CN113818089A - Weaving processing silk retwist preloading device - Google Patents

Abstract

The invention provides a rereeling pre-tightening device for spinning and processing silk, and relates to the technical field of spinning and processing, wherein an extension rod penetrates into a material collecting barrel inwards, and a twisting part is fixed at the inner end of the extension rod; fixedly connected with pretension piece between two shock attenuation frame back tops, pretension piece is located the receipts feed cylinder head end, spacing way has all been seted up to the back wall left and right sides in the pretension piece, spacing inside equal sliding connection who says has the stopper, the stopper front end is fixed with rather than support as an organic whole, support surface inner all is fixed with traction spring, the inside flitch that supports that all is equipped with of support, both ends all are fixed with outer core about supporting the flitch, outer core outer end imbeds in the support rather than rotate and is connected, traction spring front end is fixed in and supports flitch back wall, it is the vertical fixation that supports the flitch outer wall and has a plurality of lug, the material is twisted with fingers to filature broken ends and miscellaneous silk in the wobbling, make filature broken ends and miscellaneous silk be twisted with one, utilize the indirect material of twisting of the shaking force of pretension piece, be favorable to collecting filature broken ends and miscellaneous silk.

Description

Weaving processing silk retwist preloading device

Technical Field

The invention relates to the technical field of textile processing, in particular to a silk re-shaking pre-tightening device for textile processing.

Background

The re-reeling refers to a process of re-winding raw silk on a small spinning utensil after reeling silk on a large spinning utensil or a bobbin, and aims to make the raw silk well-shaped and soft to the touch and remove broken ends and defects in a small spinning utensil silk sheet. When silk in the existing textile processing is repeatedly shaken, the silk reeling is directly exposed to the outside for repeated shaking, a structure for pre-tightening the silk reeling is lacked, and the silk reeling is easy to scatter; and broken ends and miscellaneous silks of the reeling silk are not easy to collect in the re-shaking process, and the broken ends and the miscellaneous silks are not convenient to intensively arrange and recycle, thereby causing resource waste.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the silk reeling is directly exposed to the outside for re-shaking, and the silk reeling is easy to scatter; broken ends and miscellaneous silks are not convenient for concentrate arrangement and recycle, cause the wasting of resources, and to the problem that prior art exists, provide a weaving processing silk rereeling preloading device.

The purpose and the effect of the invention are achieved by the following specific technical means: a rereeling pre-tightening device for textile processing silk comprises an installation support and a material collecting box, wherein the material collecting box is installed at the top of the installation support;

a material collecting barrel is arranged at the rear upper corner of the material collecting box, auxiliary side barrels are symmetrically arranged on the left side and the right side of the material collecting barrel, a rotary groove is formed in the rear side of each auxiliary side barrel, a damping groove is formed in each auxiliary side barrel and is positioned on the outer side of the corresponding rotary groove, and a first butt joint plate is fixed on the inner wall of each damping groove;

the shock absorption frames are arranged in the rotary grooves, connecting rods transversely penetrate through the positions where the shock absorption frames are connected with the rotary grooves and are fixedly connected with the rotary grooves in a penetrating mode, the outer ends of the connecting rods penetrate into the shock absorption grooves, butt joint plates II are fixedly arranged on the outer walls of the connecting rods and positioned in the shock absorption grooves, shock absorption springs are fixedly arranged between the butt joint plates II and the butt joint plates I, and the shock absorption springs are used for absorbing the rotation shock of the connecting rods;

the inner ends of the connecting rods are fixed with extension rods which are integrated with the connecting rods, the extension rods penetrate into the material collecting barrel inwards, and twisting parts are fixed at the inner ends of the extension rods;

a pretensioning piece is fixedly connected between the rear upper parts of the two shock absorption frames and is positioned at the head end of the reeling barrel, limiting channels are formed in the left side and the right side of the inner rear wall of the pretensioning piece, limiting blocks are connected inside the limiting channels in a sliding manner, a support integrated with the limiting blocks is fixed at the front end of each limiting block, traction springs are fixed at the inner ends of the surface of each support, material abutting plates are arranged inside the supports, outer cores are fixed at the upper ends and the lower ends of the material abutting plates, the outer ends of the outer cores are embedded into the supports and are connected with the supports in a rotating manner, the front ends of the traction springs are fixed on the rear wall of the material abutting plates, a plurality of convex blocks are vertically fixed on the outer walls of the material abutting plates, and convex positions of the outer ends of the convex blocks are embedded with rubber pads which are used for positioning reeling silk;

two back walls are the opposition and are fixed with the fixed plate about the pretensioning piece, and firmware in the fixedly connected with between the fixed plate, well firmware is inside to have seted up interior storage tank, and interior storage tank antetheca one side has seted up a plurality of and has passed through the release hole that goes through out the well firmware antetheca, well firmware rear end is equipped with changes the board, and changes board front end middle part and be fixed with the pivot, the pivot front end passes through in the firmware back wall and extends to interior storage tank in, and the pivot rotates with well firmware to be connected, pivot outer wall front end one side scarf joint has the board of stopping.

Further preferred embodiments: the stopper rear end all extends prefastening piece back wall, and changes the board back wall upper and lower both sides and all is equipped with the gangbar, the inside and outside both ends of gangbar all run through and are fixed with the inner core.

Further preferred embodiments: the inner core is embedded into the rotating plate and is connected with the rotating plate in a rotating mode, the outer end of the linkage rod extends to the front end and the rear end of the limiting block respectively, and the inner core at the outer end is embedded into the limiting block and is connected with the limiting block in a rotating mode.

Further preferred embodiments: the gangbar is the form of buckling, and changes the board and rotate with well firmware through the pivot and be connected, the gangbar inner swings along with the rotation of commentaries on classics board, and the gangbar pulls the stopper and removes for can control removing of stopper through rotatory commentaries on classics board and remove, stretch the filature.

Further preferred embodiments: the stop plate rotates along with the rotation of the rotating shaft, shields the rear end of the release hole, and controls the opening and closing of the release hole through the stop plate.

Further preferred embodiments: the inside notch of protruding shape of seting up of pretension piece, and support the flitch and be located the notch, the material receiving groove has been seted up to the inside front end of pretension piece, and the material receiving groove back wall rotates and is connected with the gyro wheel that is transversely arranging, and gyro wheel front end protrusion in material receiving groove back wall, gyro wheel back wall protrusion in the notch, and the gyro wheel is arranged with supporting the flitch opposition, and the retwist action of the rotatory cooperation silk reeling of gyro wheel.

Further preferred embodiments: the welding has the screwed pipe between pretension piece front end and the receipts feed cylinder head end, and receives the silo diapire and close on in pretension piece and screwed pipe's hookup location department scarf joint have the scraper of removing, remove material scraper head end and gyro wheel outer wall sliding connection, can clear up the silk reeling on gyro wheel surface through removing the material scraper and break and miscellaneous silk.

Further preferred embodiments: the damping frame swings along with the vibration of the pre-tightening piece, the twisting pieces are arranged oppositely, the opposite surfaces of the twisting pieces are arc surfaces and are separated by a gap, and the broken ends of the reeling silk and the miscellaneous silk are twisted into one strand through the two twisting pieces.

Further preferred embodiments: the material collecting tank, the threaded pipe, the material collecting barrel and the material collecting box are communicated, the left side of the material collecting box is connected with the cover in a rotating mode through threads, the center of the right wall of the cover is fixedly provided with an integrated material collecting shaft, the material collecting shaft is transversely arranged inside the material collecting box, the surface of the material collecting shaft is provided with a plurality of winding grooves in a surrounding mode, and broken ends and miscellaneous filaments of strands are wound by the material collecting shaft when the cover is screwed.

The invention has the beneficial effects that:

1. the reeling silk is close to the rear wall of the roller, so that the reeling silk can be well positioned, the swinging or scattering of the reeling silk is prevented, the broken ends and the miscellaneous silks on the surface of the reeling silk are in a tilted shape and can be picked out by the roller, the broken ends and the miscellaneous silks of the reeling silk are wound into the collecting trough by the roller, the roller can reduce the friction force between the reeling silk and the notch, and the broken ends and the miscellaneous silks of the reeling silk can be collected;

2. the connecting rod is used for filtering the vibration of the damping frame, the threaded pipe is used as an expansion joint structure connected between the pre-tightening piece and the material receiving barrel, the damping spring can be used for buffering and damping the movement of the butt joint plate II, and the stability of the movement of the butt joint plate II is kept, so that the damping frame is indirectly influenced, the vibration frequency of the damping frame is inhibited, the vibration frequency of the damping frame is prevented from being too high, the performance of the damping frame and the pre-tightening piece is influenced under long-time use, the vibration of the damping frame and the pre-tightening piece is effectively filtered, and the silk reeling machine can be well pre-tightened;

3. the broken ends and the miscellaneous silks of the reeling silk fall between the twisting parts in a smooth manner after entering the material collecting barrel, when the connecting rod rotates under the vibration influence of the vibration frame, the two twisting parts swing and twist the broken ends and the miscellaneous silks of the reeling silk while swinging, so that the broken ends and the miscellaneous silks of the reeling silk are twisted into one strand, the materials are twisted indirectly by using the vibration force of the pre-tightening piece, the collection of the broken ends and the miscellaneous silks of the reeling silk is facilitated, the later recovery and the use are facilitated, and the processing cost is reduced;

4. the collecting shaft rotates at a communication position between the collecting barrel and the collecting box, the stranded broken ends of the reeling silk and the stranded silk are wound by the winding groove of the collecting shaft, when the cover is taken out, the stranded broken ends of the reeling silk and the stranded silk are pulled out by the collecting shaft, the recovery of the broken ends and the stranded silk is facilitated, the stranded reeling silk material can be pulled out while the collecting box is closed by the cover, and the operation is convenient and rapid;

5. the rotating plate is rotated 90 degrees anticlockwise, the linkage rod swings to be unfolded outwards, the limiting block is pushed outwards through the linkage rod, the limiting block can drive the support to be expanded outwards, the left edge and the right edge of the reeling silk can move outwards along with the outward movement of the rubber pad, so that the reeling silk is unfolded, the width of the reeling silk is extended, the reeling silk does not need to be pulled manually, the rotating plate is needed to complete the expanding and the re-shaking work of the reeling silk, and the processing time is saved;

6. the rotation of pivot is the time the board of cutting off rotates, and the release hole opens, gives off fragrant atmosphere gas to tensile filature through the release hole in, can improve the good of filature smell, gives off fragrant smell when extending filature, avoids the not good condition of smell to appear in the filature after the multichannel technology processing.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the interior of the aggregate box structure of the present invention;

FIG. 3 is an internal view of the auxiliary side tube structure of the present invention;

FIG. 4 is an enlarged view of the part A of the present invention;

FIG. 5 is a side internal view of the auxiliary side tube structure of the present invention;

FIG. 6 is a schematic side view of the inner portion of the receiving cylinder structure of the present invention;

FIG. 7 is a schematic view of the preload member of the present invention;

FIG. 8 is a side internal view of the configuration of the preload member of the present invention;

FIG. 9 is a schematic view of the bracket and the material-resisting plate of the present invention;

FIG. 10 is an enlarged view of a portion of the structure of the present invention at B;

FIG. 11 is a top internal view of a mid-firmware structure of the present invention;

FIG. 12 is a rear view of the rotating plate structure of the present invention.

In fig. 1-12: the device comprises a mounting support 1, an aggregate box 2, a cover 3, a material receiving shaft 301, a winding groove 302, a material receiving cylinder 4, an auxiliary side cylinder 401, a rotary groove 402, a damping groove 5, a first butt joint plate 501, a damping frame 6, a connecting rod 601, a second butt joint plate 602, a damping spring 603, an extension rod 604, a twisting part 7, a threaded pipe 8, a preload piece 9, a limiting channel 901, a material receiving groove 902, a material removing scraper 903, a roller 10, a limiting block 11, a support 1101, a traction spring 1102, a material resisting plate 12, an outer core 1201, a lug 13, a rubber pad 1301, a fixing plate 14, a middle fixing piece 15, an inner storage groove 1501, a release hole 1502, a rotary plate 16, a rotary shaft 1601, a stopping plate 1602, a linkage rod 17 and an inner core 1701.

Detailed Description

Referring to fig. 1-12, a rereeling pre-tightening device for textile processing silk comprises a mounting support 1 and a material collecting box 2, wherein the material collecting box 2 is mounted at the top of the mounting support 1;

specifically, firstly, the mounting support 1 is arranged at the front end of a silk re-shaking position, the mounting support 1 and re-shaking equipment are mounted through bolts, and the stability of the mounting support 1 is kept;

a material collecting barrel 4 is mounted at the rear upper corner of the material collecting box 2, auxiliary side barrels 401 which are symmetrically distributed are fixedly mounted on the left side and the right side of the material collecting barrel 4, a rotary groove 402 is formed in the rear side of each auxiliary side barrel 401, a damping groove 5 is formed in each auxiliary side barrel 401 and located on the outer side of each rotary groove 402, and a first butt joint plate 501 is fixed on the inner wall of each damping groove 5;

the interior of each rotary groove 402 is provided with a shock absorption frame 6;

a pre-tightening piece 9 is fixedly connected between the rear upper parts of the two shock absorption frames 6; a convex notch is formed in the interior of the preload part 9;

and (3) silk reeling fastening:

after the mounting support 1 is mounted, putting the re-shaken reeling silk in the notch of the pre-tightening piece 9;

the left side and the right side of the inner rear wall of the pre-tightening piece 9 are both provided with limiting channels 901, limiting blocks 11 are slidably connected inside the limiting channels 901, a support 1101 integrated with the limiting blocks 11 is fixed at the front end of each limiting block 11, the inner ends of the surface of the support 1101 are both fixed with a traction spring 1102, a material supporting plate 12 is arranged inside each support 1101, outer cores 1201 are fixed at the upper end and the lower end of each material supporting plate 12, the outer end of each outer core 1201 is embedded into the support 1101 and is rotatably connected with the support 1101, the front end of each traction spring 1102 is fixed on the rear wall of each material supporting plate 12, a plurality of convex blocks 13 are vertically fixed on the outer wall of each material supporting plate 12, rubber pads 1301 are embedded at the convex positions of the outer ends of the convex blocks 13, and the rubber pads 1301 are used for positioning silk reeling;

the material supporting plate 12 is located in the notch, the front end inside the pre-tightening piece 9 is provided with a material receiving groove 902, the rear wall of the material receiving groove 902 is rotatably connected with rollers 10 which are transversely arranged, the front end of each roller 10 protrudes out of the rear wall inside the material receiving groove 902, the rear wall of each roller 10 protrudes out of the notch, and the rollers 10 and the material supporting plate 12 are oppositely arranged;

in the current state, the traction spring 1102 pushes the material supporting plate 12 forwards, in order to enable the reeling silk to smoothly enter the notch, the material supporting plate 12 can be pressed backwards, a gap between the material supporting plate 12 and the inner front wall of the notch is enlarged, the reeling silk smoothly passes through the notch, the reeling silk passes through the notch from top to bottom, then the material supporting plate 12 is loosened, the material supporting plate 12 is pushed forwards through the traction spring 1102, the reeling silk is enabled to be attached to the rear wall of the roller 10, the reeling silk can be well positioned, the reeling silk is prevented from swinging or scattering, and then the re-swinging process is started;

reeling silk, breaking ends and collecting impurity silk:

when the reeling silk is repeatedly shaken between the material supporting plate 12 and the roller 10, the roller 10 can be rotatably matched with the rolling of the reeling silk, and because the broken ends and the miscellaneous silks on the surface of the reeling silk are in a tilting shape and can be picked out by the roller 10, the broken ends and the miscellaneous silks of the reeling silk are wound and wound into the material receiving groove 902 by the roller 10, the roller 10 not only can reduce the friction force between the reeling silk and a notch, but also can recover the broken ends and the miscellaneous silks of the reeling silk;

the pre-tightening piece 9 is positioned at the head end of the material receiving barrel 4, a threaded pipe 8 is welded between the front end of the pre-tightening piece 9 and the head end of the material receiving barrel 4, a material removing scraper 903 is embedded at the position, close to the connecting position of the pre-tightening piece 9 and the threaded pipe 8, of the bottom wall of the material receiving groove 902, and the head end of the material removing scraper 903 is connected with the outer wall of the roller 10 in a sliding mode; the material receiving groove 902, the threaded pipe 8, the material receiving cylinder 4 and the material collecting box 2 are communicated;

after the broken ends and the miscellaneous silks of the reeling silk enter the material receiving groove 902, the material removing scraper 903 scrapes the broken ends and the miscellaneous silks of the reeling silk on the surface of the roller 10, so that the broken ends and the miscellaneous silks of the reeling silk are concentrated in the material receiving groove 902, and the broken ends and the miscellaneous silks of the reeling silk are accumulated in the material receiving groove 902 along with the continuous repeated shaking work and enter the material receiving barrel 4 through the threaded pipe 8;

a connecting rod 601 transversely penetrates through and is fixed at the connecting position of the shock absorption frame 6 and the rotary groove 402, the connecting rod 601 is rotatably connected with the rotary groove 402, the outer end of the connecting rod 601 penetrates into the shock absorption groove 5, a second butt plate 602 is fixed on the outer wall of the connecting rod 601 and positioned in the shock absorption groove 5, a shock absorption spring 603 is fixed between the second butt plate 602 and the first butt plate 501, and the shock absorption spring 603 is used for absorbing the rotation of the connecting rod 601;

damping of the preload member 9:

when reeling silk is rewound, the preload part 9 can be influenced by the vibration of reeling silk rewound, the preload part 9 is supported by the shock absorption frame 6, the vibration of the preload part 9 is transmitted into the shock absorption frame 6, the shock absorption frame 6 can rotate through the connecting rod 601, the preload part 9 can swing, the threaded pipe 8 is made of PVC plastic and can deform, the threaded pipe 8 is matched with the preload part 9 to deform when the preload part 9 swings, the connecting rod 601 is used for filtering the vibration of the shock absorption frame 6, the threaded pipe 8 is used as an expansion joint structure connected between the preload part 9 and the material receiving barrel 4, the material collecting box 2 and the mounting support 1 are prevented from being influenced by the vibration force of the preload part 9, and the material receiving barrel 4, the material collecting box 2 and the mounting support 1 can be kept static at the moment;

the damping frame 6 swings along with the vibration of the preload piece 9;

when the connecting rod 601 rotates, the second butt plate 602 moves in the damping groove 5, and the movement of the second butt plate 602 can be buffered and damped through the damping spring 603, so that the stability of the movement of the second butt plate 602 is maintained, the damping frame 6 is indirectly influenced, the vibration frequency of the damping frame 6 is inhibited, the phenomenon that the vibration frequency of the damping frame 6 is too high, the performance of the damping frame 6 and the preload part 9 is influenced under long-time use is prevented, the vibration of the damping frame 6 and the preload part 9 is effectively filtered, and the good preload work is performed on the reeling silk;

an extension rod 604 integrated with the connecting rod 601 is fixed at the inner end of the connecting rod 601, the extension rod 604 penetrates into the material collecting barrel 4 inwards, and a twisting part 7 is fixed at the inner end of the extension rod 604;

the twisting pieces 7 are arranged oppositely, and opposite surfaces of the twisting pieces 7 are cambered surfaces and are separated by gaps;

twisting materials:

the broken ends and the miscellaneous silks of the reeling silk fall between the twisting parts 7 in a smooth manner after entering the material collecting barrel 4, when the connecting rod 601 rotates under the vibration influence of the vibration frame, the extension rod 604 rotates along with the connecting rod 601, meanwhile, the two twisting parts 7 swing, the broken ends and the miscellaneous silks of the reeling silk are propped against the cambered surface of the twisting parts 7, the broken ends and the miscellaneous silks of the reeling silk are twisted into one strand during swinging, the materials are twisted indirectly by using the vibration force of the pre-tightening part 9, the broken ends and the miscellaneous silks of the reeling silk are favorably collected, the later recycling is facilitated, and the processing cost is reduced;

the broken ends and the miscellaneous silks of the reeling silk enter the gaps among the twisting parts 7, the broken ends and the miscellaneous silks of the reeling silk entering the material collecting barrel 4 are increased along with the continuous swing of the twisting parts 7, the broken ends and the miscellaneous silks of the reeling silk are strip-shaped and are slowly lengthened, and the broken ends and the miscellaneous silks of the reeling silk are led into the material collecting box 2;

the left side of the material collecting box 2 is rotatably connected with a cover 3 through threads, an integrated material receiving shaft 301 is fixed at the center of the right wall of the cover 3, the material receiving shaft 301 is transversely arranged in the material collecting box 2, and a plurality of winding grooves 302 are formed in the surface of the material receiving shaft 301 in a surrounding mode;

a material receiving step:

when material collection is needed at the later stage, the cover 3 is screwed out, the cover 3 is connected with the collecting box 2 through threads, the cover 3 rotates when being screwed, the collecting shaft 301 rotates at a position where the collecting cylinder 4 is communicated with the collecting box 2, stranded reeling broken ends and stranded silk are wound through the winding groove 302 of the collecting shaft 301, and when the cover 3 is taken out, the collecting shaft 301 pulls out the stranded reeling broken ends and the stranded silk, thereby being beneficial to recovering the stranded ends and the stranded silk, and stranded reeling silk materials can be pulled out while the collecting box 2 is closed through the cover 3, so that the operation is convenient and rapid;

the left rear wall and the right rear wall of the preload part 9 are oppositely fixed with fixing plates 14, a middle fixing part 15 is fixedly connected between the fixing plates 14, an inner storage groove 1501 is formed in the middle fixing part 15, a plurality of release holes 1502 penetrating through the front wall of the middle fixing part 15 are formed in one side of the front wall of the inner storage groove 1501, a rotating plate 16 is arranged at the rear end of the middle fixing part 15, a rotating shaft 1601 is fixed in the middle of the front end of the rotating plate 16, the front end of the rotating shaft 1601 penetrates through the rear wall of the middle fixing part 15 and extends into the inner storage groove 1501, the rotating shaft 1601 is rotatably connected with the middle fixing part 15, and a stopping plate 1602 is embedded in one side of the front end of the outer wall of the rotating shaft 1601;

the rear end of the limiting block 11 extends out of the rear wall of the pre-tightening piece 9, linkage rods 17 are arranged on the upper side and the lower side of the rear wall of the rotating plate 16, and inner cores 1701 are fixedly arranged at the inner end and the outer end of each linkage rod 17 in a penetrating mode;

the inner core 1701 at the inner end is embedded in the rotating plate 16 and is rotationally connected with the rotating plate, the outer end of the linkage rod 17 extends to the positive rear end of the limiting block 11 respectively, and the inner core 1701 at the outer end is embedded in the limiting block 11 and is rotationally connected with the limiting block 11;

the two connecting rods 601 at the inner end are arranged up and down in the initial state, and the limiting block 11 is positioned at the inner end of the limiting channel 901;

the linkage rod 17 is bent, the rotating plate 16 is rotatably connected with the middle fixing piece 15 through the rotating shaft 1601, the inner end of the linkage rod 17 swings along with the rotation of the rotating plate 16, and the linkage rod 17 pulls the limiting block 11 to move left and right;

reeling and stretching:

when the re-shaking reeling silk is required to be stretched and extended, the rotating plate 16 can be directly rotated counterclockwise by 90 degrees, the positions of the two connecting rods 601 at the inner end are changed while the rotating plate 16 rotates, the connecting rods 601 arranged up and down are changed into left-right arrangement, the linkage rod 17 swings and extends outwards, the two connecting rods 601 at the outer end move outwards, the limiting block 11 is rotationally connected with the linkage rod 17 through the connecting rods 601, so that the connection between the limiting block 11 and the linkage rod 17 has mobility, the linkage between the limiting block 11 and the linkage rod 17 is not easy to be obstructed, the limiting block 11 is pushed outwards through the linkage rod 17, the limiting block 11 can drive the bracket 1101 to extend outwards, the two material resisting plates 12 move outwards, the rubber pad 1301 can resist the silk, the friction force between the rubber pad 1301 and the reeling silk is large, the left edge and the right edge of the reeling silk can move outwards along with the outward movement of the rubber pad 1301, thereby stretching the reeling silk and extending the width of the reeling silk, the silk reeling can be finished by the rotating plate 16 without manually pulling the silk reeling, and the silk reeling expansion and the re-shaking work are carried out synchronously, so that the processing time is saved;

the stopping plate 1602 rotates along with the rotation of the rotating shaft 1601, and the stopping plate 1602 shields the rear end of the releasing hole 1502;

the top of the middle fixing piece 15 is provided with an opening and closing cover, the opening and closing cover can be unscrewed in advance, substances with external fragrant atmosphere are placed in the inner storage tank 1501, the opening and closing cover is closed, the stop plate 1602 blocks the release holes 1502, the fragrant atmosphere cannot be emitted, the stop plate 1602 rotates while the rotating shaft 1601 rotates, the release holes 1502 are opened, the fragrant atmosphere is emitted into stretched reeling silk through the release holes 1502, the good reeling smell can be improved, the fragrance can be emitted while the reeling silk is stretched, and the problem that the reeling silk processed by multiple processes is poor in smell is avoided.

Claims (9)

1. The utility model provides a weaving processing silk rereeling preloading device, includes installing support (1) and collection box (2), install in installing support (1) top collection box (2), its characterized in that:

a material collecting barrel (4) is installed at the rear upper corner of the material collecting box (2), auxiliary side barrels (401) which are symmetrically distributed are fixedly installed on the left side and the right side of the material collecting barrel (4), a rotary groove (402) is formed in the rear side of each auxiliary side barrel (401), a damping groove (5) is formed in each auxiliary side barrel (401) and located on the outer side of each rotary groove (402), and a first butt joint plate (501) is fixed on the inner wall of each damping groove (5);

the shock absorption device is characterized in that shock absorption frames (6) are arranged in the rotary groove (402), a connecting rod (601) transversely penetrates through and is fixed at the connecting position of the shock absorption frames (6) and the rotary groove (402), the connecting rod (601) is rotatably connected with the rotary groove (402), the outer end of the connecting rod (601) penetrates into the shock absorption groove (5), a second butt plate (602) is fixed on the outer wall of the connecting rod (601) and positioned in the shock absorption groove (5), a shock absorption spring (603) is fixed between the second butt plate (602) and the first butt plate (501), and the shock absorption spring (603) is used for absorbing shock of the rotation of the connecting rod (601);

an extension rod (604) integrated with the connecting rod (601) is fixed at the inner end of the connecting rod (601), the extension rod (604) penetrates into the charging barrel (4) inwards, and a twisting part (7) is fixed at the inner end of the extension rod (604);

the damping device is characterized in that a pre-tightening piece (9) is fixedly connected between the rear upper part and the rear upper part of the two damping frames (6), the pre-tightening piece (9) is located at the head end of the charging barrel (4), the left side and the right side of the inner rear wall of the pre-tightening piece (9) are respectively provided with a limiting channel (901), the limiting channels (901) are respectively and slidably connected with a limiting block (11), the front end of each limiting block (11) is fixedly provided with a support (1101) which is integrated with the limiting block (11), the inner end of the surface of each support (1101) is fixedly provided with a traction spring (1102), the supports (1101) are respectively and internally provided with a material supporting plate (12), the upper end and the lower end of each material supporting plate (12) are respectively and fixedly provided with an outer core (1201), the outer end of each outer core (1201) is embedded into each support (1101) and is rotatably connected with the support, the front end of each traction spring (1102) is fixed on the rear wall of each material supporting plate (12), a plurality of lugs (13) are vertically fixed on the outer wall of each material supporting plate (12), and rubber pads (1301) are embedded at the protruding positions of the outer ends of the lugs (13), the rubber pad (1301) is used for positioning reeling silk;

two back walls are the opposition and are fixed with fixed plate (14) about pretension piece (9), and in fixedly connected with between fixed plate (14) firmware (15), well firmware (15) inside storage tank (1501) have been seted up, and interior storage tank (1501) antetheca one side has been seted up a plurality of and has been passed through release hole (1502) of firmware (15) antetheca, well firmware (15) rear end is equipped with commentaries on classics board (16), and changes board (16) front end middle part and be fixed with pivot (1601), pivot (1601) front end is passed through in firmware (15) back wall and is extended to in storage tank (1501), and pivot (1601) rotate with well firmware (15) and is connected, the scarf joint has cut-off board (1602) in pivot (1601) outer wall front end one side.

2. The re-shaking pre-tightening device for silk in textile processing according to claim 1, characterized in that: the rear end of the limiting block (11) extends out of the rear wall of the pre-tightening piece (9), linkage rods (17) are arranged on the upper side and the lower side of the rear wall of the rotating plate (16), and inner cores (1701) are fixedly penetrated at the inner end and the outer end of each linkage rod (17).

3. The re-shaking pre-tightening device for silk in textile processing according to claim 2, characterized in that: the inner core (1701) at the inner end is embedded into the rotating plate (16) and is rotationally connected with the rotating plate, the outer end of the linkage rod (17) extends to the front end and the rear end of the limiting block (11), and the inner core (1701) at the outer end is embedded into the limiting block (11) and is rotationally connected with the limiting block (11).

4. The re-shaking pre-tightening device for silk in textile processing according to claim 3, characterized in that: linkage rod (17) are the form of buckling, and rotate board (16) and rotate through pivot (1601) and well firmware (15) and be connected, linkage rod (17) inner is rotatory and swing along with rotating board (16), and linkage rod (17) pull stopper (11) and remove about.

5. The re-shaking pre-tightening device for silk in textile processing according to claim 4, characterized in that: the stop plate (1602) rotates along with the rotation of the rotating shaft (1601), and the stop plate (1602) shields the rear end of the release hole (1502).

6. The re-shaking pre-tightening device for silk in textile processing according to claim 1, characterized in that: the inside notch of seting up protruding shape of pretension piece (9), and support flitch (12) to be located the notch, receipts silo (902) have been seted up to the inside front end of pretension piece (9), and receive silo (902) back wall and rotate and be connected with gyro wheel (10) that are transversely arranged, and gyro wheel (10) front end protrusion back wall in receiving silo (902), gyro wheel (10) back wall protrusion in notch, and gyro wheel (10) and support flitch (12) opposition and arrange.

7. The re-shaking pre-tightening device for silk in textile processing according to claim 1, characterized in that: the butt fusion has screwed pipe (8) between preload part (9) front end and receipts feed cylinder (4) head end, and receives silo (902) diapire and is close to in the hookup location department scarf joint of preload part (9) and screwed pipe (8) and has except that material scraper (903), remove material scraper (903) head end and gyro wheel (10) outer wall sliding connection.

8. The re-shaking pre-tightening device for silk in textile processing according to claim 1, characterized in that: the damping frame (6) swings along with the vibration of the pre-tightening piece (9), the twisting pieces (7) are arranged oppositely, and opposite surfaces between the twisting pieces (7) are cambered surfaces and are separated by gaps.

9. The re-shaking pre-tightening device for silk in textile processing according to claim 7, characterized in that: receive between silo (902), screwed pipe (8), receipts feed cylinder (4) and the collection box (2) and communicate with each other, and collection box (2) left side is connected with lid (3) through the screw rotation, lid (3) right wall center is fixed with integrative receipts material axle (301), and receives material axle (301) and transversely arrange in and collect inside magazine (2), it twines winding groove (302) to encircle to have seted up a plurality of circles to receive material axle (301) surface.

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