CN209022135U - One main laminaria shakeouts, section machine - Google Patents

Abstract

The utility model discloses a main laminarias to shakeout, section machine.It solves the problems, such as existing kelp segmenting device there are the scope of applications small.Its feeding unit includes conveying bracket, conveyer belt and two conveying rollers, and conveyer belt is assemblied between two conveying rollers, the wherein conveying roller rotation that driving motor is arranged on conveying bracket by the driving of conveying transmission component；Shakeouing mechanism includes shakeouing bracket, two shakeouing roller and two and shakeout motor, shakeout motor by shakeout transmission component driving be arranged in shakeout on bracket, the booth rollers turn of V-shaped structure；Its material-feeding mechanism includes cloth bracket and several fabric rollers, and driving motor drives wherein fabric roller rotation by cloth transmission component, rotated synchronously between each fabric roller by the driving of cloth transmission component；Step cut mechanism includes several cylinder frames, cylinder, cutting knife and cuts chopping block, and cylinder drives cutting knife downlink to cut kelp raw material.It is good that the utility model shakeouts effect, applied widely.

Description

One main laminaria shakeouts, section machine

Technical field

The utility model relates to have the cutter device through workpiece of vertical cutting member, especially main laminaria booth Flat, section machine.

Background technique

Kelp is a kind of raw brown alga in large size sea grown in low temperature seawater, because rich in minerals such as potassium, iodine and largely Unsaturated fatty acid and food fiber, the effect in fields such as food and drink, chemical industry is irreplaceable.

It is known that the different parts of kelp have different economic value and nutritive value, to meet different market Demand, people usually require to carry out segment processing to kelp.Currently, the segment processing of kelp is realized by manual type, Since the surface of Fresh Laminaria Japonica is rich in mucus, worker must one by one be paved Laminaria Japonica, reused cutter and cut segmentation to kelp, Its large labor intensity, production efficiency are low.For this purpose, numerous technical staff endeavour the research in kelp cutting apparatus, for example, 2015 " a main laminaria segmenting device " is disclosed in CN104526735A Chinese invention patent application specification disclosed in April 22, It includes the divider of a pair of parallel conveyor chain and setting thereunder, if being equipped at intervals between conveyor chain cladding Bar is equipped with several kelp suspender members on each hanging rod；Divider is by several doorframes for gradually increasing setting in default station Formula bracket, the cutter shaft frame being fixed on bracket by default segmentation station, corresponds to rolling assembling at corresponding rack-mount motor Cutter shaft on cutter shaft frame, the circular shear blade being packed on cutter shaft, driving member and guide rack composition, motor drive through driving member Cutter shaft rotation；The top of bracket is arranged in guide rack, and inlet is stretched out outside circular shear blade, and in the angular knot dehisced outward Structure meets the carriage direction to kelp.Divide although the kelp segmenting device is realized to be segmented kelp, reduce labor intensity of workers, Production efficiency is improved, but it is only applicable in the segmentation to Fresh Laminaria Japonica raw material, be not applied for contracting to salt marsh the kelp original wrinkled Material segmentation.

Summary of the invention

It is small that there are the scope of applications in order to overcome the shortcomings of existing kelp segmenting device, and the utility model provides a kind of design and closes Manage, shakeout the kelp that effect is good, applied widely shakeout, section machine.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a main laminaria shakeouts, section machine comprising One conveying spreading out device, a cloth sectioning and a driving motor, it is characterised in that:

The conveying spreading out device includes that a feeding unit and one shakeouts mechanism, wherein

The feeding unit includes a conveying bracket, a conveyer belt, two conveying rollers and conveying transmission component, and described is defeated Material roller is rotatably supported in the feeding end of conveying bracket, on discharge end respectively, and the conveyer belt revolution is assemblied on two conveying rollers； The driving motor is assemblied on the conveying bracket and the driving motor is driven wherein by conveying transmission component The rotation of one conveying roller；

The described mechanism of shakeouing includes one shakeouing bracket, two shakeouing roller, two shakeout motor and shakeout transmission component, described Bracket is shakeout to be fixed on the conveying bracket, described two shakeout roller be rotatably supported in respectively shakeout it is on bracket and described Two, which shakeout the V-shaped structure of roller, meets to raw material input direction, and described two, which shakeout motor, is respectively assembled at described shakeout on bracket And corresponding booth rollers turn is driven by shakeouing transmission component respectively；

The cloth sectioning includes a material-feeding mechanism and a step cut mechanism, wherein

The material-feeding mechanism includes a cloth bracket, several fabric rollers and the first cloth transmission component, the second cloth biography The discharge end side of the conveying bracket is arranged in dynamic component, the cloth bracket, and the fabric roller is parallel respectively, turns It is dynamic to be supported on cloth bracket, and rotated synchronously between one end of the fabric roller by the driving of the second cloth transmission component, The driving motor drives wherein fabric roller rotation by the first cloth transmission component；

The step cut mechanism includes several cylinder frames, cylinder, cutting knife and cuts chopping block, and the cylinder frame is pressed Predeterminated position, which is respectively separated, to be fixed on cloth bracket, and the cylinder body of the cylinder is separately fixed on corresponding cylinder frame, institute The cutting knife stated, which respectively corresponds, to be arranged on the piston rod of cylinder, it is described cut chopping block and respectively correspond cutting knife be fixed on cloth On bracket.

Preferably, the conveying transmission component includes that a conveying drive sprocket, a conveying driven sprocket and a conveying pass Dynamic chain, the conveying drive sprocket are nonrotationally assemblied on the output shaft of driving motor, and the conveying driven sprocket is non- For rolling assembling on wherein one end of a conveying roller, the conveying driving chain revolution is engaged on conveying drive sprocket and conveying On driven sprocket.

Preferably, it is described shakeout transmission component and include shakeout driving pulley, one shakeout driven pulley and one and shakeout Transmission belt, the driving pulley that shakeouts nonrotationally are assemblied in the output shaft for shakeouing motor respectively, and described shakeouts driven pulley Nonrotationally be assemblied in respectively it is described shakeouing on one end of roller, it is described shakeout transmission belt revolution be assemblied in shakeout driving pulley with It shakeouts between driven pulley.

Preferably, the first cloth transmission component includes a cloth drive sprocket, a cloth driven sprocket and cloth Driving chain, the cloth drive sprocket are nonrotationally assemblied on the output shaft of driving motor, the cloth driven sprocket On wherein one end of a fabric roller, the cloth driving chain revolution is engaged on cloth drive sprocket and cloth for nonrotational assembly Expect on driven sprocket.

Preferably, the second cloth transmission component includes several drive sprockets and drive chain, the drive chain Wheel, which respectively corresponds, to be nonrotationally assemblied on one end of fabric roller, and the drive chain revolution is engaged on adjacent drive sprocket On.

Preferably, the conveying spreading out device further includes a feeding pressure mechanism, and the feeding pressure mechanism includes a nip rolls With binder transmission component, the nip rolls is rotatably supported in close on and shakeout on the conveying bracket of roller, and the driving motor is logical Cross the driving nip rolls rotation of binder transmission component.

Preferably, the binder transmission component includes a binder driving gear, a binder driven gear, binder active Sprocket wheel, a binder driven sprocket and a binder driving chain, the binder driving gear are nonrotationally assemblied in driving motor On output shaft, the binder driven gear is rotatably supported on conveying bracket by support shaft, and the binder driven tooth Wheel is meshed with binder driving gear；The binder drive sprocket and binder driven gear is coaxially nonrotationally assemblied in support shaft On, the binder driven sprocket is nonrotationally assemblied on one end of nip rolls, and the binder driving chain revolution is engaged on On binder drive sprocket and binder driven sprocket.

Preferably, the utility model further includes a turn-down rig, which includes a stirring shaft, a stirring motor With several tilting trestles, the stirring shaft is rotatably supported in cloth bracket far from the second cloth transmission component by stirring seat On side, the output shaft of the stirring motor is connected with stirring shaft, and one end of the tilting trestle is respectively separated fixation In stirring shaft, tilting trestle is separately positioned between fabric roller far from one end of stirring shaft.

Preferably, the tilting trestle includes a stirring bar and several retainer bars, one end difference of the stirring bar Interval is fixedly connected in stirring shaft, and the stirring bar is separately positioned on adjacent fabric roller far from one end of stirring shaft Between；The retainer bar is respectively separated on fixed stirring bar, and retainer bar is corresponded in the fabric roller and is offered respectively Accommodation groove, the retainer bar are correspondingly placed in the accommodation groove of fabric roller.

Preferably, hairbrush is equipped on the outer peripheral surface for shakeouing roller, which is arranged around roller axial screw is shakeout.

The driving motor of the utility model is driven by conveying transmission component wherein one is arranged in the conveying on conveying bracket Roller rotation, so that driving conveying belt turns round between two conveying rollers and kelp raw material is driven to move along conveying direction；It two shakeouts Motor respectively by shakeout transmission component driving be arranged in shakeout on bracket, two booth rollers turns of V-shaped structure, contract to salt marsh The kelp raw material of wrinkle is shakeout, and it is good to shakeout effect；Driving motor drives a wherein setting by the first cloth transmission component Fabric roller rotation on cloth bracket, is arranged between each fabric roller on cloth bracket and is driven by the second cloth transmission component It is dynamic to rotate synchronously, then the kelp shakeout is laid in fabric roller；Cylinder driving cutting knife downlink is simultaneously contacted with chopping block is cut, from And the kelp being laid in fabric roller is carried out to cut segmentation.The utility model is equally applicable to the shakeouing of Fresh Laminaria Japonica, cuts out Cutting section.Compared with prior art, the utility model have design rationally, shakeout that effect is good, applied widely, high production efficiency The advantages of.

Detailed description of the invention

Fig. 1 is a kind of structural front view of the utility model；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is partial enlarged view at A in Fig. 1；

Fig. 4 is partial enlarged view at B in Fig. 1；

Fig. 5 is partial enlarged view at C in Fig. 2；

Fig. 6 is partial enlarged view at D in Fig. 2.

Marked in the figure: 1. conveying spreading out device, 101. feeding units, 1011. conveying brackets, 1012. conveyer belts, 1013. First conveying roller, 1014. second conveying rollers, 1015. conveying transmission components, 10151. conveying drive sprockets, 10152. conveyings from Movable sprocket, 10153. conveying driving chains, 102. shakeout mechanism, and 1021. shakeout bracket, and 1022. shakeout roller, and 1023. shakeout electricity Machine, 1024. shakeout transmission component, and 10241. shakeout driving pulley, and 10242. shakeout driven pulley, and 10243. shakeout transmission belt, 103. feeding pressure mechanism, 1031. nip rolls, 1032. binder transmission components, 10321. binder driving gears, 10322. binders are driven Gear, 10323. binder drive sprockets, 10324. binder driven sprockets, 10325. binder driving chains, 104. hairbrush, 105. Support axis, 2. cloth sectionings, 201. material-feeding mechanisms, 2011. cloth brackets, 2012. fabric rollers, 20121. accommodation grooves, 2013. First cloth transmission component, 20131. cloth drive sprockets, 20132. cloth driven sprockets, 20133. cloth driving chains, 2014. second cloth transmission components, 20141. drive sprockets, 20142. drive chains, 202. step cut mechanisms, 2021. gas Cylinder frame, 2022. cylinders, 2023. cutting knife, 2024. cut chopping block, 3. driving motors, 4. turn-down rigs, 401. stirring shafts, 402. stirring motors, 403. tilting trestles, 4031. stirring bars, 4032. retainer bars, 404. stirring seats.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples.

As shown in Figure 1 and Figure 2, a main laminaria shakeout, section machine comprising a conveying spreading out device 1, a cloth segmentation dress Set 2 and a driving motor 3.

In Fig. 1, Fig. 2, conveying spreading out device 1 includes that a feeding unit 101 and one shakeouts mechanism 102.

It should be noted that as shown in figure 3, feeding unit 101 includes a conveying bracket 1011, a conveyer belt 1012, the One conveying roller 1013, the second conveying roller 1014 and conveying transmission component 1015.Wherein, in Fig. 3,1013 warp beam of the first conveying roller It holds and bearing block is rotatably supported in the feeding end of conveying bracket 1011, the second conveying roller 1014 is through bearing and bearing block rotational support In the discharge end of conveying bracket 1011, the revolution of conveyer belt 1012 is assemblied between the first conveying roller 1013, the second conveying roller 1014, The kelp raw material being placed on it can be delivered to the discharging of feeding unit 101 by conveyer belt 1012 by the feeding end of feeding unit 101 End.

In Fig. 1, Fig. 2, Fig. 3, Fig. 5, driving motor 3 is assemblied on conveying bracket 1011.

In Fig. 3, Fig. 5, driving motor 3 drives the rotation of the second conveying roller 1014 by conveying transmission component 1015.

It should be further noted that as shown in figure 5, in the present embodiment, conveying transmission component 1015 includes a conveying Drive sprocket 10151, a conveying driven sprocket 10152 and a conveying driving chain 10153.In Fig. 5, conveying drive sprocket On the output shaft of driving motor 3, conveying driven sprocket 10152 is keyed the 1 of the second conveying roller 1,014 10151 key connections On end, the revolution of conveying driving chain 10153 is engaged on conveying drive sprocket 10151 and conveying driven sprocket 10152.

It should be noted that as shown in Figure 2 and Figure 3, shakeouing mechanism 102 includes one shakeouing bracket 1021, two and shakeouing roller 1022, it two shakeouts motor 1023 and two and shakeouts transmission component 1024.Wherein, it on Fig. 2, Fig. 3, shakeouts bracket 1021 and is welded and fixed On the top of conveying bracket 1011, two, which shakeout roller 1022, is rotatably supported in shakeouts on bracket 1021 respectively, and two shakeout motor 1023 are respectively assembled at and shakeout on bracket 1021, and are driven by shakeouing transmission component 1024 corresponding shakeout roller 1022 respectively Rotation.

Effect is shakeout for the optimization wrinkle kelp raw material that contracts, as shown in Fig. 2, two shakeout roller 1022 and are on shakeouing bracket 1021 V-arrangement setting, meets to raw material input direction.

It should be further noted that as shown in figure 3, in the present embodiment, shakeouing transmission component 1024 includes a booth Flat driving pulley 10241, one shakeouts driven pulley 10242 and one and shakeouts transmission belt 10243.In Fig. 3, driving pulley is shakeout 10241 are keyed respectively on the output shaft for shakeouing motor 1023, shakeout driven pulley 10242 and are keyed respectively and are shakeouing roller On 1022 one end, shakeouts transmission belt 10243 and turn round respectively and be assemblied in corresponding shakeout and driving pulley 10241 and shakeout driven belt Between wheel 10242.

In order to make kelp raw material is smooth to be delivered to two and shakeout between roller 1022, as shown in Fig. 2, Fig. 3, Fig. 5, conveying shakeouts dress Setting 1 further includes a feeding pressure mechanism 103.In Fig. 2, Fig. 3, Fig. 5, which includes that a nip rolls 1031 and binder pass Dynamic component 1032, wherein nip rolls 1031 is rotatably supported in close on and shakeout on the conveying bracket 1011 of roller 1022, driving motor 3 Nip rolls 1031 is driven to rotate by binder transmission component 1032.

It should be further noted that as shown in figure 5, in the present embodiment, binder transmission component 1032 includes a binder Driving gear 10321, a binder driven gear 10322, a binder drive sprocket 10323, a binder driven sprocket 10324 and one Binder driving chain 10325.Wherein, in Fig. 5, binder driving gear 10321 is keyed on the output shaft of driving motor 3, Binder driven gear 10322 is rotatably supported on conveying bracket 1011 by support shaft 105, with binder driving gear 10321 It is meshed, has the function of commutation, speed change to the power that driving motor 3 exports；Binder drive sprocket 10323 and binder driven tooth Coaxially in support shaft 105, binder driven sprocket 10324 is keyed on one end of nip rolls 1031 key connection wheel 10322, pressure The material revolution of driving chain 10325 is engaged on binder drive sprocket 10323 and binder driven sprocket 10324, by driving motor 3 The power of output is transferred on nip rolls 1031.

As shown in figure 3, being equipped with hairbrush 104 on the outer peripheral surface for shakeouing roller 1022, the hairbrush 104 is axial around roller 1022 is shakeout Spiral setting is remarkably improved and shakeouts 1022 pairs of roller contracting wrinkle kelp raw materials and shakeout efficiency.

In Fig. 2, cloth sectioning 2 includes a material-feeding mechanism 201 and a step cut mechanism 202.

It should be noted that as shown in Figure 4, Figure 5, material-feeding mechanism 201 includes a cloth bracket 2011, several fabric rollers 2012 and the first cloth transmission component 2013, the second cloth transmission component 2014.Wherein, in Fig. 4, Fig. 5, cloth bracket 2011 The discharge end side of conveying bracket 1011 is set, and fabric roller 2012 is parallel respectively, is rotatably supported on cloth bracket 2011, cloth Expect to rotate synchronously between one end of roller 2012 by the driving of the second cloth transmission component 2014, driving motor 3 passes through the first cloth Wherein a fabric roller 2012 rotates the driving of transmission component 2013.

It should be further noted that as shown in figure 5, in the present embodiment, the first cloth transmission component 2013 includes one Cloth drive sprocket 20131, a cloth driven sprocket 20132 and cloth driving chain 20133.In Fig. 5, wherein cloth master Movable sprocket 20131 is keyed on the output shaft of driving motor 3, and cloth driven sprocket 20132 is keyed in cloth bracket 2011 On one end of the fabric roller 2012 of feeding end, the revolution of cloth driving chain 20133 is engaged on cloth drive sprocket 20131 and cloth On driven sprocket 20132, the power that driving motor 3 exports is transferred in the fabric roller 2012.

It should be further noted that as shown in figure 5, in the present embodiment, if the second cloth transmission component 2014 includes Dry drive sprocket 20141 and drive chain 20142.In Fig. 5, drive sprocket 20141 respectively corresponds key connection in fabric roller On 2012 one end, the revolution of drive chain 20142 is engaged on adjacent drive sprocket 20141, and cloth bracket 2011 is entered The rotational power of a fabric roller 2012 on material end is successively transferred in other fabric rollers 2012 on cloth bracket 2011.

It should be noted that as shown in figure 4, step cut mechanism 202 includes cylinder frame 2021, cylinder 2022, cutting knife 2023 and cut chopping block 2024.In Fig. 4, cylinder frame 2021 is respectively separated by predeterminated position to be welded on cloth bracket 2011, The cylinder body of cylinder 2022 is respectively assembled on corresponding cylinder frame 2021, and cutting knife 2023, which respectively corresponds, is assemblied in cylinder 2022 On piston rod, cuts chopping block 2024 and respectively correspond cutting knife 2023 and be assemblied on cloth bracket 2011.

In Fig. 2, Fig. 6, the utility model further includes a turn-down rig 4.

It should be noted that as shown in fig. 6, turn-down rig 4 includes a stirring shaft 401, a stirring motor 402 and several Tilting trestle 403.In Fig. 6, stirring shaft 401 is rotatably supported in cloth bracket 2011 far from the second cloth by stirring seat 404 On the side of transmission component 2014, the output shaft of stirring motor 402 is connected with stirring shaft 401, one end point of tilting trestle 403 It Jian Ge not be fixed in stirring shaft 401, tilting trestle 403 is separately positioned on fabric roller 2012 far from one end of stirring shaft 401 Between.

It should be further noted that as shown in fig. 6, in the present embodiment, tilting trestle 403 includes a stirring bar 4031 With several retainer bars 4032.In Fig. 6, one end of stirring bar 4031, which is respectively separated, to be fixedly connected in stirring shaft 401, stirring Bar 4031 is separately positioned between adjacent fabric roller 2012 far from one end of stirring shaft 401, and retainer bar 4032 is respectively separated On fixed stirring bar 4031.

For the placement convenient for retainer bar 4032 and the smooth of 2012 cloth station of fabric roller is kept, as shown in fig. 6, in cloth Retainer bar 4032 is corresponded on roller 2012 and offers accommodation groove 20121 respectively, and retainer bar 4032 is correspondingly placed at fabric roller 2012 In accommodation groove 20121.

When the utility model is used, the kelp raw material of contracting wrinkle is placed on conveyer belt by the feeding end of feeding unit 101 On 1012, driving motor 3 is driven by conveying transmission component 1015 wherein one is arranged in the second conveying on conveying bracket 1011 Roller 1014 rotates, so that driving conveying belt 1012 turns round, conveyer belt 1012 drives kelp raw material to be transported to binder along conveying direction Mechanism 103 carries out binder conveying, then is shakeout mechanism 102 and exported by discharge end；Wherein, feeding pressure mechanism 103 is by kelp raw material pressure It is attached on conveyer belt 1012, it is also preliminary to the progress of kelp raw material smooth, it shakeouts mechanism 102 and kelp raw material is carried out to shakeout processing； Driving motor 3 is arranged by the first cloth transmission component 2013, the driving of the second cloth transmission component 2014 in cloth bracket 2011 On fabric roller 2012 rotate synchronously, and the kelp raw material after shakeouing is laid in fabric roller 2012, and then control segmentation is cut out The cylinder 2022 for cutting mechanism 202 drives 2023 downlink of cutting knife and contacts with chopping block 2024 is cut, thus to fabric roller is laid in Kelp on 2012 carries out cutting segmentation, then controls stirring motor 402 and stirring shaft 401 is driven to overturn, and is connected to stirring shaft Kelp raw material after cutting segmentation is distinguished dumping to next station, to carry out subsequent add to kelp by the tilting trestle 403 on 401 Work.

The utility model have the advantages that design rationally, shakeout that effect is good, applied widely, high production efficiency.

Claims (10)

1. a main laminaria shakeouts, section machine comprising a conveying spreading out device, a cloth sectioning and a driving motor, It is characterized in that:

The conveying spreading out device includes that a feeding unit and one shakeouts mechanism, wherein

The feeding unit includes a conveying bracket, a conveyer belt, two conveying rollers and conveying transmission component, the conveying roller It is rotatably supported in the feeding end of conveying bracket respectively, on discharge end, the conveyer belt revolution is assemblied on two conveying rollers；It is described Driving motor be assemblied on the conveying bracket and the driving motor is wherein one defeated by the driving of conveying transmission component Expect roller rotation；

The described mechanism of shakeouing includes one shakeouing bracket, two shakeouing roller, two shakeout motor and shakeout transmission component, and described shakeouts Bracket is fixed on the conveying bracket, and described two, which shakeout roller, is rotatably supported in shakeouts on bracket and two booth respectively The V-shaped structure of plain-barreled roll is met to raw material input direction, described two shakeout motor be respectively assembled at it is described shakeout on bracket and point Corresponding booth rollers turn is not driven by shakeouing transmission component；

The cloth sectioning includes a material-feeding mechanism and a step cut mechanism, wherein

The material-feeding mechanism includes a cloth bracket, several fabric rollers and the first cloth transmission component, the second cloth transmission group The discharge end side of the conveying bracket is arranged in part, the cloth bracket, and the fabric roller is parallel respectively, rotates branch Support is rotated synchronously on cloth bracket, and between one end of the fabric roller by the driving of the second cloth transmission component, described Driving motor by the first cloth transmission component drive wherein a fabric roller rotate；

The step cut mechanism includes several cylinder frames, cylinder, cutting knife and cuts chopping block, and the cylinder frame is by default Position, which is respectively separated, to be fixed on cloth bracket, and the cylinder body of the cylinder is separately fixed on corresponding cylinder frame, described Cutting knife, which respectively corresponds, to be arranged on the piston rod of cylinder, it is described cut chopping block and respectively correspond cutting knife be fixed on cloth bracket On.

2. a main laminaria according to claim 1 shakeouts, section machine, it is characterised in that: the conveying transmission component packet A conveying drive sprocket, a conveying driven sprocket and a conveying driving chain are included, the conveying drive sprocket nonrotationally assembles On the output shaft of driving motor, the conveying driven sprocket is nonrotationally assembled on wherein one end of a conveying roller, described The revolution of conveying driving chain be engaged on conveying drive sprocket and conveying driven sprocket.

3. a main laminaria according to claim 1 shakeouts, section machine, it is characterised in that: described to shakeout transmission component equal Driving pulley is shakeout including one, one driven pulley and one is shakeout and shakeouts transmission belt, described to shakeout driving pulley difference nonrotational It is assemblied in the output shaft for shakeouing motor, the driven pulley that shakeouts nonrotationally is assemblied in described one end for shakeouing roller respectively On, it is described shakeout transmission belt revolution and be assemblied in shakeout driving pulley and shakeout between driven pulley.

4. a main laminaria according to claim 1 shakeouts, section machine, it is characterised in that: the first cloth transmission group Part includes a cloth drive sprocket, a cloth driven sprocket and cloth driving chain, and the cloth drive sprocket nonrotationally fills It fits on the output shaft of driving motor, the cloth driven sprocket nonrotationally assembles on wherein one end of a fabric roller, institute The cloth driving chain revolution stated is engaged on cloth drive sprocket and cloth driven sprocket.

5. a main laminaria according to claim 1 shakeouts, section machine, it is characterised in that: the second cloth transmission group Part includes several drive sprockets and drive chain, and the drive sprocket respectively corresponds the one end for being nonrotationally assemblied in fabric roller On, the drive chain revolution is engaged on adjacent drive sprocket.

6. a main laminaria according to claim 1 shakeouts, section machine, it is characterised in that: the spreading out device further includes One feeding pressure mechanism, the feeding pressure mechanism include a nip rolls and binder transmission component, and the nip rolls, which is rotatably supported in, to be faced It closely shakeouts on the conveying bracket of roller, the driving motor drives nip rolls rotation by binder transmission component.

7. a main laminaria according to claim 6 shakeouts, section machine, it is characterised in that: the binder transmission component packet Include a binder driving gear, a binder driven gear, a binder drive sprocket, a binder driven sprocket and a binder transmission chain Item, the binder driving gear are nonrotationally assemblied on the output shaft of driving motor, and the binder driven gear passes through branch Support axis is rotatably supported on conveying bracket, and the binder driven gear is meshed with binder driving gear；The binder Drive sprocket and binder driven gear are coaxially nonrotationally assemblied in support shaft, and the binder driven sprocket is nonrotationally assemblied in On one end of nip rolls, the binder driving chain revolution is engaged on binder drive sprocket and binder driven sprocket.

8. a main laminaria according to claim 1 or 6 shakeouts, section machine, it is characterised in that: it further includes stirring dress It sets, which includes a stirring shaft, a stirring motor and several tilting trestles, and the stirring shaft is turned by stirring seat It is dynamic to be supported on side of the cloth bracket far from the second cloth transmission component, the output shaft and stirring shaft of the stirring motor It is connected, one end of the tilting trestle, which is respectively separated, to be fixed in stirring shaft, tilting trestle one end far from stirring shaft point It She Zhi not be between fabric roller.

9. a main laminaria according to claim 8 shakeouts, section machine, it is characterised in that: the tilting trestle includes one Stirring bar and several retainer bars, one end of the stirring bar, which is respectively separated, to be fixedly connected in stirring shaft, the stirring Bar is separately positioned between adjacent fabric roller far from one end of stirring shaft；The retainer bar is respectively separated fixed stirring On bar, retainer bar is corresponded in the fabric roller and offers accommodation groove respectively, the retainer bar is correspondingly placed at fabric roller Accommodation groove in.

10. a main laminaria according to claim 1 shakeouts, section machine, it is characterised in that: in the periphery for shakeouing roller Face is equipped with hairbrush, which is arranged around roller axial screw is shakeout.