CN112176594A - Textile fabric sizing system - Google Patents

Abstract

The invention relates to the technical field of textile fabric processing equipment, in particular to a textile fabric sizing system which has the advantage of uniformly and quickly sizing textile fabrics and comprises a material receiving and discharging component, a vibration material feeding component, a vibration component, a stirring component, a processing component, a transmission component, a polishing component, a drying component, a tensioning component, a final guide frame and textile fabrics, the vibrations material loading subassembly is connected in receiving and releasing material subassembly, and the vibrations subassembly is provided with two, and two vibrations subassemblies are connected respectively in the front and back both sides of receiving and releasing material subassembly, and two vibrations subassemblies all with receive and release material subassembly friction transmission, and the stirring subassembly is provided with two, and two stirring subassemblies all rotate to be connected on receiving and releasing material subassembly, and two stirring subassemblies respectively with two vibrations subassembly meshing transmissions, processing subassembly fixed connection is in the left side of receiving and releasing material subassembly, and stoving subassembly fixed connection is in the upper end of receiving and releasing material subassembly.

Description

Textile fabric sizing system

Technical Field

The invention relates to the technical field of textile fabric processing equipment, in particular to a textile fabric sizing system.

Background

The invention with the publication number of CN110387648A discloses a fabric sizing device convenient for cleaning residual slurry, which comprises a slurry tank, wherein the section of the slurry tank is U-shaped, first traction rollers are symmetrically arranged at the bottom of an inner cavity of the slurry tank left and right, the fabric sizing device can bend the cloth at the corner through a set triangular plate, so that the slurry deposited on the upper side of the cloth falls down, the slurry deposition, the upper side of the cloth and the traction rollers are avoided, a material blowing mechanism is arranged on a wing plate of the triangular plate structure, the cleaning effect of the deposited slurry can be further enhanced, a driving force can be provided for a liquid spraying mechanism through the arranged piston mechanism, the deposited slurry at the corner of the slurry tank can be sucked away, a stirring mechanism is arranged, the deposited slurry is uniformly stirred, the device utilizes a group of motors to drive the stirring mechanism and the piston mechanism, and has high electric energy utilization rate, the structure design is simplified, and the innovation is achieved. The invention has the disadvantage that the textile fabric can not be evenly and rapidly sized.

Disclosure of Invention

The invention aims to provide a textile fabric sizing system which has the advantage of being capable of uniformly and quickly sizing textile fabrics.

The purpose of the invention is realized by the following technical scheme:

a textile fabric sizing system comprises a material receiving and discharging component, a vibration feeding component, two vibration components, a stirring component, a processing component, a transmission component, a polishing component, a drying component, a tensioning component, a finishing guide frame and textile fabric, wherein the vibration feeding component is connected in the material receiving and discharging component, the two vibration components are respectively connected to the front side and the rear side of the material receiving and discharging component, the two vibration components are in friction transmission with the material receiving and discharging component, the two stirring components are respectively in meshing transmission with the two vibration components, the processing component is fixedly connected to the left side of the material receiving and discharging component, the drying component is fixedly connected to the upper end of the material receiving and discharging component, the tensioning component and the finishing guide frame are respectively and fixedly connected to the right side of the processing component, and the two polishing components are arranged, two grinding assemblies are connected to the processing assembly.

Receive and release the material subassembly including the thick liquids case, the axis of rotation, the synchronizing wheel, including a motor, an end cap, a controller, and a cover, the bolt, sliding gear and receive and release the leading truck, two axes of rotation all rotate the rear side of connection at the thick liquids case, motor fixed connection is in the rear side of thick liquids case, axis of rotation fixed connection of lower extreme is on the output shaft of motor, two cloth axles are sliding connection respectively in two axes of rotation, two rotate the front side of connection at the thick liquids case that the cover all rotates, it has the bolt all to sheathe in through threaded connection for two rotations, two sliding gear sliding connection respectively are epaxial at two rotations cover and two cloth, equal fixedly connected with synchronizing wheel on axis of rotation of upper end and the sliding gear, receive and release.

Vibrations material loading subassembly includes vibrations board, vibrations pole, accessory plate and vibrations frame, vibrations board sliding connection in the thick liquids case, the equal fixedly connected with vibrations pole in both sides around the vibrations board, the equal fixedly connected with accessory plate in the left and right sides of vibrations board, vibrations frame fixed connection is on the vibrations board, fixedly connected with spring between vibrations board and the thick liquids case.

The vibrations subassembly is including vibrations mounting bracket, the vibrations pole, the vibrations spring, the vibrations axle, the vibrations band pulley, vibrations cam, turbine and friction area, sliding connection has the vibrations pole on the vibrations mounting bracket, be provided with the vibrations spring between vibrations mounting bracket and the vibrations pole, it is connected with the vibrations axle to rotate on the vibrations mounting bracket, the vibrations band pulley, the equal fixed connection of vibrations cam and turbine is epaxial at the vibrations, vibrations cam and vibrations pole contact, two vibrations mounting bracket fixed connection are both sides around the thick liquids case respectively, two vibrations axles rotate the both sides around the thick liquids case respectively, two vibrations band pulleys and two synchronizing wheels all through the friction area transmission.

The stirring assembly comprises a stirring shaft, a stirring worm and a stirring wheel, the stirring worm and the stirring wheel are fixedly connected onto the stirring shaft, the two stirring shafts are rotatably connected onto the slurry tank, and the two turbines are in meshing transmission with the two stirring worms respectively.

The processing subassembly is including processing frame, blank wheel, the axle of polishing, regulating block and processing gear, and two processing frame difference fixed connection are both sides around the thick liquids case, and two blank wheels and two axles of polishing all rotate to be connected on two processing frames, two epaxial equal fixedly connected with regulating blocks of polishing, two blank wheels and two equal fixedly connected with processing gears in the left end of the axle of polishing, adjacent processing gear engagement transmission, ending leading truck fixed connection is on two processing frames.

The transmission assembly comprises a transmission gear shaft, transmission teeth and a toothed belt, the transmission gear shaft is fixedly connected to the grinding shaft on the right side, the transmission teeth are fixedly connected to the rotating shaft at the upper end, and the transmission gear shaft and the transmission teeth are driven through the toothed belt.

The polishing assembly comprises a polishing plate, a sliding block and adjusting bolts, the sliding block is fixedly connected to the polishing plate, the two adjusting bolts are connected to the sliding block through a field, and the two sliding blocks are respectively connected to the two adjusting blocks in a sliding mode.

The drying assembly comprises a drying frame, a high-temperature furnace, a communicating pipe and a drying rotating pipe, the drying frame is fixedly connected to a slurry box, the high-temperature furnace is fixedly connected to the drying frame, two communicating pipes are fixedly connected to the high-temperature furnace, the two drying rotating pipes are rotatably connected to the drying frame, the two communicating pipes are communicated with the two drying rotating pipes, and the two communicating pipes are rotatably connected to the two drying rotating pipes.

The tensioning assembly comprises tensioning frames, tensioning slide bars, tensioning springs and tensioning shafts, the two tensioning frames are fixedly connected to the two processing frames respectively, the tensioning slide bars are connected to the two tensioning frames in a sliding mode, the tensioning springs are arranged between the two tensioning slide bars and the two tensioning frames, and the tensioning shafts are connected to the two tensioning slide bars in a rotating mode.

The textile fabric sizing system has the beneficial effects that: the textile fabric sizing system can realize automatic cloth releasing and cloth winding through the cloth releasing and receiving component, can also drive the vibration component through the cloth releasing and receiving component, drives the vibration loading component to lift through the two vibration components, the lifting vibration of the vibration loading component can mix the sizing agent up and down, prevent the sizing agent from precipitating and layering, influence the sizing effect of the cloth, can also drive the textile fabric to vibrate through the vibration loading component, realize the vibration sizing of the textile fabric, achieve better sizing effect, and is more uniform, can also drive the two stirring components to rotate through the two vibration components, stir and mix the sizing agent through the rotation of the two stirring components, enable the sizing agent to be more uniform, realize the sizing of the textile fabric to be more uniform, can also drive the transmission component through the cloth releasing and receiving component, and drive the processing component through the transmission component, carry out excision and floating of thick liquids to the textile fabric who has starched through the processing subassembly for textile fabric reaches better starching effect, can also polish to the textile fabric who has dried through the processing subassembly, and convenient subsequent painted processing can also be dried to the textile fabric after the sizing through the stoving subassembly, guarantees the smoothness on textile fabric's surface, thereby realizes the even quick sizing of textile fabric.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic view of the overall construction of a textile fabric sizing system of the present invention;

FIG. 2 is a cross-sectional view of a textile fabric sizing system of the present invention;

FIG. 3 is a schematic structural view of the material receiving and discharging assembly of the present invention;

FIG. 4 is a schematic structural view of the vibratory loading assembly of the present invention;

FIG. 5 is a schematic structural view of the shock assembly of the present invention;

FIG. 6 is a schematic structural view of the stirring assembly of the present invention;

FIG. 7 is a schematic structural view of a processing assembly of the present invention;

FIG. 8 is a schematic structural view of the transmission assembly of the present invention;

FIG. 9 is a schematic illustration of the construction of the sanding assembly of the present invention;

FIG. 10 is a schematic view of the drying assembly of the present invention;

FIG. 11 is a schematic view of the tensioning assembly of the present invention;

fig. 12 is a schematic structural view of the ending guide frame of the invention.

In the figure: a material receiving and discharging component 1; a slurry tank 101; a rotating shaft 102; a synchronizing wheel 103; a motor 104; a cloth shaft 105; the rotating sleeve 106; a bolt 107; a sliding gear 108; a retraction guide frame 109; vibrating the feeding assembly 2; a vibration plate 201; a vibration rod 202; an auxiliary plate 203; a vibration frame 204; a vibration assembly 3; the mounting bracket 301 is vibrated; a vibration rod 302; a vibrating spring 303; a vibration shaft 304; a vibration pulley 305; a vibration cam 306; a turbine 307; a friction belt 308; a stirring component 4; a stirring shaft 401; a stirring worm 402; a stirring wheel 403; a processing assembly 5; a processing frame 501; a chopping wheel 502; grinding the shaft 503; an adjustment block 504; machining a gear 505; a transmission assembly 6; a drive gear shaft 601; a gear tooth 602; a toothed belt 603; a grinding component 7; polishing the plate 701; a slider 702; an adjusting bolt 703; a drying assembly 8; a drying rack 801; a high temperature furnace 802; a communicating pipe 803; drying the rotary pipe 804; a tensioning assembly 9; a tensioning frame 901; tensioning the slide bar 902; a tension spring 903; a tensioning shaft 904; a closing guide frame 10; textile fabric 11.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-12, a textile fabric sizing system comprises a material receiving and discharging component 1, a vibration material feeding component 2, two vibration components 3, two stirring components 4, a processing component 5, a transmission component 6, a polishing component 7, a drying component 8, a tensioning component 9, a final guide frame 10 and textile fabric 11, wherein the vibration material feeding component 2 is connected in the material receiving and discharging component 1, the two vibration components 3 are respectively connected at the front side and the rear side of the material receiving and discharging component 1, the two vibration components 3 are in friction transmission with the material receiving and discharging component 1, the two stirring components 4 are respectively connected on the material receiving and discharging component 1, the two stirring components 4 are respectively in meshing transmission with the two vibration components 3, the processing component 5 is fixedly connected at the left side of the material receiving and discharging component 1, the drying component 8 is fixedly connected at the upper end of the material receiving and discharging component 1, the tensioning assembly 9 and the ending guide frame 10 are fixedly connected to the right side of the machining assembly 5, the two polishing assemblies 7 are arranged, and the two polishing assemblies 7 are connected to the machining assembly 5.

Can realize automatic cloth discharging and cloth winding through the cloth receiving and discharging component 1, can also drive the vibration component 3 through the cloth receiving and discharging component 1, can drive the vibration feeding component 2 to lift through the two vibration components 3, can mix slurry up and down through the lifting vibration of the vibration feeding component 2, can prevent the slurry from precipitating and layering, and can influence the sizing effect of the cloth, can also drive the textile cloth 11 to vibrate through the vibration feeding component 2, and can realize the vibration sizing of the textile cloth 11, thereby achieving better sizing effect, more uniform, can also drive the two stirring components 4 to rotate through the two vibration components 3, can realize the stirring and mixing of the slurry through the rotation of the two stirring components 4, so that the slurry is more uniform, can also drive the transmission component 6 through the cloth receiving and discharging component 1, the transmission component 6 drives the processing component 5, can cut and level the slurry on the sized textile cloth 11 through the processing component 5, make textile fabric 11 reach better starching effect, can also polish the textile fabric 11 of drying through processing subassembly 5, convenient subsequent painted processing can also be dried textile fabric 11 after sizing through drying subassembly 8, guarantees the smoothness on textile fabric 11's surface.

The second embodiment is as follows:

referring to fig. 1-12, the material receiving and discharging assembly 1 includes a slurry tank 101, a rotating shaft 102, a synchronizing wheel 103, and a motor 104, cloth axle 105, rotate cover 106, bolt 107, sliding gear 108 and receive and release leading truck 109, two axis of rotation 102 all rotate the rear side of connection at thick liquids case 101, motor 104 fixed connection is in the rear side of thick liquids case 101, axis of rotation 102 fixed connection of lower extreme is on the output shaft of motor 104, two cloth axles 105 sliding connection respectively are on two axis of rotation 102, two rotate the front side of connection at thick liquids case 101 that the cover 106 all rotates, all there is bolt 107 through threaded connection on two rotate the cover 106, two sliding gear 108 sliding connection respectively are on two rotate cover 106 and two cloth axles 105, equal fixedly connected with synchronizing wheel 103 on axis of rotation 102 of upper end and the sliding gear 108, receive and release leading truck 109 fixed connection in thick liquids case 101.

The motor 104 is started, the motor 104 drives the rotating shaft 102 fixedly connected with the motor 104 to rotate, the rotating shaft 102 at the lower end drives the cloth shaft 105 at the lower end to rotate, the cloth shaft 105 drives the textile cloth 11 to rotate, the cloth shaft 105 at the lower end drives the sliding gear 108 at the lower end to rotate, the sliding gear 108 at the lower end is meshed with and drives the sliding gear 108 at the upper end to rotate, the sliding gear 108 at the upper end drives the cloth shaft 105 at the upper end to rotate, automatic material collection of the cloth is realized, the cloth shaft 105 at the upper end drives the rotating shaft 102 at the upper end to rotate, the rotating shaft 102 at the upper end and the sliding gear 108 drive the two synchronizing wheels 103.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 12, where the vibration feeding assembly 2 includes a vibration plate 201, a vibration rod 202, an auxiliary plate 203 and a vibration frame 204, the vibration plate 201 is slidably connected in the slurry tank 101, the vibration rod 202 is fixedly connected to both the front and rear sides of the vibration plate 201, the auxiliary plate 203 is fixedly connected to both the left and right sides of the vibration plate 201, the vibration frame 204 is fixedly connected to the vibration plate 201, and a spring is fixedly connected between the vibration plate 201 and the slurry tank 101.

Two vibrations subassembly 3 can promote two vibrations pole 202 and go up and down, two vibrations pole 202 drive vibrations board 201 vibrations from top to bottom, realize the mixture of two parts about the thick liquids in thick liquids case 101, prevent that thick liquids from appearing layering from top to bottom in thick liquids case 101, when two vibrations pole 302 descend, vibrations board 201 lower extreme is driven vibrations board 201 by tensile spring and resets, realize vibrations board 201 vibrations from top to bottom, vibrations board 201 drives vibrations frame 204 vibrations from top to bottom, vibrations frame 204 drives textile fabric 11 and shakes, textile fabric 11's vibrations are favorable to the even of starching, make textile fabric 11 reach better starching effect.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 12, the vibration assembly 3 includes a vibration mounting rack 301, a vibration rod 302, a vibration spring 303, a vibration shaft 304, a vibration belt wheel 305, a vibration cam 306, a turbine 307 and a friction belt 308, the vibration rod 302 is slidably connected to the vibration mounting rack 301, the vibration spring 303 is disposed between the vibration mounting rack 301 and the vibration rod 302, the vibration shaft 304 is rotatably connected to the vibration mounting rack 301, the vibration belt wheel 305, the vibration cam 306 and the turbine 307 are fixedly connected to the vibration shaft 304, the vibration cam 306 contacts the vibration rod 302, the two vibration mounting racks 301 are respectively fixedly connected to the front and rear sides of the slurry tank 101, the two vibration shafts 304 are respectively rotatably connected to the front and rear sides of the slurry tank 101, and the two vibration belt wheels 305 and the two synchronizing wheels 103 are both driven by the friction belt 308.

The two synchronizing wheels 103 drive the two vibration pulleys 305 to rotate through the two friction belts 308, the two vibration pulleys 305 drive the two vibration shafts 304 to rotate, and the two vibration shafts 304 drive the two vibration cams 306 and the two turbines 307 to rotate.

The fifth concrete implementation mode:

in the following, referring to fig. 1 to 12, the stirring assembly 4 includes a stirring shaft 401, a stirring worm 402 and a stirring wheel 403, the stirring worm 402 and the stirring wheel 403 are both fixedly connected to the stirring shaft 401, both stirring shafts 401 are both rotatably connected to the slurry tank 101, and the two worm wheels 307 are respectively in meshing transmission with the two stirring worms 402.

Two turbines 307 mesh and drive two stirring worms 402 to rotate, two stirring worms 402 drive two stirring shafts 401 to rotate, two stirring shafts 401 drive stirring wheel 403 to rotate, two stirring wheel 403 stir the thick liquids in the thick liquids box 101, ensure that the thick liquids can not precipitate or stratify in use, ensure that the stable shape of thick liquids is favorable to the starching effect of the textile fabric 11.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 12, the processing assembly 5 includes two processing frames 501, two material cutting wheels 502, two grinding shafts 503, a regulating block 504 and a processing gear 505, the two processing frames 501 are respectively and fixedly connected to the front and rear sides of the slurry tank 101, the two material cutting wheels 502 and the two grinding shafts 503 are both rotatably connected to the two processing frames 501, the two grinding shafts 503 are both fixedly connected to the regulating block 504, the left ends of the two material cutting wheels 502 and the two grinding shafts 503 are both fixedly connected to the processing gear 505, the adjacent processing gears 505 are in meshing transmission, and the ending guide frame 10 is fixedly connected to the two processing frames 501.

The transmission gear shaft 601 drives the grinding shaft 503 on the right side to rotate, the grinding shaft 503 on the right side drives the processing gear 505 fixedly connected with the grinding shaft to rotate, the plurality of processing gears 505 are in meshed transmission with each other, the plurality of processing gears 505 drive the two cutting wheels 502 and the other grinding shaft 503 to rotate, the two cutting wheels 502 carry out leveling and cutting of slurry on two sides of the sized textile fabric 11, and the slurry on two sides of the textile fabric 11 is more uniform.

The seventh embodiment:

referring to fig. 1 to 12, the driving assembly 6 includes a driving gear shaft 601, a driving gear 602, and a toothed belt 603, the driving gear shaft 601 is fixedly connected to the right grinding shaft 503, the driving gear 602 is fixedly connected to the upper rotating shaft 102, and the driving gear shaft 601 and the driving gear 602 are driven by the toothed belt 603.

The rear synchronizing wheel 103 drives the transmission gear 602 to rotate, and the transmission gear 602 drives the transmission gear shaft 601 to rotate through the toothed belt 603.

The specific implementation mode is eight:

referring to fig. 1-12, the polishing assembly 7 includes a polishing plate 701, a sliding block 702, and an adjusting bolt 703, the sliding block 702 is fixedly connected to the polishing plate 701, the two adjusting bolts 703 are connected to the sliding block 702 through a coupling, and the two sliding blocks 702 are respectively slidably connected to the two adjusting blocks 504.

Two axles 503 of polishing drive two regulating blocks 504 and rotate, two regulating blocks 504 drive two sliding blocks 702 and rotate, two sliding blocks 702 drive two polishing boards 701 and rotate, two polishing boards 701 polish textile fabric 11 after drying, convenient subsequent processing of coloring, can also be through rotating a plurality of adjusting bolts 703, change the contact ratio of two sliding blocks 702 and two regulating blocks 504, thereby change two intervals of polishing boards 701, can realize polishing textile fabric 11 to different thickness.

The specific implementation method nine:

the following explains this embodiment with reference to fig. 1 to 12, the drying assembly 8 includes a drying rack 801, a high temperature furnace 802, communicating pipes 803 and a drying rotary pipe 804, the drying rack 801 is fixedly connected to the slurry tank 101, the high temperature furnace 802 is fixedly connected to the drying rack 801, two communicating pipes 803 are both fixedly connected to the high temperature furnace 802, two drying rotary pipes 804 are both rotatably connected to the drying rack 801, two communicating pipes 803 are both communicated with two drying rotary pipes 804, and two communicating pipes 803 are both rotatably connected to two drying rotary pipes 804.

Textile fabric 11 that has been processed through two blank wheels 502 enters into and dries on two stoving change pipes 804, the high-temperature steam of high-temperature furnace 802 enters into the communicating pipe 803 of front end, reentrant two stoving change pipes 804, guarantee the temperature of two stoving change pipes 804, then high-temperature steam gets back to high-temperature furnace 802 from the communicating pipe 803 of rear end again, textile fabric 11 through drying enters into to the tail leading truck 10, guarantee textile fabric 11 vertical, guarantee that two sanding plates 701 are to the even that the thick liquids of textile fabric 11 both sides were polished.

The detailed implementation mode is ten:

the embodiment is described below with reference to fig. 1 to 12, where the tensioning assembly 9 includes two tensioning frames 901, two tensioning slide bars 902, two tensioning springs 903, and a tensioning shaft 904, the two tensioning frames 901 are respectively and fixedly connected to the two processing frames 501, the two tensioning frames 901 are both slidably connected to the tensioning slide bars 902, the tensioning springs 903 are respectively disposed between the two tensioning slide bars 902 and the two tensioning frames 901, and the tensioning shaft 904 is rotatably connected to the two tensioning slide bars 902.

The polished textile fabric 11 strides over from the upper end of the tension shaft 904, the two tension springs 903 push the two tension slide bars 902 to ascend, the two tension slide bars 902 drive the tension shaft 904 to ascend to carry out the long-feeding on the textile fabric 11, so that the excessive textile fabric 11 is prevented from being accumulated, and the textile fabric 11 is enabled to be wrinkled when the fabric shaft 105 at the upper end receives the material, and the attractiveness of the textile fabric 11 is affected.

The invention relates to a textile fabric sizing system, which has the use principle that: the textile cloth 11 on the cloth shaft 105 at the lower end is arranged as shown in fig. 2, the textile cloth 11 on the cloth shaft 105 at the lower end is firstly guided by the vibration frame 204 and soaked in the slurry tank 101 for sizing, the motor 104 is started, the motor 104 drives the rotating shaft 102 fixedly connected with the motor to rotate, the rotating shaft 102 at the lower end drives the cloth shaft 105 at the lower end to rotate, so as to realize the discharging of the textile cloth 11, the cloth shaft 105 at the lower end drives the sliding gear 108 at the lower end to rotate, the sliding gear 108 at the lower end is meshed with the sliding gear 108 at the upper end to drive the sliding gear 108 at the upper end to rotate, the sliding gear 108 at the upper end drives the cloth shaft 105 at the upper end to rotate, the rotating shaft 102 and the sliding gear 108 at the upper end drive the two synchronous wheels 103 to rotate, the two synchronous wheels 103 drive the two vibration belt wheels 305 to rotate through the two friction belts 308, the two vibrating shafts 304 drive the two vibrating cams 306 and the two turbines 307 to rotate, the two turbines 307 are meshed to drive the two stirring worms 402 to rotate, the two stirring worms 402 drive the two stirring shafts 401 to rotate, the two stirring shafts 401 drive the stirring wheels 403 to rotate, the two stirring wheels 403 stir the slurry in the slurry tank 101, so that the slurry cannot be precipitated or layered in use, the stable shape of the slurry is ensured to be beneficial to the sizing effect of the textile fabric 11, the rotation of the two vibrating cams 306 can drive the two vibrating rods 302 to vibrate up and down, in the process of lifting the two vibrating rods 302, the two vibrating springs 303 are stretched, when the two vibrating cams 306 do not drive the two vibrating rods 302 to lift up, the two stretched vibrating springs 303 drive the two vibrating rods 302 to fall down, the up and down vibration of the two vibrating rods 302 can drive the two vibrating rods 202 to lift up and down, the two vibrating rods 202 drive the vibrating plate 201 to vibrate, the mixing of the upper and lower parts of the slurry in the slurry tank 101 is realized, the slurry in the slurry tank 101 is prevented from being layered up and down, when the two vibrating rods 302 descend, the stretched springs at the lower end of the vibrating plate 201 drive the vibrating plate 201 to reset, the vibrating plate 201 drives the vibrating frame 204 to vibrate up and down, the vibrating frame 204 drives the textile fabric 11 to vibrate at high frequency, the vibration of the textile fabric 11 is beneficial to the uniformity of sizing, so that the textile fabric 11 achieves better sizing effect, the synchronizing wheel 103 at the rear side drives the transmission gear 602 to rotate, the transmission gear 602 drives the transmission gear shaft 601 to rotate through the toothed belt 603, the transmission gear shaft 601 drives the grinding shaft 503 at the right side to rotate, the grinding shaft 503 at the right side drives the processing gear 505 fixedly connected with the grinding shaft 503 to rotate, the plurality of processing gears 505 are in mutual meshing transmission between adjacent processing gears 505, the plurality of processing gears 505 drive the two cutting wheels 502 and the other grinding shaft 503 to rotate, the two material cutting wheels 502 carry out the leveling and cutting of the sizing on the two sides of the sized textile fabric 11, the redundant sizing on the two sides of the textile fabric 11 is removed, the textile fabric 11 processed by the two material cutting wheels 502 enters the two drying rotating pipes 804 for drying, the high-temperature steam of the high-temperature furnace 802 enters the communicating pipe 803 at the front end and then enters the two drying rotating pipes 804, the temperature of the two drying rotating pipes 804 is ensured, the high-temperature steam returns to the high-temperature furnace 802 from the communicating pipe 803 at the rear end, the dried textile fabric 11 enters the tailing guide frame 10, the two polishing shafts 503 drive the two adjusting blocks 504 to rotate, the two adjusting blocks 504 drive the two sliding blocks 702 to rotate, the two polishing plates 702 drive the two polishing plates 701 to rotate, the two polishing plates 701 polish the dried textile fabric 11, the subsequent coloring processing is convenient, and the subsequent coloring processing can be facilitated by rotating the plurality of adjusting bolts 703, the contact ratio of two sliding blocks 702 and two regulating blocks 504 is changed, thereby change two interval of polishing board 701, can realize polishing the textile fabric 11 of different thickness, textile fabric 11 after polishing strides from the upper end of tight axle 904 that rises, two tight springs 903 that rise promote two tight slide bars 902 that rise, two tight slide bars 902 that rise drive tight axle 904 that rises and carry out the run-in to textile fabric 11, prevent too much textile fabric 11 from piling up, make textile fabric 11 fold when causing the cloth axle 105 of upper end to receive the material, influence textile fabric 11's pleasing to the eye.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The utility model provides a textile fabric starching system, includes receipts blowing subassembly (1), vibrations material loading subassembly (2), vibrations subassembly (3), stirring subassembly (4), processing subassembly (5), drive assembly (6), the subassembly of polishing (7), stoving subassembly (8), tight subassembly (9), ending leading truck (10) and textile material (11), its characterized in that: vibrations material loading subassembly (2) are connected in receiving and releasing material subassembly (1), vibrations subassembly (3) are provided with two, two vibrations subassemblies (3) are connected respectively in the front and back both sides of receiving and releasing material subassembly (1), two vibrations subassemblies (3) all with receive and release material subassembly (1) friction transmission, stirring subassembly (4) are provided with two, two stirring subassemblies (4) are all rotated and are connected on receiving and releasing material subassembly (1), two stirring subassemblies (4) mesh transmission with two vibrations subassemblies (3) respectively, processing subassembly (5) fixed connection is in the left side of receiving and releasing material subassembly (1), drying subassembly (8) fixed connection is in the upper end of receiving and releasing material subassembly (1), the equal fixed connection in the right side of processing subassembly (5) of tight subassembly (9) and ending leading truck (10) that rises, the subassembly (7) of polishing is provided with two, two subassemblies (7) of polishing are all connected on processing subassembly (5).

2. A textile fabric sizing system according to claim 1, wherein: the material receiving and discharging assembly (1) comprises a slurry box (101), rotating shafts (102), synchronizing wheels (103), a motor (104), material distributing shafts (105), rotating sleeves (106), bolts (107), sliding gears (108) and a receiving and discharging guide frame (109), wherein the two rotating shafts (102) are both rotatably connected to the rear side of the slurry box (101), the motor (104) is fixedly connected to the rear side of the slurry box (101), the rotating shaft (102) at the lower end is fixedly connected to an output shaft of the motor (104), the two material distributing shafts (105) are respectively and slidably connected to the two rotating shafts (102), the two rotating sleeves (106) are both rotatably connected to the front side of the slurry box (101), the two rotating sleeves (106) are both connected with the bolts (107) through threads, the two sliding gears (108) are respectively and slidably connected to the two rotating sleeves (106) and the two material distributing shafts (105), the synchronizing wheels (103) are both fixedly connected to the rotating shaft (102) and the sliding gear (108) at the upper end, the collecting and releasing guide frame (109) is fixedly connected in the slurry box (101).

3. A textile fabric sizing system according to claim 2, wherein: vibrations material loading subassembly (2) are including vibrations board (201), vibrations pole (202), accessory plate (203) and vibrations frame (204), vibrations board (201) sliding connection in thick liquids case (101), the equal fixedly connected with vibrations pole (202) in both sides around vibrations board (201), the equal fixedly connected with accessory plate (203) in the left and right sides of vibrations board (201), vibrations frame (204) fixed connection is on vibrations board (201), fixedly connected with spring between vibrations board (201) and thick liquids case (101).

4. A textile fabric sizing system according to claim 3, wherein: the vibration component (3) comprises a vibration mounting rack (301), a vibration rod (302), a vibration spring (303), a vibration shaft (304), a vibration belt wheel (305), a vibration cam (306), a turbine (307) and a friction belt (308), vibrations mounting bracket (301) go up sliding connection and are had vibrations pole (302), be provided with between vibrations mounting bracket (301) and vibrations pole (302) vibrations spring (303), it is connected with vibrations axle (304) to rotate on vibrations mounting bracket (301), vibrations band pulley (305), the equal fixed connection of vibrations cam (306) and turbine (307) is on vibrations axle (304), vibrations cam (306) and vibrations pole (302) contact, two vibrations mounting bracket (301) fixed connection are both sides around thick liquids case (101) respectively, two vibrations axle (304) rotate respectively and connect both sides around thick liquids case (101), two vibrations band pulley (305) and two synchronizing wheel (103) are all through friction belt (308) transmission.

5. A textile fabric sizing system according to claim 4, wherein: stirring subassembly (4) are including (mixing) shaft (401), stirring worm (402) and stirring wheel (403), and stirring worm (402) and stirring wheel (403) all fixed connection are on (mixing) shaft (401), and two (mixing) shafts (401) all rotate to be connected on thick liquids case (101), and two turbines (307) mesh transmission with two stirring worm (402) respectively.

6. A textile fabric sizing system according to claim 5, wherein: processing subassembly (5) is including processing frame (501), blank wheel (502), the axle (503) of polishing, regulating block (504) and processing gear (505), two processing frame (501) are fixed connection both sides around thick liquids case (101) respectively, two blank wheels (502) and two equal rotations of axle (503) of polishing are connected on two processing frame (501), equal fixedly connected with regulating block (504) on two axle (503) of polishing, two equal fixedly connected with processing gear (505) of the left end of two blank wheels (502) and two axle (503) of polishing, adjacent processing gear (505) meshing transmission, ending leading truck (10) fixed connection is on two processing frame (501).

7. A textile fabric sizing system according to claim 6, wherein: the transmission assembly (6) comprises a transmission gear shaft (601), transmission teeth (602) and a toothed belt (603), the transmission gear shaft (601) is fixedly connected to the grinding shaft (503) on the right side, the transmission teeth (602) are fixedly connected to the rotating shaft (102) at the upper end, and the transmission gear shaft (601) and the transmission teeth (602) are transmitted through the toothed belt (603).

8. A textile fabric sizing system according to claim 7, wherein: the polishing assembly (7) comprises a polishing plate (701), a sliding block (702) and an adjusting bolt (703), the sliding block (702) is fixedly connected onto the polishing plate (701), the two adjusting bolts (703) are connected onto the sliding block (702) through a field, and the two sliding blocks (702) are respectively connected onto the two adjusting blocks (504) in a sliding mode.

9. A textile fabric sizing system according to claim 8, wherein: drying assembly (8) are including stoving frame (801), high temperature furnace (802), communicating pipe (803) and stoving commentaries on classics pipe (804), stoving frame (801) fixed connection is on thick liquids case (101), high temperature furnace (802) fixed connection is on stoving frame (801), two equal fixed connection of communicating pipe (803) are on high temperature furnace (802), two stoving commentaries on classics pipe (804) are all rotated and are connected on stoving frame (801), two communicating pipe (803) are all with two stoving commentaries on classics pipe (804) intercommunication, two communicating pipe (803) are all rotated and are connected on two stoving commentaries on classics pipe (804).

10. A textile fabric sizing system according to claim 8, wherein: the tensioning assembly (9) comprises tensioning frames (901), tensioning slide bars (902), tensioning springs (903) and tensioning shafts (904), the two tensioning frames (901) are respectively and fixedly connected to the two processing frames (501), the tensioning slide bars (902) are connected to the two tensioning frames (901) in a sliding mode, the tensioning springs (903) are arranged between the two tensioning slide bars (902) and the two tensioning frames (901), and the tensioning shafts (904) are rotatably connected to the two tensioning slide bars (902).

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