CN209741435U - Fiber soaking equipment - Google Patents

Abstract

The utility model relates to a fibre soaks equipment, including the frame, be provided with conveyor and soak the case in the frame, conveyor transport fibre is through soaking the case, and the soak case is used for soaking the fibre, the utility model discloses stable in structure, the operation is stable, can realize carrying out automatic serialization soaking treatment to the fibre, soaks effectually, soaks efficiently, can soak the fibre whole body section, has satisfied present operation requirement.

Description

Fiber soaking equipment

Technical Field

The utility model relates to a fibre processing field, concretely relates to fibre soaks equipment.

Background

In the animal and plant body, fibers play an important role in maintaining tissues. The fiber has wide application, can be woven into fine lines, thread ends and hemp ropes, and can also be woven into a fiber layer when making paper or weaving felts; it is also commonly used to make other materials and to form composite materials with other materials.

When the preparation processing fibre, need soak the processing to the fibre, soaking the processing now and generally accomplishing in the soaking box, but throw the material when soaking and get the material difficulty, generally rely on the manual work, inefficiency, the equipment is soaked in the serialization now for some, and the effect of soaking is not good, and efficiency is lower, can not satisfy present operation requirement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a fibre soaks equipment for to fibrous soaking treatment.

The technical proposal adopted by the utility model is as follows.

The utility model provides a fibre soaks equipment, which comprises a frame, be provided with conveyor and soak the case in the frame, conveyor transport fibre is through soaking the case, it is used for soaking the fibre to soak the case, conveyor includes the conveyer belt, hold carrier, clamping component, actuating mechanism and movable assembly, it arranges along conveyer belt interval to hold carrier, it installs on movable assembly to hold carrier demountable installation, it is used for bearing the fibre to hold carrier, the fibre middle part is taken and is established on holding carrier, both ends are downwards to be the form of suspending in midair and arrange, each holds carrier and corresponds a set of clamping component respectively, clamping component installs on movable assembly, clamping component is used for pressing from both sides the fibre that holds carrier, actuating mechanism installs on movable assembly, actuating mechanism is used for driving clamping component to keep away.

Preferably: the driving mechanisms and the movable assemblies are respectively provided with two groups, and the two groups of driving mechanisms and the two groups of movable assemblies are respectively arranged at two ends of the bearing piece.

Preferably: the movable assembly comprises a fixed sliding sleeve, an elastic piece and a movable mounting seat, the fixed sliding sleeve is installed on the conveying belt, the movable mounting seat is slidably installed in the fixed sliding sleeve, the elastic piece is installed between the movable mounting seat and the fixed sliding sleeve, the bearing piece is arranged on one side of the conveying belt, and the elastic piece is used for applying elasticity to the movable mounting seat and the fixed sliding sleeve, so that the bearing piece is close to the fixed sliding sleeve.

Preferably: clamping unit includes the clamping piece, reset the piece and driven piece, it installs on movable mounting seat to reset the piece, it is used for applying external force to clamping piece to reset the piece, press the clamping piece on bearing the piece, make the clamping piece paste and lean on and compress tightly the fibre on bearing the piece, driven piece passes through the articulated shaft and installs on movable mounting seat, driven piece one end rigid coupling clamping piece, actuating mechanism drive driven piece rotates, driven piece drives the clamping piece and rotates and keep away from bearing the piece.

Preferably: the driving mechanism comprises a driving assembly, a transmission mechanism, an adjusting assembly and a guiding assembly, the driving assembly is used for abutting against a driven piece, the transmission mechanism is used for transmitting power to drive the driving assembly to move, the adjusting assembly is used for matching the transmission mechanism to adjust advancing power of the conveying belt into the power of the driving assembly, and the guiding assembly is used for guiding the transmission mechanism to the adjusting assembly.

Preferably: the driving assembly comprises cams which are arranged at the positions corresponding to the driven piece at the two ends of the clamping piece.

Preferably: the transmission mechanism comprises a first rotating shaft, a second rotating shaft, a bearing seat, a supporting frame, a driving bevel gear and a driven bevel gear, wherein the first rotating shaft and the second rotating shaft are vertically arranged, the first rotating shaft and the second rotating shaft are respectively installed in the bearing seat, the bearing seat is installed on a movable installation seat through the supporting frame, one end of the first rotating shaft is fixedly connected with a cam, the driven bevel gear is installed at the other end of the first rotating shaft, one end of the second rotating shaft is provided with the driving bevel gear, and the driving bevel gear is meshed with the driven bevel.

Preferably: the adjusting component comprises a gear and a rack, the gear is installed at one end, far away from the driving bevel gear, of the second rotating shaft, the rack is arranged along the length direction of the soaking box, and the rack is connected with the gear in a meshed mode.

Preferably: the guide assembly comprises a guide rail and a guide rod, the guide rail is arranged along the length direction of the soaking box, the guide rod is fixedly connected with the movable mounting seat, and when the conveying belt conveying driving mechanism passes through the soaking box, the guide rod and the guide rail are in sliding abutting fit, so that the bearing piece is immersed in the soaking liquid in the soaking box.

Preferably: the guide rail comprises segmental arc and straightway, and segmental arc and straightway arrange along steeping box length direction in proper order, and the guide arm supports the in-process that leans on the guide rail, and the carrier is in following two kinds of states: the arc-shaped section abuts against the guide rod, so that the bearing piece is gradually immersed into the soaking liquid, and the straight-line section abuts against the guide rod, so that the bearing piece is kept immersed into the soaking liquid and advances along with the conveying belt.

Preferably: the guide rail is a C-shaped groove guide rail, the end part of the guide rod, which is abutted against the guide rail, is provided with a roller, and the roller and the C-shaped groove guide rail form rolling guide fit.

Preferably: the soaking box is internally provided with a smoothing-out roller, the lower end of the smoothing-out roller is immersed in the soaking liquid, the smoothing-out roller is arranged above the bearing part and the clamping component, the length of the smoothing-out roller is consistent with that of the clamping part, and the smoothing-out roller is used for smoothing out and pressing fibers floating on the liquid surface of the soaking liquid into the soaking liquid.

Preferably: the smoothing press rollers are arranged at intervals along the length direction of the soaking box.

Preferably: the driven parts are provided with two groups, and the two groups of driven parts are respectively arranged at two ends of the clamping part.

Preferably: the clamping piece comprises a clamping piece A and a clamping piece B, the clamping piece A and the clamping piece B are respectively connected with a resetting piece, and the resetting piece presses the clamping piece A and the clamping piece B on the bearing piece.

Preferably: the driven parts are rod-shaped parts, the number of the driven parts is two, the two driven parts are installed on the conveying belt through hinge shafts, and one ends of the two driven parts are fixedly connected with the clamping part A and the clamping part B respectively.

Preferably: in the process that the driving mechanism drives the driven part, the driving mechanism is abutted against the driven part to drive the clamping part A and the clamping part B to be at least in one of the following two states: a clamp is far away from the first state of the bearing part, and the second state is that: b a second state in which the clamp is away from the carrier.

Preferably: the bottom of the soaking box is provided with a heating device.

The utility model discloses the technological effect who gains does: the utility model discloses at first carry the fibre through conveyor, soak the case through soaking and soak the processing to the fibre. Bear the weight of the fibre through bearing the weight of the piece, the fibre middle part is set up on bearing the weight of the piece, and both ends are downwards to be and suspend the form and arrange, press from both sides the fibre through clamping component and press from both sides tight on bearing the weight of the piece, through the setting of movable assembly, bear the weight of the piece and can move about, through actuating mechanism's setting for drive clamping component keeps away from bearing the weight of the piece, makes the fibre that clamping component presss from both sides tight. Through setting up two sets of actuating mechanism and movable assembly for it is stable to bear the piece activity, and the drive is stable, and the job stabilization of being convenient for goes on smoothly. Through the sliding fit connection between fixed sliding sleeve and the movable mounting seat, realize the activity setting that holds carrier to through the setting of elastic component, make the fixed sliding sleeve that holds carrier case be close to, realize that the conveyer belt carries and holds carrier when not passing through the steeping box, hold carrier and be in the position that is close to the conveyer belt.

Through the clamping piece, reset the piece and by the setting of piece, reset the piece and be used for applying external force to the clamping piece, press the clamping piece on bearing the piece for the clamping piece pastes and leans on and compresses tightly the fibre on bearing the piece, and the piece passes through the articulated shaft to be installed on movable mounting seat passively, and actuating mechanism drives the piece rotation passively, and the piece drives the clamping piece rotation and keeps away from bearing the piece passively. Through drive assembly's setting, drive assembly supports and leans on by the piece, and the motion is moved by the piece in the drive, and through drive mechanism's setting, drive mechanism transmission power drives drive assembly motion, and through adjustment assembly's setting, adjustment assembly is used for cooperating drive mechanism to adjust the power of marcing of conveyer belt into drive assembly's power, and through the setting of direction subassembly, the direction subassembly is used for leading drive mechanism to adjustment assembly.

Through the setting of cam, the cam leans on by the piece that is moved when rotating for the piece intermittent motion that moves by the clamping piece makes the piece intermittent type keep away from and holds carrier, not only makes the soak solution can get into the fibre that presss from both sides tight department and soak tight department, can also avoid long-time unclamping to lead to the problem that the fibre drops. Through the arrangement of the first rotating shaft, the second rotating shaft, the bearing seat, the supporting frame, the driving bevel gear and the driven bevel gear, the second rotating shaft rotates, the driving bevel gear is meshed with the driven bevel gear to drive the first rotating shaft to rotate, the first rotating shaft drives the cam to rotate, the transmission is stable, and the operation is stable. Through the setting of gear and rack, gear and rack meshing, the conveyer belt drives the gear and advances for the gear advances on the rack, and gear revolve, gear drive second pivot rotate, realizes the regulation and the conversion transmission of power.

Through the arrangement of the guide rod and the guide rail, when the conveying belt conveying driving mechanism passes through the soaking box, the guide rod and the guide rail are in sliding abutting fit, so that the bearing piece is immersed in the soaking liquid in the soaking box. Through the setting of segmental arc and straightway, the guide arm supports the in-process that leans on the guide rail, and the segmental arc supports and leans on the guide arm for in bearing the weight of piece progressively submerges the soak, the straightway supports and leans on the guide arm, makes bearing the weight of piece keep submerging in the soak and advance along with the conveyer belt. Through the setting of C groove guide rail and gyro wheel, the gyro wheel constitutes the roll direction cooperation with C groove guide rail, replaces sliding fit, has not only reduced the friction, can also carry on spacingly to the guide pulley, avoids droing, has guaranteed the stability of operation.

Through setting up of smoothing out the press roller, realize smoothing out and pressing in the soak with fingers the fibre that floats on the soak liquid surface, arrange along soaking case length direction interval through smoothing out the press roller, realize smoothing out and pressing out the showy fibre many times, guarantee the soaking effect.

Through the setting of two sets of quilt pieces for the linkage clamping piece is more stable, when guaranteeing that the clamping piece keeps away from and holds carrier, whole body section is kept away from. Through the setting of A clamping piece and B clamping piece, promoted the clamping effect. Through two driven parts respectively rigid coupling A clamping piece and B clamping piece, realize driving A clamping piece and B clamping piece and stagger intermittently and keep away from and hold carrier, not only guaranteed to soak the effect, can also guarantee that the fibre can not drop from holding carrier.

Through heating device's setting, the heating soak solution heats the soak solution to suitable soaking stably according to the fibre of difference, promotes soaking efficiency.

The utility model discloses stable in structure, the operation is stable, can realize carrying out automatic serialization soaking treatment to the fibre, soaks effectually, soaks efficiently, can soak fibre whole body section, has satisfied present operation requirement.

Drawings

Fig. 1 is a schematic structural view of a fiber soaking device according to the present invention.

Fig. 2 is the structure schematic diagram of the movable assembly and the driving mechanism in the fiber soaking device provided by the utility model.

The corresponding relation of all the reference numbers is as follows: 300-conveying device, 310-conveying belt, 320-bearing part, 330-clamping component, 331-clamping part, 331a-A clamping part, 331B-B clamping part, 332-resetting part, 333-driven part, 333a-A driven part, 333B-B driven part, 340-driving mechanism, 341-driving component, 342-first rotating shaft, 343-second rotating shaft, 344-gear, 345-driven bevel gear, 346-driving bevel gear, 347-bearing seat, 348-supporting frame, 349-guide rod, 350-movable component, 351-movable mounting seat, 352-fixed sliding sleeve, 353-elastic part, 400-soaking box, 410-guide rail, 411-arc segment, 412-straight segment, 420-rack, 430-a smoothing and pressing roller and 440-a heating device.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

Example 1

Referring to fig. 1-2, an embodiment of the present invention provides a fiber soaking device, including a frame, a conveying device 300 and a soaking tank 400 are disposed on the frame, the conveying device 300 conveys fibers through the soaking tank 400, the soaking tank 400 is used for soaking fibers, the conveying device 300 includes a conveying belt 310, a bearing member 320, clamping assemblies 330, a driving mechanism 340 and a movable assembly 350, the bearing member 320 is disposed at intervals along the conveying belt 310, the bearing member 320 is detachably mounted on the movable assembly 350, the bearing member 320 is used for bearing fibers, the middle portion of the fibers is erected on the bearing member 320, two ends of the fibers are disposed in a hanging manner downward, each bearing member 320 corresponds to one group of clamping assemblies 330, the clamping assemblies 330 are mounted on the movable assembly 350, the clamping assemblies 330 are used for clamping fibers on the bearing member 320, the driving mechanism 340 is mounted on the movable assembly 350, the driving mechanism 340 is used for driving, the movable assembly 350 is mounted on the conveyor belt 310.

The driving mechanism 340 and the movable assembly 350 are provided in two sets, and the two sets of driving mechanism 340 and the movable assembly 350 are respectively disposed at two ends of the carrier 320.

The movable assembly 350 includes a fixed sliding sleeve 352, an elastic member 353 and a movable mounting seat 351, the fixed sliding sleeve 352 is mounted on the conveying belt 310, the movable mounting seat 351 is slidably mounted in the fixed sliding sleeve 352, the elastic member 353 is mounted between the movable mounting seat 351 and the fixed sliding sleeve 352, the carrier 320 is disposed on a side away from the conveying belt 310, and the elastic member 353 is used for applying elastic force to the movable mounting seat 351 and the fixed sliding sleeve 352, so that the carrier 320 approaches the fixed sliding sleeve 352.

The clamping assembly 330 comprises a clamping piece 331, a resetting piece 332 and a driven piece 333, the resetting piece 332 is installed on the movable installation seat 351, the resetting piece 332 is used for applying external force to the clamping piece 331 to press the clamping piece 331 on the bearing piece 320, so that the clamping piece 331 is attached to the bearing piece 320 to press fibers, the driven piece 333 is installed on the movable installation seat 351 through a hinge shaft, one end of the driven piece 333 is fixedly connected with the clamping piece 331, the driving mechanism 340 drives the driven piece 333 to rotate, and the driven piece 333 drives the clamping piece 331 to rotate to be far away from the bearing piece 320.

The driving mechanism 340 comprises a driving component 341, a transmission mechanism, an adjusting component and a guiding component, the driving component 341 is used for abutting against the driven component 333, the transmission mechanism is used for transmitting power to drive the driving component 341 to move, the adjusting component is used for matching with the transmission mechanism to adjust the advancing power of the conveying belt 310 into the power of the driving component 341, and the guiding component is used for guiding the transmission mechanism to the adjusting component.

The driving member 341 includes a cam disposed at both ends of the chucking member 331 at positions corresponding to the driven members 333.

The transmission mechanism comprises a first rotating shaft 342, a second rotating shaft 343, a bearing seat 347, a supporting frame 348, a driving bevel gear 346 and a driven bevel gear 345, the first rotating shaft 342 and the second rotating shaft 343 are vertically arranged, the first rotating shaft 342 and the second rotating shaft 343 are respectively installed in the bearing seat 347, the bearing seat 347 is installed on a movable installation seat 351 through the supporting frame 348, one end of the first rotating shaft 342 is fixedly connected with a cam, the other end of the first rotating shaft 342 is provided with the driven bevel gear 345, one end of the second rotating shaft 343 is rotatably provided with the driving bevel gear 346, and the driving bevel gear 346 is meshed with the driven bevel gear 345.

The adjusting assembly comprises a gear 344 and a rack 420, the gear 344 is mounted at one end of the second rotating shaft 343 far away from the driving bevel gear 346, the rack 420 is arranged along the length direction of the soaking tank 400, and the rack 420 is meshed with the gear 344.

The guide assembly comprises a guide rail 410 and a guide rod 349, the guide rail 410 is arranged along the length direction of the soaking box 400, the guide rod 349 is fixedly connected with the movable mounting seat 351, and when the conveying belt 310 conveys the driving mechanism to pass through the soaking box 400, the guide rod 349 is in sliding abutting fit with the guide rail 410, so that the bearing member 320 is immersed in the soaking liquid in the soaking box 400.

The guide rail 410 is composed of an arc-shaped section 411 and a straight section 412, the arc-shaped section 411 and the straight section 412 are sequentially arranged along the length direction of the soaking box 400, and when the guide rod 349 abuts against the guide rail 410, the bearing part 320 is in the following two states: first, the arcuate segment 411 abuts against the guide rods 349 such that the carrier 320 is gradually submerged into the soak solution, and second, the linear segment 412 abuts against the guide rods 349 such that the carrier 320 remains submerged within the soak solution traveling with the conveyor belt 310.

The guide rail 410 is a C-shaped groove guide rail, the end of the guide rod 349 abutted to the guide rail 410 is provided with a roller, and the roller and the C-shaped groove guide rail form rolling guide fit.

The soaking box 400 is internally provided with a smoothing and pressing roller 430, the lower end of the smoothing and pressing roller 430 is immersed in the soaking liquid, the smoothing and pressing roller 430 is arranged above the bearing part 320 and the clamping component 330, the length of the smoothing and pressing roller 430 is consistent with that of the clamping part 331, and the smoothing and pressing roller 430 is used for smoothing and pressing fibers floating on the liquid surface of the soaking liquid in the soaking liquid.

The smoothing rollers 430 are spaced apart along the length of the infusion tank 400.

The driven member 333 is provided with two sets, and the two sets of driven members 333 are arranged at both ends of the chucking member 331, respectively.

Clamp 331 includes a clamp 331a and B clamp 331B, with a clamp 331a and B clamp 331B respectively coupled to reset element 332, which presses a clamp 331a and B clamp 331B against carrier 320.

The driven members 333 are rod-shaped members, two driven members 333 are provided, the two driven members 333 are mounted on the conveyor belt 310 through hinge shafts, and one end of each of the two driven members 333 is fixedly connected with the clamping member a 331a and the clamping member B331B.

In the process that the driven piece 333 is driven by the driving mechanism, the driving mechanism abuts against the driven piece 333 to drive the A clamping piece 331a and the B clamping piece 331B to be at least in one of the following two states: a first state with the a clamp 331a away from the carrier 320, two: b a second state in which clamp 331B is remote from carrier 320.

The bottom of the steeping box 400 is provided with a heating device 440.

In the operation of the fiber soaking device in this embodiment, firstly the carrier 320 carrying the fibers is conveyed by the conveyor belt 310 to the soaking tank 400, the guide rods 349 are firstly abutted against the arc-shaped sections 411 of the guide rails 410, the guide rails 349 gradually move downwards along with the advance of the conveyor belt 310, the guide rails 349 drive the movable mounting seats 351 to slide in the fixed sliding sleeves 352 to drive the carrier 320 to gradually move downwards, so that the carrier 320 is gradually immersed in the soaking solution, then the guide rails 349 are abutted against the straight sections 412 of the guide rails 410, at this time, the gears 344 descend to the height meshed with the racks 420 and are meshed with the racks 420 along with the advance of the conveyor belt 310, as the conveyor belt 310 continues to advance, the gears 344 travel on the racks 420, the gears 344 rotate, the gears 344 drive the driving bevel gears 346 to rotate through the second rotating shafts 343, the driving bevel gears 346 drive the driven bevel gears 345 to rotate, and the driving assemblies 341 to rotate through the, the driving assembly 341 rotates, the rotating driving assembly 341 intermittently abuts against the driven member 333, the driven member 333 drives the clamping members 331a and 331B to alternately keep away from the bearing member 320, so that the soaking liquid enters the clamping position to soak the fibers at the clamping position, the fiber floating on the liquid surface of the soaking liquid is smoothed by the smoothing and pressing roller 430 and pressed into the soaking liquid along with the conveying of the conveying belt 310, the soaking effect is ensured, when the conveying belt 310 passes through the soaking box, the elastic member 353 enables the bearing member 320 to approach the fixed sliding sleeve 352, the bearing member 320 is lifted out of the soaking liquid, and the conveying belt 310 continues to move to the next process.

The utility model discloses at first carry the fibre through conveyor 300, soak the processing through soaking case 400 to the fibre. Bear the weight of the fibre through carrying the thing 320, fibre middle part is set up on carrying the thing 320, and both ends are downward and are the form of hanging in midair and arrange, press from both sides the fibre tightly on carrying the thing 320 through clamping component 330, through the setting of movable assembly 350, carry the thing and can move about, through the setting of actuating mechanism 340 for the fibre that clamping component 330 presss from both sides the department for clamping component 330 presss from both sides is kept away from and is born the thing 320, makes the fibre that clamping component 330 presss from both sides the. Through setting up two sets of actuating mechanism 340 and movable assembly 350 for the carrier 320 activity is stable, and the drive is stable, and the job stabilization of being convenient for goes on smoothly. Through the sliding fit connection between the fixed sliding sleeve 352 and the movable mounting seat 351, the movable arrangement of the bearing member 320 is realized, and through the arrangement of the elastic member, the fixed sliding sleeve 352 of the bearing member 320 box is close to realize that the bearing member 320 is in a position close to the conveying belt 310 when the conveying belt 310 conveys the bearing member 320 and does not pass through the soaking box.

Through the arrangement of the clamping piece 331, the resetting piece 332 and the driven piece 33, the resetting piece 332 is used for applying external force to the clamping piece 331 to press the clamping piece 331 on the bearing piece 320, so that the clamping piece 331 is attached to the bearing piece 320 to press fibers, the driven piece 33 is mounted on the movable mounting seat 351 through a hinge shaft, the driving mechanism 340 drives the driven piece 333 to rotate, and the driven piece 333 drives the clamping piece 331 to rotate away from the bearing piece 320. Through the setting of drive assembly 341, drive assembly 341 leans on by the driven part 333, drives driven part 333 and moves, and through drive mechanism's setting, drive mechanism transmission power drives drive assembly 341 motion, and through adjustment assembly's setting, adjustment assembly is used for cooperating drive mechanism and adjusts the power of advancing of conveyer belt 310 for drive assembly 341, and through the setting of direction subassembly, the direction subassembly is used for leading drive mechanism direction adjustment assembly.

Through the arrangement of the cam, when the cam rotates, the cam abuts against the driven piece 333, so that the driven piece 333 intermittently moves, the clamping piece 331 intermittently keeps away from the bearing piece 320, the soaking liquid can enter the clamping position to soak the fibers at the clamping position, and the problem that the fibers fall off due to long-time loosening can be avoided. Through the arrangement of the first rotating shaft 342, the second rotating shaft 343, the bearing seat 347, the supporting frame 348, the driving bevel gear 346 and the driven bevel gear 345, the second rotating shaft 343 rotates, the first rotating shaft 342 is driven to rotate through the meshing of the driving bevel gear 346 and the driven bevel gear 345, the first rotating shaft 342 drives the cam to rotate again, the transmission is stable, and the operation is stable. Through the arrangement of the gear 344 and the rack 420, the gear 344 is meshed with the rack 420, the conveying belt 310 drives the gear 344 to advance on the rack 420, so that the gear 344 rotates, and the gear 344 drives the second rotating shaft 343 to rotate, thereby realizing the adjustment and conversion transmission of power.

Through the arrangement of the guide rods 349 and the guide rails 410, when the conveying belt 310 conveys the driving mechanism 340 through the soaking tank 400, the guide rods 349 and the guide rails 410 are in sliding abutting fit, so that the carrier 320 is immersed in the soaking liquid in the soaking tank 400. Through the arrangement of the arc-shaped segment 411 and the straight segment 412, during the process that the guide rod 349 abuts against the guide rail 410, the arc-shaped segment 411 abuts against the guide rod 319, so that the carrier 320 is gradually immersed into the soaking liquid, and the straight segment 412 abuts against the guide rod 349, so that the carrier 320 is kept immersed into the soaking liquid to travel along with the conveying belt 310. Through the setting of C groove guide rail and gyro wheel, the gyro wheel constitutes the roll direction cooperation with C groove guide rail, replaces sliding fit, has not only reduced the friction, can also carry on spacingly to the guide pulley, avoids droing, has guaranteed the stability of operation.

Through setting up of smoothing out press roller 430, realize smoothing out and pressing in the soak with fingers the fibre that floats on the soak liquid surface, arrange along soaking case 400 length direction interval through smoothing out press roller 430, realize smoothing out and pressing out the showy fibre many times, guarantee to soak the effect.

Through the arrangement of the two groups of driven parts 333, the linkage clamping part is more stable, and when the clamping part is far away from the bearing part, the whole body section is far away. By the arrangement of the a clamp 331a and the B clamp 331B, the clamping effect is improved. The clamping pieces 331a and 331B are fixedly connected with the two driven pieces 333 respectively, so that the clamping pieces 331a and 331B are driven to intermittently stagger and separate from the bearing piece, the soaking effect is guaranteed, and the fibers can not fall off from the bearing piece.

Through heating device 440's setting, the heating soak, it is stable to heat suitable soaking with the soak according to the fibre of difference, promotes soaking efficiency.

The utility model discloses stable in structure, the operation is stable, can realize carrying out automatic serialization soaking treatment to the fibre, soaks effectually, soaks efficiently, can soak fibre whole body section, has satisfied present operation requirement.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (10)

1. The fiber soaking equipment comprises a rack and is characterized in that the rack is provided with a conveying device (300) and a soaking box (400), the conveying device (300) conveys fibers through the soaking box (400), the soaking box (400) is used for soaking the fibers, the conveying device (300) comprises a conveying belt (310), a bearing part (320), clamping components (330), a driving mechanism (340) and a movable component (350), the bearing part (320) is arranged at intervals along the conveying belt (310), the bearing part (320) is detachably mounted on the movable component (350), the bearing part (320) is used for bearing the fibers, the middle of the fibers is erected on the bearing part (320), two ends of the fibers are arranged downwards in a hanging manner, each bearing part (320) respectively corresponds to one group of the clamping components (330), the clamping components (330) are mounted on the movable component (350), and the clamping components (330) are used for clamping the fibers on the bearing part (320), the drive mechanism (340) is mounted on a movable assembly (350), the drive mechanism (340) is used for driving the clamping assembly (330) to move away from the carrier (320), and the movable assembly (350) is mounted on the conveying belt (310).

2. Fibre infusion device according to claim 1, wherein the driving means (340) and the movable assembly (350) are provided in two sets each, the two sets of driving means (340) and movable assembly (350) being arranged at the two ends of the carrier (320), respectively.

3. Fibre infusion device according to claim 2, wherein the movable assembly (350) comprises a fixed sliding sleeve (352), an elastic member (353) and a movable mounting (351), the fixed sliding sleeve (352) is mounted on the conveyor belt (310), the movable mounting (351) is slidably mounted in the fixed sliding sleeve (352), the elastic member (353) is mounted between the movable mounting (351) and the fixed sliding sleeve (352), the carrier (320) is arranged on the side facing away from the conveyor belt (310), and the elastic member (353) is used for applying an elastic force to the movable mounting (351) and the fixed sliding sleeve (352) so that the carrier (320) approaches the fixed sliding sleeve (352).

4. The fiber soaking device according to claim 3, wherein the clamping assembly (330) comprises a clamping member (331), a resetting member (332) and a driven member (333), the resetting member (332) is mounted on the movable mounting seat (351), the resetting member (332) is used for applying an external force to the clamping member (331) to press the clamping member (331) on the bearing member (320), so that the clamping member (331) abuts against the bearing member (320) to press the fibers, the driven member (333) is mounted on the movable mounting seat (351) through a hinged shaft, one end of the driven member (333) is fixedly connected with the clamping member (331), the driving mechanism (340) drives the driven member (333) to rotate, and the driven member (333) drives the clamping member (331) to rotate away from the bearing member (320).

5. The fiber soaking device according to claim 4, wherein the driving mechanism (340) comprises a driving component (341), a transmission mechanism, an adjusting component and a guiding component, the driving component (341) is used for abutting against the driven component (333), the transmission mechanism is used for transmitting power to drive the driving component (341) to move, the adjusting component is used for matching with the transmission mechanism to adjust the advancing power of the conveying belt (310) into the power of the driving component (341), and the guiding component is used for guiding the transmission mechanism to the adjusting component.

6. The fiber soaking apparatus according to claim 5, wherein the driving assembly (341) comprises cams disposed at both ends of the clamping member (331) at positions corresponding to the driven member (333).

7. The fiber soaking equipment according to claim 6, wherein the transmission mechanism comprises a first rotating shaft (342), a second rotating shaft (343), a bearing seat (347), a supporting frame (348), a driving bevel gear (346) and a driven bevel gear (345), the first rotating shaft (342) and the second rotating shaft (343) are vertically arranged, the first rotating shaft (342) and the second rotating shaft (343) are respectively installed in the bearing seat (347), the bearing seat (347) is installed on the movable installation seat (351) through the supporting frame (348), one end of the first rotating shaft (342) is fixedly connected with a cam, the driven bevel gear (345) is installed at the other end of the first rotating shaft (342), the driving bevel gear (346) is rotated at one end of the second rotating shaft (343), and the driving bevel gear (346) is meshed with the driven bevel gear (345).

8. The fiber steeping device as claimed in claim 7, wherein the adjusting assembly comprises a gear (344) and a rack gear (420), the gear (344) is installed at an end of the second rotating shaft (343) far away from the driving bevel gear (346), the rack gear (420) is arranged along a length direction of the steeping box (400), and the rack gear (420) is engaged with the gear (344).

9. The fiber soaking equipment according to claim 8, wherein the guide assembly comprises a guide rail (410) and a guide rod (349), the guide rail (410) is arranged along the length direction of the soaking tank (400), the guide rod (349) is fixedly connected with the movable mounting seat (351), and when the conveying driving mechanism of the conveying belt (310) passes through the soaking tank (400), the guide rod (349) is in sliding abutting fit with the guide rail (410) so that the bearing member (320) is immersed in the soaking liquid in the soaking tank (400).

10. The fiber soaking equipment according to claim 9, wherein the guide rail (410) is composed of an arc-shaped section (411) and a straight section (412), the arc-shaped section (411) and the straight section (412) are sequentially arranged along the length direction of the soaking box (400), and the bearing (320) is in the following two states in the process that the guide rod (349) abuts against the guide rail (410): firstly, the arc-shaped section (411) abuts against the guide rod (349) so that the carrier (320) is gradually immersed into the soaking liquid, and secondly, the straight section (412) abuts against the guide rod (349) so that the carrier (320) keeps immersed into the soaking liquid and travels along with the conveying belt (310).