CN110485084B

CN110485084B - Textile sizing device

Info

Publication number: CN110485084B
Application number: CN201910685699.2A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Foshan Zhiyousheng Printing Co.,Ltd.
Priority date: 2018-12-03
Filing date: 2018-12-03
Publication date: 2021-09-28
Anticipated expiration: 2038-12-03
Also published as: CN109234944A; CN110485084A; CN109234944B; CN110512375B; CN110512375A

Abstract

The invention relates to the technical field of textile sizing equipment, in particular to a textile sizing device. The sizing machine comprises a sizing roller, a sizing stirring box, a vertical frame plate, a sponge block, a sizing roller and a sizing stirring box, wherein the sizing stirring box is fixedly connected to the right end of a support, the vertical frame plate is fixedly connected to the left end of the support, two ends of four guide pipes are respectively and fixedly connected to the vertical frame plate and the sizing stirring box, the four guide pipes are communicated with the lower end inside the sizing stirring box, the sponge block is fixedly connected to the vertical frame plate, the left ends of the four guide pipes are positioned in the sponge block, the sizing roller is rotatably connected to the left end of the support, and the left end of the sponge block is attached to the sizing roller; and the stirring assembly can uniformly stir the slurry, so that the quality of a subsequent process finished product is better.

Description

Textile sizing device

Technical Field

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

Background

The prior patent No. CN201020140722.4 spraying type textile sizing machine is equipment for carrying out fine sizing pretreatment on small-batch textile fabrics. The fabric unwinding device comprises a fabric unwinding module, a spraying module, a leveling device, a drying module and a winding module. And after the fabric is treated by the spray sizing and leveling module, the fabric enters the active conveying and drying module, and after the fabric is dried, the fabric is collected by the rolling module. Therefore, the equipment has the advantages of simple structure, reasonable and novel design, simple operation, convenient maintenance, long service life, low energy consumption, high reliability, good sizing quality and the like. The use amount of sizing agent for sizing textile can be obviously reduced, the drying time is greatly shortened, the energy consumption during drying is reduced, and the preshrinking process is simultaneously completed for the textile sized by the equipment, so that the textile is not distorted, wrinkled, inclined and shrunk. The sizing machine is used for pretreatment of small-batch textile fabrics, and is particularly suitable for occasions such as digital printing and the like which need to directly spray and paint fine patterns on the textile surfaces. The utility model discloses a starching is carried out to the surface fabric through the starching system that sprays, the spraying subassembly is constituteed, because spray or the inhomogeneity of spraying, cause the starching unevenly very easily, influence the fabrics quality, this kind of mode still causes the waste of thick liquid very easily moreover, is unfavorable for practicing thrift the cost.

Disclosure of Invention

The invention aims to provide a textile sizing device, which has the beneficial effects that the textile sizing device can provide slurry to a sizing roller through a material guide pipe and a sponge block, the sizing roller and a rotary stroke can absorb sufficient slurry and uniformly coat the slurry on a fabric to finish sizing, and the uniform sizing is beneficial to improving the quality of the fabric, the slurry loss is not easily caused, and the textile fabric quality is favorably improved; and the sizing roller can drive the stirring assembly to uniformly stir the sizing agent in the sizing process, so that the quality of a subsequent process finished product is better.

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

a textile sizing device comprises a support, a slurry stirring box, material guide pipes, a vertical frame plate I, a sponge block, a sizing roller, a driving component, a stirring component and a linkage wheel component, wherein the slurry stirring box is fixedly connected at the right end of the support, the vertical frame plate I is fixedly connected at the left end of the support, two ends of four material guide pipes are respectively and fixedly connected to the vertical frame plate I and the slurry stirring box, the four material guide pipes are communicated with the lower end inside the slurry stirring box, the sponge block is fixedly connected on the vertical frame plate I, the left ends of the four material guide pipes are positioned in the sponge block, the sizing roller is rotatably connected at the left end of the support, the left end of the sponge block is attached to the sizing roller, the driving component is fixedly connected on the slurry stirring box, the driving component is connected with the sizing roller through belt transmission, the stirring component is fixedly connected on the slurry stirring box, the stirring component is connected with the driving component through meshing transmission, the lower extreme sliding connection of stirring subassembly is in the thick liquids agitator tank, and the middle-end rotation of linkage wheel subassembly is connected on the stirring subassembly, and the one end of linkage wheel subassembly is connected through belt drive with the stirring subassembly, and the other end of linkage wheel subassembly is connected with the meshing transmission of thick liquids agitator tank.

The bracket comprises a side frame plate, a supporting plate and a door-shaped sliding seat; the vertical frame plate I is fixedly connected between the two side frame plates, the right ends of the two side frame plates are respectively and fixedly connected with a support plate, and the outer end surfaces of the two support plates are respectively and fixedly connected with a door-shaped sliding seat; four circular through holes are formed in the vertical frame plate I, and the left ends of the four material guide pipes are fixedly connected into the four circular through holes respectively.

The slurry stirring box comprises a stirring box body, a rectangular sliding rail and a rack; stirring box body fixed connection is in two backup pads, and two rectangle slide rail symmetry fixed connection are at the inboard both ends of stirring box body, and rack fixed connection is in the upper end of stirring box body, and the right-hand member fixed connection of four passage is at the lower extreme of intercommunication at stirring box body left end face.

The sizing roller comprises a roller rotating shaft, a roller body and a driving belt wheel; the both ends of roller pivot are rotated through the rolling bearing respectively and are connected the left end at two limit frame boards, and the equal fixed connection of roller body and driving pulley is in the roller pivot, and the roller body is located between two limit frame boards, and the left end of sponge piece is laminated with the outer terminal surface of roller body, and driving pulley is located the outer end of two limit frame boards, and driving pulley passes through belt drive with drive assembly and is connected.

The driving assembly comprises a driven belt wheel, a belt wheel rotating shaft, an incomplete gear, a bilateral rack, a rectangular through groove, a rectangular block, a spring sleeve rod, a spring seat and an extension spring; driven pulleys and driving pulley pass through the belt drive and are connected, driven pulleys and the equal fixed connection of incomplete gear are in the band pulley pivot, the band pulley pivot is rotated through the tape seat bearing and is connected on the preceding terminal surface of agitator tank body, the tooth meshing transmission of incomplete gear and bilateral rack lower extreme is connected, be provided with the rectangle logical groove on the bilateral rack, rectangular block sliding connection is in the logical inslot of rectangle, rectangular block fixed connection is on the preceding terminal surface of agitator tank body, sliding connection is at both ends about bilateral rack respectively at the both ends of spring loop pole, spring loop pole sliding connection is in the rectangular block, the outer end at spring loop pole both ends is fixed connection fender circle and spring holder respectively, spring holder fixed connection is on the preceding terminal surface of agitator tank body, the extension spring suit is on the spring loop pole, extension spring's both ends are fixed connection respectively on bilateral rack and spring holder.

The stirring assembly comprises a U-shaped sliding seat, a stirring rotating shaft, a driving belt wheel I, a stirring body, a vertical frame plate II, a door-shaped seat, a shaft frame plate, a guide rod seat, an external threaded rod, a screw rod seat and a driving gear; the driving belt wheel I is fixedly connected to the middle end of the stirring rotating shaft, the driving belt wheel I is in transmission connection with the linkage wheel assembly through a belt, two ends of the stirring rotating shaft are respectively and fixedly connected with a stirring body, the outer ends of two ends of the stirring rotating shaft are respectively and rotatably connected onto two U-shaped sliding seats through belt seat bearings, the two U-shaped sliding seats are respectively and slidably connected onto two rectangular sliding rails, and the lower ends of two vertical frame plates II are respectively in clearance fit with two ends of the stirring rotating shaft; the vertical frame plate II is positioned between the U-shaped sliding seat and the stirring body; the both ends of door style of calligraphy seat are fixed connection respectively in the upper end of two perpendicular frame boards II, pedestal board fixed connection is in the middle-end of door style of calligraphy seat, guide arm sliding connection is at the right-hand member of door style of calligraphy seat, guide rod seat of both ends difference fixed connection of guide arm, both ends around two guide rod seat difference fixed connection agitator tank body top surface, the left end of door style of calligraphy seat passes through threaded connection on the external screw thread pole, the both ends of external screw thread pole rotate through the rolling bearing respectively and connect on two screw rod seats, two screw rod seats are fixed connection respectively at both ends around agitator tank body top surface, drive gear fixed connection is at the front end of external screw thread pole, drive gear is located the outer end of agitator tank body, drive gear is connected with the tooth meshing transmission of bilateral rack upper end.

The linkage wheel assembly comprises a gear rotating shaft, a driving belt wheel II and a transmission gear; the middle end of the gear rotating shaft is rotatably connected to the shaft frame plate through a belt seat bearing, the driving belt wheel II and the transmission gear are respectively and fixedly connected to the two ends of the gear rotating shaft, the transmission gear is in transmission connection with the rack in a meshing mode, and the driving belt wheel II is in transmission connection with the driving belt wheel II through a belt.

The textile sizing device has the beneficial effects that:

according to the textile sizing device, the stock guide pipe and the sponge block are used for providing the sizing liquid to the sizing roller, the sizing roller can absorb sufficient sizing liquid in a rotation stroke and is uniformly coated on the fabric to finish sizing, and the sizing is uniform in the mode, so that the quality of the fabric is improved, the loss of the sizing liquid is not easily caused, and the quality of the textile fabric is improved; and the sizing roller can drive the stirring assembly to uniformly stir the sizing agent in the sizing process, so that the quality of a subsequent process finished product is better.

Drawings

FIG. 1 is a first schematic structural view of a textile sizing apparatus of the present invention;

FIG. 2 is a schematic structural view of a textile sizing apparatus of the present invention;

FIG. 3 is a schematic structural view of a bracket and a vertical frame plate I;

FIG. 4 is a schematic structural diagram of a slurry stirring box, a material guide pipe, a vertical frame plate I, a sponge block and a sizing roller;

FIG. 5 is a sectional view of the slurry agitating tank, a material guiding pipe, a vertical frame plate I, a sponge block and a sizing roller;

FIG. 6 is a schematic structural diagram of a driving assembly;

FIG. 7 is a schematic structural view of the stirring assembly;

FIG. 8 is a schematic view of a portion of the stirring assembly;

FIG. 9 is a schematic structural view of the stirring body;

fig. 10 is a schematic structural view of a linkage wheel assembly.

In the figure: a bracket 1; 1-1 of a side frame plate; a support plate 1-2; a door-shaped sliding seat 1-3; a slurry stirring box 2; 2-1 of a stirring box body; a rectangular slide rail 2-2; 2-3 of a rack; a material guide pipe 3; a vertical frame plate I4; a sponge block 5; a sizing roller 6; a roller rotating shaft 6-1; a roller body 6-2; 6-3 of a driving belt wheel; a drive assembly 7; a driven pulley 7-1; a belt wheel rotating shaft 7-2; 7-3 of an incomplete gear; a bilateral rack 7-4; 7-5 of a rectangular through groove; 7-6 of rectangular blocks; 7-7 parts of spring sleeve rod; spring seats 7-8; 7-9 of an extension spring; a stirring assembly 8; a U-shaped sliding seat 8-1; 8-2 of a stirring rotating shaft; a driving belt wheel I8-3; 8-4 parts of a stirring body; the vertical frame plate II 8-5; 8-6 of a door-shaped seat; 8-7 of a shaft frame plate; 8-8 parts of guide rod; 8-9 parts of a guide rod seat; 8-10 parts of external thread rod; 8-11 parts of a screw seat; drive gears 8-12; a linkage wheel assembly 9; a gear rotating shaft 9-1; the driving belt wheel II 9-2; a transmission gear 9-3.

Detailed Description

The invention is described in further detail below with reference to figures 1-10 and the specific implementation.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, a textile sizing device comprises a support 1, a slurry stirring box 2, material guide pipes 3, a vertical frame plate I4, a sponge block 5, a sizing roller 6, a driving assembly 7, a stirring assembly 8 and a linkage wheel assembly 9, wherein the slurry stirring box 2 is fixedly connected to the right end of the support 1, the vertical frame plate I4 is fixedly connected to the left end of the support 1, two ends of four material guide pipes 3 are respectively and fixedly connected to the vertical frame plate I4 and the slurry stirring box 2, the four material guide pipes 3 are communicated with the lower end inside the slurry stirring box 2, the sponge block 5 is fixedly connected to the vertical frame plate I4, the left ends of the four material guide pipes 3 are located in the sponge block 5, the sizing roller 6 is rotatably connected to the left end of the support 1, the left end of the sponge block 5 is attached to the sizing roller 6, the driving assembly 7 is fixedly connected to the slurry stirring box 2, the driving assembly 7 is connected to the sizing roller 6 through belt transmission, stirring subassembly 8 fixed connection is on thick liquids agitator tank 2, and stirring subassembly 8 is connected with drive assembly 7 meshing transmission, and stirring subassembly 8's lower extreme sliding connection is in thick liquids agitator tank 2, and the middle-end of linkage wheel subassembly 9 rotates to be connected on stirring subassembly 8, and the one end of linkage wheel subassembly 9 is connected through belt transmission with stirring subassembly 8, and the other end of linkage wheel subassembly 9 is connected with thick liquids agitator tank 2 meshing transmission. When the sizing machine is used, the sizing machine is placed on the slide way through the support 1, so that the sizing machine can slide left and right, textile size is poured into the size stirring box 2, the textile size is guided into the sponge block 5 through the four material guide pipes 3, the sponge block 5 is attached to the sizing roller 6 to provide sufficient textile size for the sizing roller 6, and the sizing roller 6 is in contact with textile fabric; the sizing roller 6 can drive the driving component 7 to work when rotating, the driving component 7 drives the stirring component 8 to stir the textile slurry in the slurry stirring box 2 before and after entering the piece, the stirring component 8 drives the linkage wheel component 9 to work, and the linkage wheel component 9 drives the stirring component 8 to stir the textile slurry in the slurry stirring box 2 in a rotating manner, so that the subsequent process finished product quality is better.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1-10, wherein the support 1 includes a side frame plate 1-1, a support plate 1-2 and a portal slide carriage 1-3; the vertical frame plate I4 is fixedly connected between the two side frame plates 1-1, the right ends of the two side frame plates 1-1 are respectively and fixedly connected with a supporting plate 1-2, and the outer end faces of the two supporting plates 1-2 are respectively and fixedly connected with a door-shaped sliding seat 1-3; four circular through holes are formed in the vertical frame plate I4, and the left ends of the four material guide pipes 3 are fixedly connected into the four circular through holes respectively. When the support 1 is used, the two door-shaped sliding seats 1-3 are placed on the slide way, and the whole device can be driven to move left and right when the two door-shaped sliding seats 1-3 move left and right on the slide way.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 10, wherein the slurry stirring tank 2 comprises a stirring tank body 2-1, a rectangular slide rail 2-2 and a rack 2-3; the stirring box body 2-1 is fixedly connected to the two supporting plates 1-2, the two rectangular sliding rails 2-2 are symmetrically and fixedly connected to two ends of the inner side of the stirring box body 2-1, the rack 2-3 is fixedly connected to the upper end of the stirring box body 2-1, and the right ends of the four material guide pipes 3 are fixedly connected to and communicated with the lower end of the left end face of the stirring box body 2-1. When the slurry stirring box 2 is used, the textile slurry is poured into the stirring box body 2-1, the textile slurry is guided into the sponge block 5 through the four material guide pipes 3, and the sponge block 5 absorbs sufficient textile slurry.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1-10, and the sizing roller 6 includes a roller rotating shaft 6-1, a roller body 6-2 and a driving pulley 6-3; the two ends of the roller rotating shaft 6-1 are rotatably connected to the left ends of the two side frame plates 1-1 through belt seat bearings respectively, the roller body 6-2 and the driving pulley 6-3 are fixedly connected to the roller rotating shaft 6-1, the roller body 6-2 is located between the two side frame plates 1-1, the left end of the sponge block 5 is attached to the outer end face of the roller body 6-2, the driving pulley 6-3 is located at the outer end of the side frame plate 1-1, and the driving pulley 6-3 is in transmission connection with the driving assembly 7 through a belt. When the sizing roller 6 is used, the sponge block 5 is attached to the outer end face of the roller rotating shaft 6-1, the roller rotating shaft 6-1 can be driven to move left and right when the sizing roller 6 slides left and right, the roller rotating shaft 6-1 can be driven to rotate around the axis of the roller rotating shaft 6-1 under the action of friction force of the roller rotating shaft 6-1 contacting with cloth, the roller rotating shaft 6-1 rotates to absorb sufficient slurry to be uniformly coated on the fabric, sizing on the textile fabric is achieved, the roller rotating shaft 6-1 drives the roller body 6-2 to rotate around the axis of the roller, and the roller body 6-2 drives the driving belt wheel 6-3 to rotate around the axis of the roller body 6-3.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 10, where the driving assembly 7 includes a driven pulley 7-1, a pulley rotating shaft 7-2, an incomplete gear 7-3, a double-sided rack 7-4, a rectangular through slot 7-5, a rectangular block 7-6, a spring loop bar 7-7, a spring seat 7-8, and an extension spring 7-9; the driven belt wheel 7-1 is in transmission connection with the driving belt wheel 6-3 through a belt, the driven belt wheel 7-1 and the incomplete gear 7-3 are fixedly connected to a belt wheel rotating shaft 7-2, the belt wheel rotating shaft 7-2 is in transmission connection with the front end face of the stirring box body 2-1 through a belt seat bearing, the incomplete gear 7-3 is in transmission connection with the teeth at the lower end of the bilateral rack 7-4, a rectangular through groove 7-5 is formed in the bilateral rack 7-4, a rectangular block 7-6 is in sliding connection with the rectangular through groove 7-5, the rectangular block 7-6 is fixedly connected to the front end face of the stirring box body 2-1, two ends of a spring sleeve rod 7-7 are respectively in sliding connection with the left end and the right end of the bilateral rack 7-4, and the spring sleeve rod 7-7 is in the rectangular block 7-6 in sliding connection, the outer ends of the two ends of the spring loop rod 7-7 are respectively and fixedly connected with a stop circle and a spring seat 7-8, the spring seat 7-8 is fixedly connected to the front end face of the stirring box body 2-1, an extension spring 7-9 is sleeved on the spring loop rod 7-7, and the two ends of the extension spring 7-9 are respectively and fixedly connected to the double-sided rack 7-4 and the spring seat 7-8. When the driving component 7 is used, the roller rotating shaft 6-1 rotates clockwise to drive the driving belt wheel 6-3 to rotate around the self axis, the driving belt wheel 6-3 drives the driven belt wheel 7-1 to rotate around the self axis, the driven belt wheel 7-1 drives the belt wheel rotating shaft 7-2 to rotate around the self axis, the belt wheel rotating shaft 7-2 drives the incomplete gear 7-3 to rotate around the self axis, the incomplete gear 7-3 drives the bilateral rack 7-4 to slide when in meshing transmission with the bilateral rack 7-4, the tension spring 7-9 is compressed, when the incomplete gear 7-3 is separated from the bilateral rack 7-4, the bilateral rack 7-4 is reset under the elastic force of the extension spring 7-9, thereby realizing the reciprocating movement of the bilateral rack 7-4, and the bilateral rack 7-4 drives the stirring component 8 to work.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-10, and the stirring assembly 8 comprises a U-shaped sliding base 8-1, a stirring rotating shaft 8-2, a driving pulley I8-3, a stirring body 8-4, a vertical frame plate II8-5, a door-shaped base 8-6, a shaft frame plate 8-7, a guide rod 8-8, a guide rod base 8-9, an external thread rod 8-10, a screw rod base 8-11 and a driving gear 8-12; the driving belt wheel I8-3 is fixedly connected to the middle end of the stirring rotating shaft 8-2, the driving belt wheel I8-3 is in transmission connection with the linkage wheel assembly 9 through a belt, two ends of the stirring rotating shaft 8-2 are respectively and fixedly connected with a stirring body 8-4, the outer ends of two ends of the stirring rotating shaft 8-2 are respectively and rotatably connected to two U-shaped sliding seats 8-1 through a bearing with a seat, the two U-shaped sliding seats 8-1 are respectively and slidably connected to two rectangular sliding rails 2-2, and the lower ends of two vertical frame plates II8-5 are respectively in clearance fit with two ends of the stirring rotating shaft 8-2; the vertical frame plate II8-5 is positioned between the U-shaped sliding seat 8-1 and the stirring body 8-4; two ends of a door-shaped seat 8-6 are respectively and fixedly connected with the upper ends of two vertical frame plates II8-5, a shaft frame plate 8-7 is fixedly connected with the middle end of the door-shaped seat 8-6, a guide rod 8-8 is slidably connected with the right end of the door-shaped seat 8-6, two ends of the guide rod 8-8 are respectively and fixedly connected with a guide rod seat 8-9, two guide rod seats 8-9 are respectively and fixedly connected with the front end and the rear end of the top surface of the stirring box body 2-1, the left end of the door-shaped seat 8-6 is connected with an external threaded rod 8-10 through threads, two ends of the external threaded rod 8-10 are respectively and rotatably connected with two screw rod seats 8-11 through a bearing with a seat, two screw rod seats 8-11 are respectively and fixedly connected with the front end and the rear end of the top surface of the stirring box body 2-1, a driving gear 8-12 is fixedly connected with the front end of the external threaded rod 8-10, the driving gear 8-12 is positioned at the outer end of the stirring box body 2-1, and the driving gear 8-12 is in meshed transmission connection with the teeth at the upper end of the bilateral rack 7-4. When the stirring assembly 8 is used, the bilateral rack 7-4 can drive the driving gear 8-12 to rotate around the axis of the driving gear in the forward and reverse directions when moving leftwards and rightwards, the driving gear 8-12 drives the external threaded rod 8-10 to rotate around the axis of the driving gear, the external threaded rod 8-10 drives the door-shaped seat 8-6 to move forwards and backwards through the thread matching connection with the door-shaped seat 8-6, the guide rod 8-8 plays a role in limiting and guiding, the door-shaped seat 8-6 can only move forwards and backwards along the axis of the external threaded rod 8-10, the door-shaped seat 8-6 drives the stirring rotating shaft 8-2 to move forwards and backwards through the two vertical frame plates II8-5, the stirring rotating shaft 8-2 drives the two stirring bodies 8-4 to move forwards and backwards, and the textile size in the stirring box body 2-1 is stirred forwards and backwards.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 10, and the linkage wheel assembly 9 includes a gear rotating shaft 9-1, a driving pulley II9-2 and a transmission gear 9-3; the middle end of the gear rotating shaft 9-1 is rotatably connected to a shaft frame plate 8-7 through a belt seat bearing, the driving pulley II9-2 and the transmission gear 9-3 are respectively and fixedly connected to two ends of the gear rotating shaft 9-1, the transmission gear 9-3 is in meshing transmission connection with the rack 2-3, and the driving pulley II9-2 is in transmission connection with the driving pulley I8-3 through a belt. When the linkage wheel assembly 9 is used, the door-shaped seat 8-6 drives the gear rotating shaft 9-1 to move back and forth through the shaft frame plate 8-7, the gear rotating shaft 9-1 drives the transmission gear 9-3 to move back and forth, the transmission gear 9-3 drives the transmission gear 9-3 to rotate around the self axis through the meshing transmission connection with the rack 2-3, the transmission gear 9-3 drives the gear rotating shaft 9-1 to rotate around the self axis, the gear rotating shaft 9-1 drives the driving belt wheel II9-2 to rotate around the self axis, the driving belt wheel II9-2 drives the stirring driving belt wheel I8-3 to rotate around the self axis through the belt, the driving belt wheel I8-3 drives the rotating shaft 8-2 to rotate around the self axis, and the stirring rotating shaft 8-2 drives the two stirring bodies 8-4 to rotate around the self axis, and stirring the textile size in the stirring box body 2-1.

The working principle of the textile sizing device of the invention is as follows: when the device is used, the two door-shaped sliding seats 1-3 are placed on the slide way by the support 1 when the device is used, and the whole device can be driven to move left and right when the two door-shaped sliding seats 1-3 move left and right on the slide way. When the slurry stirring box 2 is used, the textile slurry is poured into the stirring box body 2-1, the textile slurry is guided into the sponge block 5 through the four material guide pipes 3, and the sponge block 5 absorbs sufficient textile slurry. When the sizing roller 6 is used, the sponge block 5 is attached to the outer end face of the roller rotating shaft 6-1, the roller rotating shaft 6-1 can be driven to move left and right when the sizing roller 6 slides left and right, the roller rotating shaft 6-1 can be driven to rotate around the axis of the roller rotating shaft 6-1 under the action of friction force of the roller rotating shaft 6-1 contacting with cloth, the roller rotating shaft 6-1 rotates to absorb sufficient slurry to be uniformly coated on the fabric, sizing on the textile fabric is achieved, the roller rotating shaft 6-1 drives the roller body 6-2 to rotate around the axis of the roller, and the roller body 6-2 drives the driving belt wheel 6-3 to rotate around the axis of the roller body 6-3. When the driving component 7 is used, the roller rotating shaft 6-1 rotates clockwise to drive the driving belt wheel 6-3 to rotate around the self axis, the driving belt wheel 6-3 drives the driven belt wheel 7-1 to rotate around the self axis, the driven belt wheel 7-1 drives the belt wheel rotating shaft 7-2 to rotate around the self axis, the belt wheel rotating shaft 7-2 drives the incomplete gear 7-3 to rotate around the self axis, the incomplete gear 7-3 drives the bilateral rack 7-4 to slide when in meshing transmission with the bilateral rack 7-4, the tension spring 7-9 is compressed, when the incomplete gear 7-3 is separated from the bilateral rack 7-4, the bilateral rack 7-4 is reset under the elastic force of the extension spring 7-9, thereby realizing the reciprocating movement of the bilateral rack 7-4, and the bilateral rack 7-4 drives the stirring component 8 to work. When the stirring assembly 8 is used, the bilateral rack 7-4 can drive the driving gear 8-12 to rotate around the axis of the stirring assembly in the forward and reverse directions when moving leftwards and rightwards, the driving gear 8-12 drives the external threaded rod 8-10 to rotate around the axis of the stirring assembly, the external threaded rod 8-10 drives the door-shaped seat 8-6 to move forwards and backwards through the thread matching connection with the door-shaped seat 8-6, the guide rod 8-8 plays a role in limiting and guiding, the door-shaped seat 8-6 can only move forwards and backwards along the axis of the external threaded rod 8-10, the door-shaped seat 8-6 drives the stirring rotating shaft 8-2 to move forwards and backwards through the two vertical frame plates 8-5, the stirring rotating shaft 8-2 drives the two stirring bodies 8-4 to move forwards and backwards, and the textile size in the stirring box body 2-1 is subjected to forward and backward stirring treatment. When the linkage wheel assembly 9 is used, the door-shaped seat 8-6 drives the gear rotating shaft 9-1 to move back and forth through the shaft frame plate 8-7, the gear rotating shaft 9-1 drives the transmission gear 9-3 to move back and forth, the transmission gear 9-3 drives the transmission gear 9-3 to rotate around the self axis through the meshing transmission connection with the rack 2-3, the transmission gear 9-3 drives the gear rotating shaft 9-1 to rotate around the self axis, the gear rotating shaft 9-1 drives the driving belt wheel II9-2 to rotate around the self axis, the driving belt wheel II9-2 drives the stirring driving belt wheel I8-3 to rotate around the self axis through the belt, the driving belt wheel I8-3 drives the rotating shaft 8-2 to rotate around the self axis, and the stirring rotating shaft 8-2 drives the two stirring bodies 8-4 to rotate around the self axis, and stirring the textile size in the stirring box body 2-1.

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

1. The utility model provides a fabrics sizing apparatus, includes support (1), thick liquids agitator tank (2), passage (3), erects a board I (4), sponge piece (5), starching roller (6), drive assembly (7), stirring subassembly (8) and linkage wheel subassembly (9), its characterized in that: the slurry stirring box (2) is fixedly connected to the right end of the support (1), the vertical frame plate I (4) is fixedly connected to the left end of the support (1), two ends of four guide pipes (3) are respectively fixedly connected to the vertical frame plate I (4) and the slurry stirring box (2), the four guide pipes (3) are communicated with the lower end inside the slurry stirring box (2), the sponge block (5) is fixedly connected to the vertical frame plate I (4), the left ends of the four guide pipes (3) are positioned in the sponge block (5), the sizing roller (6) is rotatably connected to the left end of the support (1), the left end of the sponge block (5) is attached to the sizing roller (6), the driving component (7) is fixedly connected to the slurry stirring box (2), the driving component (7) is connected to the sizing roller (6) through a belt in a transmission manner, the stirring component (8) is fixedly connected to the slurry stirring box (2), the stirring assembly (8) is in meshed transmission connection with the driving assembly (7), the lower end of the stirring assembly (8) is connected into the slurry stirring box (2) in a sliding mode, the middle end of the linkage wheel assembly (9) is connected onto the stirring assembly (8) in a rotating mode, one end of the linkage wheel assembly (9) is in transmission connection with the stirring assembly (8) through a belt, and the other end of the linkage wheel assembly (9) is in meshed transmission connection with the slurry stirring box (2);

the support (1) comprises a side frame plate (1-1), a support plate (1-2) and a door-shaped sliding seat (1-3); the vertical frame plate I (4) is fixedly connected between the two side frame plates (1-1), the right ends of the two side frame plates (1-1) are respectively and fixedly connected with a support plate (1-2), and the outer end surfaces of the two support plates (1-2) are respectively and fixedly connected with a door-shaped sliding seat (1-3); four circular through holes are formed in the vertical frame plate I (4), and the left ends of the four material guide pipes (3) are fixedly connected into the four circular through holes respectively;

the sizing roller (6) comprises a roller rotating shaft (6-1), a roller body (6-2) and a driving belt wheel (6-3); the two ends of a roller rotating shaft (6-1) are respectively and rotatably connected to the left ends of the two side frame plates (1-1), a roller body (6-2) and a driving pulley (6-3) are fixedly connected to the roller rotating shaft (6-1), the roller body (6-2) is located between the two side frame plates (1-1), the left end of a sponge block (5) is attached to the outer end face of the roller body (6-2), the driving pulley (6-3) is located at the outer ends of the two side frame plates (1-1), and the driving pulley (6-3) is in transmission connection with a driving assembly (7) through a belt.

2. A textile sizing apparatus according to claim 1, wherein: the driving assembly (7) comprises a driven belt wheel (7-1), a belt wheel rotating shaft (7-2), an incomplete gear (7-3), a bilateral rack (7-4), a rectangular through groove (7-5), a rectangular block (7-6), a spring sleeve rod (7-7), a spring seat (7-8) and an extension spring (7-9); the driven belt wheel (7-1) is in transmission connection with the driving belt wheel (6-3) through a belt, the driven belt wheel (7-1) and the incomplete gear (7-3) are fixedly connected to a belt wheel rotating shaft (7-2), the belt wheel rotating shaft (7-2) is rotatably connected to the front end face of the stirring box body (2-1), the incomplete gear (7-3) is in transmission connection with the teeth at the lower end of the bilateral rack (7-4) in a meshing manner, a rectangular through groove (7-5) is formed in the bilateral rack (7-4), a rectangular block (7-6) is slidably connected in the rectangular through groove (7-5), the rectangular block (7-6) is fixedly connected to the front end face of the stirring box body (2-1), two ends of a spring loop rod (7-7) are respectively slidably connected to the left end and the right end of the bilateral rack (7-4), the spring loop rod (7-7) is connected in the rectangular block (7-6) in a sliding mode, the outer ends of the two ends of the spring loop rod (7-7) are fixedly connected with a stop circle and a spring seat (7-8) respectively, the spring seat (7-8) is fixedly connected to the front end face of the stirring box body (2-1), the extension spring (7-9) is sleeved on the spring loop rod (7-7), and the two ends of the extension spring (7-9) are fixedly connected to the double-side rack (7-4) and the spring seat (7-8) respectively.