower backing roll 302, third lower backing roll 303, water squeezing on the 4th lower backing roll 304, first Water squeezing roller 402 on roller 401, second, bootom couch squeeze roll 403, up-draught machine 501, lower hair-dryer 502, driving device 601, Sponge 702, upper accepting water slot 801 and lower accepting water slot 802 under sponge 701, crawler belt shape in drive dynamic control device 602, crawler belt shape；Rack There are material channel entrances 101 and material channel outlet 102 on 1；First upper backup roll 201, the second upper backup roll 202, Third upper backup roll 203, the 4th upper backup roll 204, the first lower backing roll 301, the second lower backing roll 302, third Water squeezing roller 402 and bootom couch squeeze roll on water squeezing roller 401, second on lower backing roll 303, the 4th lower backing roll 304, first Parallel construction is fixedly mounted in rack 1 son 403 respectively successively；First upper backup roll 201, the second upper backup roll 202, Three upper backup roll 203, the 4th upper backup roll 204 respectively with the first lower backing roll 301, the second lower backing roll 302, Three lower backing roll 303, the 4th lower backing roll 304 constitute distributed architecture symmetrical above and below；First upper backup roll 201 is located at the 301 top of support rollers once；First upper backup roll 201, the second upper backup roll 202, third upper backup roll 203, Four upper backup rolls 204 is located at same level；It is supported under first lower backing roll 301, the second lower backing roll 302, third Roller 303, the 4th lower backing roll 304 are located at same level；First upper backup roll 201 and the first lower backing roll 301 Between gap be in crawler belt shape 0.9 times of the sum of thickness of sponge 702 and rubber for tire component 9 under sponge 701, crawler belt shape； Driving device 601 connect with 602 power information of drive dynamic control device, and drive dynamic control device 602 can control the driving device 601 and open Dynamic, closing, rotating forward, reversion and velocity of rotation；Driving device 601 selects common motor, driving device 601 to be passed by belt Dynamic mode respectively with water squeezing roller 401 on the first upper backup roll 201, first, the first lower backing roll 301 and the 4th lower Roller 304 is supportted to be sequentially connected；First upper backup roll 201, the second upper backup roll 202, third upper backup roll the 203, the 4th Water squeezing roller 401 is identical with the direction of rotation of bootom couch squeeze roll 403 on upper backup roll 204, first, the first lower backing roll 301, water squeezing roller 402 on the second lower backing roll 302, third lower backing roll 303, the 4th lower backing roll 304 and second Direction of rotation it is identical, the direction of rotation of the first upper backup roll 201 is opposite with the direction of rotation of the first lower backing roll 301； Gap on first on water squeezing roller 401 and second between water squeezing roller 402 is 0.6 times of 701 thickness of sponge in crawler belt shape；Under Gap between water squeezing roller 403 and the 4th lower backing roll 304 is 0.6 times of 702 thickness of sponge under crawler belt shape；In crawler belt shape Sponge 701 is sleeved on the first upper backup roll 201, the second upper backup roll 202, supports on third upper backup roll the 203, the 4th On roller 204 and first on water squeezing roller 401；Sponge 702 is sleeved on the first lower backing roll 301, second lower under crawler belt shape Support roller 302, third lower backing roll 303, on the 4th lower backing roll 304；Sponge under sponge 701, crawler belt shape in crawler belt shape 702 is parallel with the direction of motion of rubber for tire component 9 with the direction of motion of 9 contact portion of rubber for tire component；Up-draught machine 501 The top of sponge 701 in crawler belt shape, 701 blowing hot-air of sponge in crawler belt shape；Lower hair-dryer 502 is located at sponge under crawler belt shape 702 lower section, to crawler belt shape under 702 blowing hot-air of sponge；Upper accepting water slot 801 is located on first to be squeezed on water squeezing roller 401 and second The lower section in 402 gaps of damping roller；There is sponge 702 under the crawler belt shape of moisture to carry out water squeezing, drying processing to suction in time, shoe can be made It is constantly in relatively dry state with sponge under shape 702, maintains higher water suction, water rem oval；It is squeezed through in the crawler belt shape of water Sponge 702 has more hole under sponge 701, crawler belt shape, compared to the contact area of rubber for tire component 9 and air, carries out With sponge 702 under sponge in shape 701, crawler belt shape respectively with the contact area bigger of air, up-draught machine 501, lower blowing are used Machine 502 is respectively successively to the drying efficiency of the blowing of sponge 702 under sponge 701, crawler belt shape in crawler belt shape compared to directly with blowing The drying efficiency higher that rubber for tire component 9 is blowed in machine；First upper backup roll 201, the second upper backup roll 202, The diameter of third upper backup roll 203 and the 4th upper backup roll 204 is 1.8 times of 701 thickness of sponge in crawler belt shape；Under first Support rollers 301, the second lower backing roll 302, third lower backing roll 303 and the 4th lower backing roll 304 diameter be to carry out 1.8 times with 702 thickness of sponge under shape；First upper backup roll 201 and the second gap between upper backup roll 202, second Gap, third upper backup roll 203 between upper backup roll 202 and third upper backup roll 203 and the 4th upper backup roll Gap between 204 is 0.8 times of 701 thickness of sponge in crawler belt shape；First lower backing roll 301 and the second lower backing roll Gap, the second lower backing roll 302 between 302 and the gap between third lower backing roll 303, third lower backing roll 303 and the 4th gap between lower backing roll 304 be 0.8 times of 702 thickness of sponge under crawler belt shape.

The direction of motion for the rubber for tire component 9 that the present embodiment is related to be from left to right, when driving device 601 rotates forward, The rotation of first upper backup roll 201, the second upper backup roll 202, third upper backup roll 203 and the 4th upper backup roll 204 It is that clockwise, it is from dextrad to make the direction of motion of sponge 701 and 9 contact portion of rubber for tire component in crawler belt shape to turn direction A left side, it is opposite with the direction of motion of rubber for tire component 9；The direction of rotation of lower backing roll 202 is counterclockwise, to make crawler belt shape The direction of motion of lower sponge 702 and 9 contact portion of rubber for tire component is the movement side with rubber for tire component 9 from right to left To opposite；The design of direction of rotation increases sponge 701 in crawler belt shape, sponge 702 and rubber for tire component 9 rub under crawler belt shape The length of contact portion makes sponge 701 and sponge 702 under crawler belt shape and 9 CONTACT WITH FRICTION part of rubber for tire component in crawler belt shape Water content gradually decrease from left to right；The water stain amount in 9 surface of rubber for tire component gradually decreases from left to right, makes relatively to dry sea The corresponding water stain less rubber for tire component 9 of silk floss is removed water, compared with wet sponge correspond to the rubber for tire component 9 more than water content into Row water removal, water-scavenging capability is stronger, is suitable for the case where water stain amount of 9 upper and lower surface of rubber for tire component is higher than normal value.

The operating principle and process for double water squeezing de-watering apparatus for rubber for tire component 9 that the present embodiment is related to are as follows： The rubber for tire component 9 that surface speckles with water passes through double water squeezing de-watering apparatus, crawler belt shape Shanghai from the material channel 101 in rack 1 Silk floss 701 forms a gap for being smaller than 9 thickness of rubber for tire component with sponge 702 under crawler belt shape, and rubber for tire component 9 is worn Cross the intermediate gap that sponge 701 is formed with sponge 702 under crawler belt shape in crawler belt shape；Driving device 601 drives each roller to rotate, and two A crawler belt shape sponge rubs the upper and lower surface of rubber for tire component 9 under the driving of each roller, while absorbing rubber for tire component 9 The moisture of upper and lower faces；Sponge 701 is squeezed by water squeezing roller 402 on water squeezing roller 401 and second on first in crawler belt shape, carries out Contained humidity is extruded a part in sponge 701 in band shape, and the water of extrusion is fallen in upper accepting water slot 801, and is arranged from upper drainpipe Go out；Sponge 702 is squeezed by lower backing roll 202 and bootom couch squeeze roll 403 under crawler belt shape, and institute is aqueous in sponge 702 under crawler belt shape Divide and be extruded a part, the water of extrusion is fallen in lower accepting water slot 802, and is discharged from lower drainpipe, realizes double water squeezing drain functions.

The method that double water squeezing de-watering apparatus that the present embodiment is related to realize double water squeezing water removals, processing step includes following step Suddenly：

(1)：It draws front：By rubber for tire component 9 from other transmission devices before double water squeezing de-watering apparatus draw to The material channel entrance 101 of double water squeezing de-watering apparatus；

(2)：Device inverts：Driving device 601 is arranged by drive dynamic control device 602 to invert, starts driving device 601；

(3)：Feeding：The water of 9 end of rubber for tire component is dried, rubber for tire component 9 is injected into sponge in crawler belt shape 701 and crawler belt shape under sponge 702 formed intermediate gap in, make rubber for tire component 9 with sponge 701 and crawler belt in crawler belt shape The movement of sponge 702 under shape and move to material channel outlet 102；

(4)：Stop reverse：Driving device 601 is closed by drive dynamic control device；

(5)：It draws at rear portion：By the traction of rubber for tire component 9 to other subsequent transmission devices of double water squeezing de-watering apparatus or Draft gear；

(6)：Start to be driven；Start before double water squeezing de-watering apparatus, other subsequent transmission devices or draft gear；

(7)：Device removes water：Driving device 601 is arranged by drive dynamic control device 602 to rotate forward, starts driving device 601, Start to remove water；

(8)：Water removal finishes：Lead to when a tires rubber assembly 9 removes water completion and leaves pair material of water squeezing de-watering apparatus Behind road outlet 102, driving device 601 is closed by drive dynamic control device 602, realizes double water squeezing remove water functions.

Embodiment 2：

Double water squeezing de-watering apparatus for rubber for tire component that the present embodiment is related to, main body composed structure and embodiment 1 is identical, the difference is that：As shown in Fig. 2, water squeezing roller 401, the first lower backing roll on the first upper backup roll 201, first Spine 10, the second upper backup roll 202, third upper backup roll is distributed in the surface of son 301 and the 4th lower backing roll 304 203, the 4th upper backup roll 204, the second lower backing roll 302, water squeezing roller 402 on third lower backing roll 303, second, The surface of bootom couch squeeze roll 403 is smooth.Sponge 702 includes spongy layer 703 and cord under sponge 701 and crawler belt shape in crawler belt shape Layer 704, the thickness of casing ply 704 are 1.1 times of 10 length of spine, on casing ply 704 and the first upper backup roll 201, second Support rollers 202, third upper backup roll 203, the 4th upper backup roll 204, the first lower backing roll 301, second time support Roller 302, third lower backing roll 303, the surface of water squeezing roller 401 directly connects on the 4th lower backing roll 304 and on first It touches, spongy layer 703 and the surface of water squeezing roller 402, bootom couch squeeze roll 403 and rubber for tire component 9 on second are in direct contact.

Embodiment 3：

Double water squeezing de-watering apparatus for rubber for tire component that the present embodiment is related to, main body composed structure and embodiment 1 is identical, the difference is that：As shown in figure 3,801 shape of upper accepting water slot be bar shaped elongated slot, the long side of upper accepting water slot 801 with The axis of water squeezing roller 401 is parallel on first, and the length of the long side of upper accepting water slot 801 is more than the width of sponge 701 in crawler belt shape, on 801 bottom of water receiving tank is connected to drainpipe 803.Sponge 701 carries out water squeezing, drying in this crawler belt shape for having moisture to suction in time The design of processing can make sponge 701 in crawler belt shape be constantly in relatively dry state, maintain higher water suction, water rem oval. Lower accepting water slot 802 is located at the lower section of the 4th lower backing roll 304 and sub 403 gaps of bootom couch squeeze roll；802 shape of lower accepting water slot is item The long side of the elongated slot of shape, lower accepting water slot 802 is parallel with the axis of bootom couch squeeze roll 403, and the length of the long side of lower accepting water slot 802 is more than The width of sponge 702 under crawler belt shape, 802 bottom of lower accepting water slot are connected to lower drainpipe 804.

Claims (7)

1. a kind of double water squeezing de-watering apparatus for rubber for tire component, agent structure includes rack, lower accepting water slot, lower water squeezing Roller, it is characterised in that：Further include the first upper backup roll, the second upper backup roll is sub, third upper backup roll is sub, is supported on the 4th Roller, the first lower backing roll, the second lower backing roll, third lower backing roll is sub, the 4th lower backing roll is sub, squeeze roll on first Son, water squeezing roller on second, up-draught machine, lower hair-dryer, driving device, drive dynamic control device, sponge, crawler belt shape in crawler belt shape Lower sponge, upper accepting water slot and lower accepting water slot；There are material channel entrances and material channel to export in rack；First upper backup roll Gap between the first lower backing roll be less than sponge, crawler belt shape in crawler belt shape plunge into the commercial sea tender rubber for tire component thickness it With；Gap on first on water squeezing roller and second between water squeezing roller is less than 0.8 times of sponge thickness in crawler belt shape；Lower water squeezing Gap between roller and the 4th lower backing roll is less than 0.8 times of sponge thickness under crawler belt shape；Driving device and drive control Device power information connects, startup, closing, rotating forward, reversion and the velocity of rotation that drive dynamic control device can control the driving device；The One upper backup roll, the second upper backup roll, third upper backup roll, the 4th upper backup roll, on first water squeezing roller and under The direction of rotation of water squeezing roller is identical, and the first lower backing roll, the second lower backing roll are sub, third lower backing roll is sub, the 4th lower The direction of rotation for supportting water squeezing roller on roller and second is identical, direction of rotation and the first lower backing roll of the first upper backup roll Direction of rotation it is opposite；Sponge is sleeved on the first upper backup roll, the second upper backup roll, third upper backup roll in crawler belt shape On son, the 4th upper backup roll and first on water squeezing roller；Under crawler belt shape sponge be sleeved on the first lower backing roll, second lower Support roller, third lower backing roll, on the 4th lower backing roll；Shoe can be located at by the up-draught machine of sponge blowing in crawler belt shape Top with sponge in shape；The lower hair-dryer that can be dried to sponge under crawler belt shape is located at the lower section of sponge under crawler belt shape；On connect Sink is located at the lower section of water squeezing roller gap on water squeezing roller and second on first；Lower accepting water slot be located at the 4th lower backing roll and The lower section in the sub- gap of bootom couch squeeze roll.

2. double water squeezing de-watering apparatus according to claim 1 for rubber for tire component, it is characterised in that：It is connect on described Trough-like shapes are the elongated slot of bar shaped, and the long side of upper accepting water slot is parallel with the axis of water squeezing roller on first, the long side of upper accepting water slot Length is more than the width of sponge in crawler belt shape, and upper accepting water trench bottom is connected to drainpipe；The lower accepting water groove shape is bar shaped The long side of elongated slot, lower accepting water slot is parallel with the axis of bootom couch squeeze roll, and the length of the long side of lower accepting water slot is more than sponge under crawler belt shape Width, lower accepting water trench bottom is connected to lower drainpipe.

3. double water squeezing de-watering apparatus according to claim 1 for rubber for tire component, it is characterised in that：Described first Upper backup roll, the second upper backup roll are sub, third upper backup roll is sub and the diameter of the 4th upper backup roll is sponge in crawler belt shape 1.8 times of thickness；First lower backing roll, the second lower backing roll, third lower backing roll and the 4th lower backing roll it is straight Diameter is 1.8 times of sponge thickness under crawler belt shape；Gap between first upper backup roll and the second upper backup roll is propped up on second Gap, third upper backup roll between support roller and third upper backup roll and the gap between the 4th upper backup roll are 0.8 times of sponge thickness in crawler belt shape；Gap, the second lower backing roll between first lower backing roll and the second lower backing roll Gap, third lower backing roll between son and third lower backing roll and the gap between the 4th lower backing roll are crawler belts 0.8 times of sponge thickness under shape.

4. double water squeezing de-watering apparatus according to any one of claims 1 to 3 for rubber for tire component, it is characterised in that： The driving device selects common motor；Driving device by way of belt transmission respectively with the first upper backup roll, Water squeezing roller, the first lower backing roll and the 4th lower backing roll are sequentially connected on first.

5. double water squeezing de-watering apparatus according to any one of claims 1 to 3 for rubber for tire component, it is characterised in that： First upper backup roll, the surface of water squeezing roller, the first lower backing roll and the 4th lower backing roll is distributed on first Spine, the second upper backup roll, third upper backup roll, the 4th upper backup roll, the second lower backing roll, third lower backing roll Son, the surface of water squeezing roller and bootom couch squeeze roll is smooth on second.

6. double water squeezing de-watering apparatus according to claim 5 for rubber for tire component, it is characterised in that：The crawler belt Sponge includes spongy layer and casing ply under sponge, crawler belt shape in shape, the thickness of casing ply be the spine length 0.9~ 1.1 again；Casing ply and the first upper backup roll, the second upper backup roll, third upper backup roll, the 4th upper backup roll, the Once support rollers, the second lower backing roll, third lower backing roll, water squeezing roller on the 4th lower backing roll and on first Surface is in direct contact, and the surface of spongy layer and water squeezing roller, bootom couch squeeze roll and rubber for tire component on second is in direct contact.

7. double water squeezing de-watering apparatus according to claim 1 for rubber for tire component, it is characterised in that：It is described double crowded The method that water de-watering apparatus realizes double water squeezing water removals, technical process include the following steps：(1)：It draws front：By rubber for tire Component is drawn from other transmission devices before double water squeezing de-watering apparatus to the material channel entrance of double water squeezing de-watering apparatus；(2)： Device inverts：Driving device is arranged by drive dynamic control device to invert, starts driving device；(3)：Feeding：By rubber for tire group The water of part end is dried, and rubber for tire component is injected under the tender crawler belt shape in crawler belt shape Shanghai in spongiotic intermediate gap, Rubber for tire component is set to move to material channel outlet with the movement of sponge under the tender crawler belt shape in crawler belt shape Shanghai；(4)：Stop Only invert：Driving device is closed by drive dynamic control device；(5)：It draws at rear portion：Rubber for tire component is drawn to double water squeezings and is removed Other subsequent transmission devices of water installations or draft gear；(6)：Start to be driven；Start double water squeezing de-watering apparatus above or belows Other transmission devices or draft gear；(7)：Device removes water：Driving device is arranged by drive dynamic control device to rotate forward, starts and drives Dynamic device, starts to remove water；(8)：Water removal finishes：Double water squeezing de-watering apparatus are completed and leave when a tires rubber assembly removes water Afterwards, driving device is closed by drive dynamic control device, realizes double water squeezing drain functions.