CN114212593A - Auxiliary positioning and tensioning device for spinning and winding - Google Patents

Abstract

The invention discloses an auxiliary positioning and tensioning device for spinning and winding, which comprises a winding mechanism and a tensioning mechanism, wherein when one end of a warping plate piece far away from a permanent magnet A warps upwards, a top plate drives a piston plate to move upwards and synchronously on the inner side of an air storage tank, when gas enters the inner side of an air collecting hood, the gas enters the inner side of an air bag through a gas pipe, when the air bag expands towards two sides, the air bag drives a push plate to move through a pressing plate, when the push plate moves, the push plate drives a transverse flat plate and a vertical side plate to move synchronously through a convex plate, when the vertical side plate is extruded and moved by the air bag, the vertical side plate drives a toothed plate to move synchronously, when a gear is meshed with the toothed plate, 90-degree rotation is generated, abutting plates on two sides of the gear rotate to the upper end of the gear, so that the baffle and a connecting frame can be jacked upwards, when the connecting frame is jacked upwards, the tensioning roller can move upwards synchronously along with the connecting frame, so that the tensioning roller can tension and adjust the loose woven cloth.

Description

Auxiliary positioning and tensioning device for spinning and winding

Technical Field

The invention relates to the technical field of spinning processing and winding, in particular to an auxiliary positioning and tensioning device for spinning processing and winding.

Background

Nonwoven fabrics, also known as nonwovens, are composed of oriented or random fibers. The non-woven fabric is called as the fabric because of the appearance and certain properties of the fabric, and has the characteristics of moisture resistance, air permeability, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity or irritation, rich color, low price, recycling and the like. If the polypropylene granules are mostly adopted as raw materials and are produced by a continuous one-step method of high-temperature melting, spinning, line laying and hot-pressing coiling, the non-woven fabric has no warps and wefts, is very convenient to cut and sew, is light in weight and easy to shape, is deeply loved by manual enthusiasts, and is rolled into a coil material by a material receiving part of a non-woven fabric rolling processing production line in a mechanical mode, and is widely applied to paper rolls, cloth rolls, plastic rolls and metal coil processing production lines.

However, when the woven fabric is wound into a roll, if the formed non-woven fabric is loose, the formed non-woven fabric cannot be tensioned and adjusted, the wound roll is loose, the condition of scattering and winding is easy to occur in the transportation process, the normal use of the product is influenced, and if the tensioning force is manually adjusted, the device needs to be stopped to operate and adjusted, so that time and labor are wasted, and the overall working efficiency is influenced.

In view of the problems set forth above, this is achieved. We have proposed a spinning processing rolling and using the auxiliary positioning tensioner.

Disclosure of Invention

The invention aims to provide an auxiliary positioning and tensioning device for processing and winding woven fabric, when one end of a warping plate piece, which is far away from a permanent magnet A, is warped upwards, a top plate can be pushed upwards, the top plate drives a piston plate to synchronously move upwards on the inner side of a gas storage box, so that gas can be pushed into the inner side of a gas collecting hood, when the gas enters the inner side of the gas collecting hood, the gas enters the inner side of an air bag through a gas conveying pipe, so that the air bag expands towards two sides to fill the inner side of a movable cavity, when the air bag expands towards the two sides, the air bag drives a push plate to move through a pressing plate, when the push plate moves, the push plate drives a transverse flat plate and a vertical side plate to synchronously move through a convex plate, when the vertical side plate is extruded and moved by the air bag, the vertical side plate drives a toothed plate to synchronously move, when a gear is meshed with the toothed plate, the gear rotates 90 degrees, so that abutting plates on the two sides of the gear rotate to the upper end of the gear, thereby can with baffle and link jack-up upwards, after the link jack-up that makes progress, the tensioning roller will also follow the link and upwards remove in step to make the tensioning roller can carry out the tensioning with lax cloth of spinning and adjust, thereby solved the problem that proposes in the above-mentioned background.

In order to achieve the purpose, the invention provides the following technical scheme: an auxiliary positioning and tensioning device for processing and winding of woven fabric comprises a winding mechanism and a tensioning mechanism, wherein the tensioning mechanism is arranged at the middle lower end of the winding mechanism, the winding mechanism comprises a support frame, a conveying compression roller, a winding roller, a warping plate and a turnover assembly, the upper end of the support frame is provided with the conveying compression roller, one side of the conveying compression roller is provided with the winding roller, the bottom end of the winding roller is provided with the warping plate, and the upper end of the warping plate is provided with the turnover assembly;

the tensioning mechanism comprises a gas storage box, supporting legs, a pushing box, a telescopic adjusting box, an L-shaped fixed plate, a translation assembly, positioning grooves and a positioning tensioning assembly, the gas storage box is arranged at the upper end of one side of the warped plate, the gas storage box is located at the lower end of the middle of the conveying compression roller and the winding roller, the supporting legs are installed on two sides of the gas storage box, the pushing box is installed at the upper end of the gas storage box, the telescopic adjusting box is installed at the upper end of the pushing box, the L-shaped fixed plate is installed on one side of the telescopic adjusting box, the translation assembly is installed on one side of the pushing box and one side of the telescopic adjusting box, the positioning grooves are formed in the top end of the telescopic adjusting box, and the positioning tensioning assembly penetrates through the top end of the telescopic adjusting box through the positioning grooves;

the wane piece includes permanent magnet A, and permanent magnet A is installed to one side upper end that the wane piece kept away from the gas storage box, and permanent magnet A aligns with the lower extreme of upset subassembly.

Further, the overturning assembly comprises a fixing frame, a rotating roller, a rotating cylinder and a permanent magnet B, the fixing frame is arranged at the lower end of the winding roller, the rotating roller is installed on the inner side of the fixing frame, the rotating cylinder is installed on one side of the rotating roller, and the permanent magnet B is installed at one end of the rotating roller.

Further, the gas storage box includes roof, piston plate and gas collecting channel, and the roof runs through the bottom of gas storage box, and the piston plate is installed on the top of roof, and the piston plate is located the inboard of gas storage box, and the gas collecting channel is installed on the inner chamber top of gas storage box.

Further, the gas collecting channel includes slot, gas-supply pipe, fixed snap ring and sealing washer, and the slot has been seted up with the bottom that promotes the case in the top of gas storage tank, and the gas-supply pipe is installed to the one end of gas collecting channel, and the gas-supply pipe runs through the inboard of slot, and fixed snap ring is installed to the upper end outer wall of gas-supply pipe, and the sealing washer is installed to the lower extreme outer wall of gas-supply pipe.

Further, the promotion case includes activity cavity, gasbag, clamp plate and push pedal, and the activity cavity has been seted up to the inboard of promotion case, installs the gasbag in the middle of the inner chamber of activity cavity, and in the middle of the bottom of gasbag and the one end fixed connection of gas-supply pipe, the clamp plate is installed to the both sides of gasbag, and the push pedal is installed to the one side that the gasbag was kept away from to the clamp plate.

Further, flexible regulating box includes unable adjustment base, runner assembly, limiting plate and guiding hole, and unable adjustment base is installed in the bottom four corners of flexible regulating box, and flexible regulating box passes through unable adjustment base and the upper end fixed connection who promotes the case, installs the runner assembly in the middle of the inner chamber of flexible regulating box, and the limiting plate is installed to the inner wall both sides of flexible regulating box, and the guiding hole has been seted up on the surface of limiting plate.

Further, the rotating assembly comprises a gear, a abutting plate, a rotating shaft and bearing seats, the gear is installed in the middle of the inner cavity of the telescopic adjusting box, the abutting plate is installed on two sides of the gear, the rotating shaft penetrates through the abutting plate and the gear, the bearing seats are installed on two sides of the rotating shaft, and the bearing seats are installed on the inner wall of the telescopic adjusting box.

Further, the translation subassembly includes vertical curb plate, horizontal dull and stereotyped, the flange, elastic component and pinion rack, vertical curb plate is installed with one side of flexible regulating box to the promotion case, horizontal dull and stereotyped is installed to bottom one side of vertical curb plate, and horizontal dull and stereotyped runs through one side of promoting the case, the flange is installed to one side that vertical curb plate was kept away from to horizontal dull and stereotyped, and horizontal dull and stereotyped pass through flange and push pedal fixed connection, horizontal dull and stereotyped one side is kept away from to vertical curb plate is installed the elastic component, and elastic component and L type fixed plate fixed connection, the pinion rack is installed to upper end one side of vertical curb plate, and the pinion rack runs through bottom one side through flexible regulating box, the pinion rack meshes with the gear mutually.

Further, location tensioning subassembly includes link, tensioning roller, baffle and guide bar, and the link runs through the top of flexible regulating box through the constant head tank, and the tensioning roller is installed to the upper end of link, and the baffle is installed to the bottom of link, and the baffle with support tight board swing joint, the guide bar is installed to the bottom both sides of baffle, and the guide bar runs through the limiting plate through the guiding hole.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention provides an auxiliary positioning and tensioning device for processing and winding a woven fabric, when the loose woven fabric needs to be tensioned and adjusted, a rotary cylinder can drive a rotary roller to rotate for 180 degrees, a permanent magnet B is rotated to the bottom end of the rotary roller, when the permanent magnet B is positioned at the bottom end of the rotary roller, the permanent magnet B is aligned with a permanent magnet A on one side of the upper end of a wane piece, homopolarity of the permanent magnet A and homopolarity of the permanent magnet A are relatively repelled, the permanent magnet B can downwards prop the permanent magnet A tightly, so that one end of the wane piece far away from the permanent magnet A is upwards tilted, when one end of the wane piece far away from the permanent magnet A is upwards tilted, a top plate can be upwards pushed, when the top plate upwards moves, the top plate drives a piston plate to upwards and synchronously move on the inner side of a gas storage tank, so that gas can be pushed into the inner side of a gas collection tank, and after the gas enters the inner side of the gas collection tank, the air enters the inner side of the air bag through the air conveying pipe, so that the air bag is expanded towards two sides to fill the inner side of the movable cavity, and the air bag is simple, convenient and free of manual adjustment.

2. The invention provides an auxiliary positioning and tensioning device for processing and winding woven fabric, when an air bag expands towards two sides, the air bag drives a push plate to move through a pressing plate, when the push plate moves, the push plate drives a transverse flat plate and a vertical side plate to synchronously move through a convex plate, a gas pipe penetrates through the inner side of a slot, a fixed clamping ring is arranged to prevent the gas pipe from shaking when being impacted by gas, a sealing ring is arranged to prevent a gap from being generated between the gas pipe and the slot, so that the gas can not completely enter the inner side of the gas pipe, when the vertical side plate is extruded and moved by the air bag, the vertical side plate drives a toothed plate to synchronously move, meanwhile, the vertical side plate extrudes an elastic piece on one side of the toothed plate, which is far away from the toothed plate, so that the elastic piece generates deformation, the toothed plate is meshed with a gear to rotate when moving, the gear is meshed with the toothed plate to generate 90-degree rotation, so that abutting plates on two sides of the toothed plate rotate to the upper end of the gear, therefore, the baffle and the connecting frame can be jacked upwards, and after the connecting frame is jacked upwards, the tensioning roller can move upwards along with the connecting frame synchronously, so that loose spinning cloth can be tensioned and adjusted by the tensioning roller, and the spinning cloth can be conveniently wound into a roll during processing.

3. The invention provides an auxiliary positioning and tensioning device for processing and winding textile, when the textile is not required to be tensioned and adjusted, only a rotary cylinder needs to be rotated to enable a warping plate to be separated from the lower end of a top plate, the top plate drives a piston plate to descend, gas in an air bag is also drawn back to the inner side of an air storage box, when the inner side of the air bag is not full of gas, a vertical side plate is rebounded by a deformed elastic part, so that the vertical side plate drives a transverse flat plate to be inserted back to the inner side of a push box, meanwhile, a toothed plate moves along with the vertical side plate and is inserted into the inner side of a telescopic adjusting box, the toothed plate is meshed with a gear when being inserted, the gear rotates, the abutting plate is driven to rotate to one side far away from the toothed plate when the gear rotates, and after the abutting plate rotates, the baffle and the lower end of a connecting frame do not have supporting force, the baffle and the connecting frame drive a tensioning roller to be separated from the textile and fall to the upper end of a limiting plate, the guide bar that the baffle passes through the bottom runs through the guiding hole on spacing board surface, can keep upright state when making it drive the tensioning roller lift adjustment, reduces and rocks.

Drawings

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

FIG. 2 is a schematic view of the tensioning mechanism of the present invention;

FIG. 3 is a schematic structural view of a tilting plate member and a tilting assembly according to the present invention;

FIG. 4 is a schematic view of the internal structure of the air storage tank and the push tank of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a schematic view of the internal structure of the telescopic adjustment box of the present invention;

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

FIG. 8 is a schematic structural view of the translation assembly and the L-shaped fixing plate of the present invention;

fig. 9 is a schematic structural view of the positioning and tensioning assembly of the present invention.

In the figure: 1. a winding mechanism; 11. a support frame; 12. conveying press rolls; 13. a wind-up roll; 14. a seesaw member; 141. a permanent magnet A; 15. a turnover assembly; 151. a fixed mount; 152. a rotating roller; 153. a rotating cylinder; 154. a permanent magnet B; 2. a tensioning mechanism; 21. a gas storage tank; 211. a top plate; 212. a piston plate; 213. a gas-collecting hood; 2131. a slot; 2132. a gas delivery pipe; 2133. fixing the snap ring; 2134. a seal ring; 22. a support leg; 23. a push box; 231. a movable cavity; 232. an air bag; 233. pressing a plate; 234. pushing the plate; 24. a telescopic adjusting box; 241. a fixed base; 242. a rotating assembly; 2421. a gear; 2422. a propping plate; 2423. a rotating shaft; 2424. a bearing seat; 243. a limiting plate; 244. a guide hole; 25. an L-shaped fixing plate; 26. a translation assembly; 261. a vertical side plate; 262. a transverse plate; 263. a convex plate; 264. an elastic member; 265. a toothed plate; 27. positioning a groove; 28. positioning a tensioning assembly; 281. a connecting frame; 282. a tension roller; 283. a baffle plate; 284. a guide rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an auxiliary positioning and tensioning device for processing and winding textile fabric comprises a winding mechanism 1 and a tensioning mechanism 2, wherein the tensioning mechanism 2 is installed at the middle lower end of the winding mechanism 1, the winding mechanism 1 comprises a support frame 11, a conveying compression roller 12, a winding roller 13, a tilted plate member 14 and a turnover assembly 15, the upper end of the support frame 11 is provided with the conveying compression roller 12, one side of the conveying compression roller 12 is provided with the winding roller 13, the bottom end of the winding roller 13 is provided with the tilted plate member 14, the upper end of the tilted plate member 14 is provided with the turnover assembly 15, the tensioning mechanism 2 comprises an air storage box 21, supporting legs 22, a push box 23, a telescopic adjusting box 24, an L-shaped fixing plate 25, a translation assembly 26, a positioning groove 27 and a positioning and tensioning assembly 28, the upper end of one side of the tilted plate member 14 is provided with the air storage box 21, the air storage box 21 is located at the middle lower end of the conveying compression roller 12 and the winding roller 13, the supporting legs 22 are installed at two sides of the air storage box 21, the upper end of the air storage box 21 is provided with a pushing box 23, the upper end of the pushing box 23 is provided with a telescopic adjusting box 24, one side of the telescopic adjusting box 24 is provided with an L-shaped fixing plate 25, one side of the pushing box 23 and one side of the telescopic adjusting box 24 are provided with a translation component 26, the top end of the telescopic adjusting box 24 is provided with a positioning groove 27, a positioning tensioning component 28 penetrates through the top end of the telescopic adjusting box 24 through the positioning groove 27, the rocker 14 comprises a permanent magnet A141, the upper end of one side, far away from the air storage box 21, of the rocker 14 is provided with the permanent magnet A141, the permanent magnet A141 is aligned with the lower end of the overturning component 15, the overturning component 15 comprises a fixing frame 151, a rotating roller 152, a rotating cylinder 153 and a permanent magnet B154, the lower end of the winding roller 13 is provided with a fixing frame 151, the rotating roller 152 is arranged on the inner side of the fixing frame 151, a rotating cylinder 153 is arranged on one side of the rotating roller 152, and the model number of the rotating cylinder 153 is SMC-QB 10A, one end of the rotating roller 152 is mounted with a permanent magnet B154.

Referring to fig. 4-5, an auxiliary positioning and tensioning device for processing and winding woven fabric is disclosed, wherein an air storage tank 21 comprises a top plate 211, a piston plate 212 and an air collection cover 213, the top plate 211 penetrates through the bottom end of the air storage tank 21, the top end of the top plate 211 is provided with the piston plate 212, the piston plate 212 is positioned on the inner side of the air storage tank 21, the top end of an inner cavity of the air storage tank 21 is provided with the air collection cover 213, the air collection cover 213 comprises an insertion groove 2131, air pipes 2132, a fixed snap ring 2133 and a sealing ring 2134, the top end of the air storage tank 21 and the bottom end of a push box 23 are provided with the insertion groove 2131, one end of the air collection cover 213 is provided with the air pipes 2132, the air pipes 2132 penetrate through the inner side of the insertion groove 2131, the outer wall of the upper end of the air pipes 2132 is provided with the fixed snap ring 2133, the outer wall of the lower end of the air pipes 2132 is provided with the sealing ring 2134, the push box 23 comprises a movable cavity 231, an air bag 232, a pressing plate 233 and a push plate 234, the inner side of the push box 23 is provided with a movable cavity 231, an air bag 232 is arranged in the middle of the inner cavity of the movable cavity 231, the middle of the bottom end of the air bag 232 is fixedly connected with one end of an air pipe 2132, pressing plates 233 are arranged on two sides of the air bag 232, a pushing plate 234 is arranged on one side of the pressing plate 233 far away from the air bag 232, when slack woven cloth needs to be tensioned and adjusted, the rotating cylinder 153 can drive the rotating roller 152 to rotate 180 degrees, the permanent magnet B154 is rotated to the bottom end of the rotating roller 152, when the permanent magnet B154 is positioned at the bottom end of the rotating roller 152, the permanent magnet B154 is aligned with the permanent magnet A141 on one side of the upper end of the warped plate 14, the homopolarity of the permanent magnet B154 and the permanent magnet A141 are repelled mutually, the permanent magnet B154 can press the permanent magnet A141 downwards, so that one end of the warped plate 14 far away from the permanent magnet A141 is tilted upwards, when one end of the warped plate 14 far away from the permanent magnet A141 is tilted upwards, the top plate 211 can be pushed upwards, when the top plate 211 moves upwards, the top plate 211 drives the piston plate 212 to move upwards synchronously in the inner side of the gas storage box 21, so that gas can be pushed into the inner side of the gas collecting hood 213, and after the gas enters the inner side of the gas collecting hood 213, the gas enters the inner side of the air bag 232 through the gas conveying pipe 2132, so that the gas is inflated to two sides to fill the inner side of the movable cavity 231, and the gas storage device is simple, convenient and free of manual adjustment.

Referring to fig. 6-7, an auxiliary positioning and tensioning device for spinning and winding, a telescopic adjusting box 24 includes a fixing base 241, a rotating component 242, a limiting plate 243 and a guiding hole 244, the fixing base 241 is installed at four corners of the bottom end of the telescopic adjusting box 24, the telescopic adjusting box 24 is fixedly connected with the upper end of the pushing box 23 through a fixing base 241, a rotating assembly 242 is installed in the middle of an inner cavity of the telescopic adjusting box 24, limiting plates 243 are installed on two sides of the inner wall of the telescopic adjusting box 24, guide holes 244 are formed in the surface of the limiting plates 243, the rotating assembly 242 comprises a gear 2421, a resisting plate 2422, a rotating shaft 2423 and bearing seats 2424, a gear 2421 is installed in the middle of the inner cavity of the telescopic adjusting box 24, resisting plates 2422 are installed on two sides of the gear 2421, the rotating shaft 2423 penetrates through the gear 2421 through the resisting plate 2422, the bearing seats 2424 are installed on two sides of the rotating shaft 2423, and the bearing seats 2424 are installed on the inner wall of the telescopic adjusting box 24.

Referring to fig. 8-9, an auxiliary positioning and tensioning device for spinning and winding, the translating assembly 26 includes a vertical side plate 261, a horizontal flat plate 262, a convex plate 263, an elastic member 264 and a toothed plate 265, the vertical side plate 261 is installed at one side of the push box 23 and the telescopic adjusting box 24, the horizontal flat plate 262 is installed at one side of the bottom end of the vertical side plate 261, the horizontal flat plate 262 penetrates through one side of the push box 23, the convex plate 263 is installed at one side of the horizontal flat plate 262 far away from the vertical side plate 261, the horizontal flat plate 262 is fixedly connected with the push plate 234 through the convex plate 263, the elastic member 264 is installed at one side of the vertical side plate 261 far away from the horizontal flat plate 262, the elastic member 264 is fixedly connected with the L-shaped fixing plate 25, the toothed plate 265 is installed at one side of the upper end of the vertical side plate 261, the toothed plate 265 penetrates through one side of the bottom end of the telescopic adjusting box 24, the toothed plate 265 is engaged with the gear 2421, the positioning and tensioning assembly 28 includes a connecting frame 281, a horizontal side plate 263, a horizontal side plate 262 is installed at one side of the pushing side of the horizontal side 23, a horizontal side plate 262 is installed at the horizontal side of the horizontal side plate 262 is installed at the horizontal side of the horizontal side plate 262, a horizontal side plate 262 is installed at the vertical side plate 261, a horizontal side is installed at which is installed at the same side of the same time, a side of the same, The tensioning roller 282, the baffle 283 and the guide rod 284, the connecting frame 281 penetrates through the top end of the telescopic adjusting box 24 through the positioning groove 27, the tensioning roller 282 is installed at the upper end of the connecting frame 281, the baffle 283 is installed at the bottom end of the connecting frame 281, and the baffle 283 is movably connected with the abutting plate 2422, when the air bag 232 expands towards two sides, the air bag 232 drives the push plate 234 to move through the press plate 233, when the push plate 234 moves, the push plate 234 drives the transverse flat plate 262 and the vertical side plate 261 to move synchronously through the convex plate 263, and the air pipe 2132 penetrates through the inner side of the slot 2131, the arranged fixing snap ring 2133 prevents the air pipe 2132 from shaking when being impacted by air, the arranged sealing ring 2134 prevents a gap from being generated between the air pipe 2132 and the slot 2131, so that air can not enter the inner side of the air pipe 2132 completely, when the vertical side plate 261 is extruded and moved by the air bag 232, the vertical side plate 261 drives the toothed plate 265 to move synchronously, meanwhile, the vertical side plate 261 extrudes the elastic part 264 at one side far away from the toothed plate 265 to deform the elastic part, the toothed plate 265 is meshed with the gear 2421 to rotate when moving, the gear 2421 is meshed with the toothed plate 265 to rotate 90 degrees, the abutting plates 2422 at two sides of the toothed plate 2421 rotate to the upper end of the gear 2421, so that the baffle 283 and the connecting frame 281 can be jacked upwards, the tensioning roller 282 synchronously moves upwards along with the connecting frame 281 after the connecting frame 281 is jacked upwards, so that the tensioning roller 282 can tension and adjust loose woven fabric to facilitate the woven fabric to be wound into a coil during processing, the guide rods 284 are installed at two sides of the bottom end of the baffle 283, and the guide rods 284 penetrate through the limiting plate 243 through the guide holes 244, when the woven fabric is not required to be tensioned and adjusted, the rotary cylinder 153 is only required to rotate, so that the warping plate 14 is separated from the lower end of the top plate 211, and the top plate 211 drives the piston plate 212 to descend, the air in the air bag 232 is also drawn back to the inner side of the air storage box 21, when the inner side of the air bag 232 is not full of air, the vertical side plate 261 is rebounded by the deformed elastic member 264, so that the vertical side plate 261 drives the transverse flat plate 262 to be inserted back to the inner side of the push box 23, meanwhile, the toothed plate 265 moves along with the vertical side plate 261 and is inserted into the inner side of the telescopic adjusting box 24, the toothed plate 265 is engaged with the gear 2421 when inserted, so that the gear 2421 rotates, when the gear 2421 rotates, the tightening plate 2422 is driven to rotate to the side far away from the toothed plate 265, after the tightening plate 2422 rotates, because the baffle 283 and the lower end of the connecting frame 281 has no supporting force, the baffle 283 drives the tensioning roller 282 to fall to the upper end of the limiting plate 243 away from the fabric, the baffle 283 penetrates through the guiding hole 244 on the surface of the limiting plate 243 through the guiding rod 284 at the bottom end, so that the adjustment can keep the upright state when the tensioning roller 282 is driven to lift, reducing sloshing.

In summary, the following steps: when the loose woven fabric needs to be tensioned and adjusted, the rotary cylinder 153 can drive the rotary roller 152 to rotate for 180 degrees, the permanent magnet B154 rotates to the bottom end of the rotary roller 152, when the permanent magnet B154 is positioned at the bottom end of the rotary roller 152, the permanent magnet B154 is aligned with the permanent magnet A141 at one side of the upper end of the warped plate 14, the homopolarity of the permanent magnet B154 and the permanent magnet A141 is opposite to each other and repulsed, the permanent magnet B154 can downwards prop against the permanent magnet A141, so that one end of the warped plate 14 far away from the permanent magnet A141 is upwards lifted, when one end of the warped plate 14 far away from the permanent magnet A141 is upwards lifted, the top plate 211 can be upwards pushed, when the top plate 211 moves upwards, the top plate 211 drives the piston plate 212 to upwards and synchronously move on the inner side of the air storage box 21, so that air can be pushed into the inner side of the air collection hood 213, when gas enters the inner side of the gas collecting hood 213, the gas enters the inner side of the gas bag 232 through the gas pipe 2132, so that the gas is expanded towards two sides to fill the inner side of the movable cavity 231, the gas bag 232 is simple and convenient, manual adjustment is not needed, when the gas bag 232 is expanded towards two sides, the gas bag 232 drives the push plate 234 to move through the press plate 233, when the push plate 234 moves, the push plate 234 drives the transverse flat plate 262 and the vertical side plate 261 to move synchronously through the convex plate 263, the gas pipe 2132 penetrates through the inner side of the slot 2131, the arranged fixed snap ring 2133 prevents the gas pipe 2132 from shaking when being impacted by the gas, the arranged seal ring 2134 prevents a gap from being generated between the gas pipe 2132 and the slot 2131, so that the gas can not completely enter the inner side of the gas pipe 2132, when the vertical side plate 261 is extruded and moved by the gas bag 232, the vertical side plate 261 drives the toothed plate 265 to move synchronously, and simultaneously, the vertical side plate 261 extrudes the elastic piece 264 far away from one side of the toothed plate 265 to deform, when the toothed plate 265 moves, the toothed plate 265 is engaged with the gear 2421 to rotate the gear 2421, when the gear 2421 is engaged with the toothed plate 265, 90-degree rotation is generated, the abutting plates 2422 on two sides of the gear 2421 rotate to the upper end of the gear 2421, so that the baffle 283 and the connecting frame 281 can be jacked upwards, when the connecting frame 281 is jacked upwards, the tensioning roller 282 synchronously moves upwards along with the connecting frame 281, so that the tensioning roller 282 can tension and adjust the loose woven fabric, the woven fabric is convenient to be wound into a coil during processing, when the woven fabric is not required to be tensioned and adjusted, only the rotary cylinder 153 is required to be rotated, so that the tilting plate 14 is separated from the lower end of the top plate 211, the top plate 211 drives the piston plate 212 to descend, the gas in the air bag 232 is also pumped back to the inner side of the air storage tank 21, when the inner side of the air bag 232 is not filled with gas, the vertical side plate is rebounded by the deformed elastic piece 264, so that the vertical side plate 261 drives the horizontal plate 262 to be inserted back to the inner side of the push tank 23, meanwhile, the toothed plate 265 also moves along with the vertical side plate 261 and is inserted into the inner side of the telescopic adjusting box 24, the toothed plate 265 is meshed with the gear 2421 when being inserted, the gear 2421 rotates, the gear 2421 drives the abutting plate 2422 to rotate to one side far away from the toothed plate 265 when rotating, after the abutting plate 2422 rotates, because the baffle 283 and the lower end of the connecting frame 281 have no supporting force, the baffle 283 and the connecting frame 281 drive the tensioning roller 282 to be separated from the spinning cloth and fall to the upper end of the limiting plate 243, and the baffle 283 penetrates through the guide hole 244 in the surface of the limiting plate 243 through the guide rod 284 at the bottom end, so that the baffle 283 can keep an upright state when driving the tensioning roller 282 to lift and adjust, and the shaking is reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a spin cloth processing rolling and use assistance-localization real-time overspeed device tensioner, includes winding mechanism (1) and straining device (2), and straining device (2) are installed at the middle lower extreme of winding mechanism (1), its characterized in that: the winding mechanism (1) comprises a support frame (11), a conveying compression roller (12), a winding roller (13), a warping plate piece (14) and a turning assembly (15), wherein the upper end of the support frame (11) is provided with the conveying compression roller (12), the winding roller (13) is arranged on one side of the conveying compression roller (12), the bottom end of the winding roller (13) is provided with a warping plate piece (14), and the upper end of the warping plate piece (14) is provided with the turning assembly (15);

the tensioning mechanism (2) comprises an air storage box (21), a supporting leg (22), a pushing box (23), a telescopic adjusting box (24), an L-shaped fixing plate (25), a translation assembly (26), a positioning groove (27) and a positioning tensioning assembly (28), the air storage box (21) is arranged at the upper end of one side of the tilting plate (14), the air storage box (21) is located at the lower end of the middle of the conveying compression roller (12) and the winding roller (13), supporting legs (22) are mounted on two sides of the air storage box (21), a pushing box (23) is mounted at the upper end of the air storage box (21), a telescopic adjusting box (24) is mounted at the upper end of the pushing box (23), an L-shaped fixing plate (25) is mounted on one side of the telescopic adjusting box (24), a translation assembly (26) is mounted on one side of the pushing box (23) and one side of the telescopic adjusting box (24), a positioning groove (27) is formed in the top end of the telescopic adjusting box (24), and a positioning tensioning assembly (28) penetrates through the top end of the telescopic adjusting box (24) through the positioning groove (27);

the tilting plate piece (14) comprises a permanent magnet A (141), the permanent magnet A (141) is installed at the upper end of one side, away from the air storage box (21), of the tilting plate piece (14), and the permanent magnet A (141) is aligned with the lower end of the overturning component (15).

2. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 1, characterized in that: the overturning assembly (15) comprises a fixed frame (151), a rotating roller (152), a rotating cylinder (153) and a permanent magnet B (154), the fixed frame (151) is arranged at the lower end of the winding roller (13), the rotating roller (152) is installed on the inner side of the fixed frame (151), the rotating cylinder (153) is installed on one side of the rotating roller (152), and the permanent magnet B (154) is installed at one end of the rotating roller (152).

3. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 1, characterized in that: the gas storage box (21) comprises a top plate (211), a piston plate (212) and a gas collecting hood (213), the top plate (211) penetrates through the bottom end of the gas storage box (21), the piston plate (212) is installed at the top end of the top plate (211), the piston plate (212) is located on the inner side of the gas storage box (21), and the gas collecting hood (213) is installed at the top end of an inner cavity of the gas storage box (21).

4. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 3, characterized in that: gas collecting channel (213) include slot (2131), gas-supply pipe (2132), fixed snap ring (2133) and sealing washer (2134), slot (2131) have been seted up with the bottom that promotes case (23) to the top of gas storage box (21), gas-supply pipe (2132) are installed to the one end of gas collecting channel (213), and gas-supply pipe (2132) run through the inboard of slot (2131), fixed snap ring (2133) are installed to the upper end outer wall of gas-supply pipe (2132), sealing washer (2134) are installed to the lower extreme outer wall of gas-supply pipe (2132).

5. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 1, characterized in that: promote case (23) including activity cavity (231), gasbag (232), clamp plate (233) and push pedal (234), activity cavity (231) have been seted up to the inboard of promoting case (23), install gasbag (232) in the middle of the inner chamber of activity cavity (231), and the one end fixed connection of the middle and gas-supply pipe (2132) of bottom of gasbag (232), clamp plate (233) are installed to the both sides of gasbag (232), push pedal (234) are installed to one side that gasbag (232) were kept away from in clamp plate (233).

6. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 1, characterized in that: flexible regulating box (24) includes unable adjustment base (241), rotating assembly (242), limiting plate (243) and guiding hole (244), unable adjustment base (241) are installed to the bottom four corners of flexible regulating box (24), and flexible regulating box (24) pass through unable adjustment base (241) and the upper end fixed connection who promotes case (23), rotating assembly (242) are installed in the middle of the inner chamber of flexible regulating box (24), limiting plate (243) are installed to the inner wall both sides of flexible regulating box (24), guiding hole (244) have been seted up on the surface of limiting plate (243).

7. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 6, characterized in that: rotating assembly (242) includes gear (2421), support tight board (2422), pivot (2423) and bearing frame (2424), gear (2421) is installed in the middle of the inner chamber of flexible adjusting box (24), support tight board (2422) is installed to the both sides of gear (2421), pivot (2423) run through with gear (2421) through supporting tight board (2422), bearing frame (2424) are installed to the both sides of pivot (2423), and the inner wall at flexible adjusting box (24) is installed in bearing frame (2424).

8. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 1, characterized in that: the translation assembly (26) comprises a vertical side plate (261), a horizontal flat plate (262), a convex plate (263), an elastic piece (264) and a toothed plate (265), the vertical side plate (261) is installed on one side of the push box (23) and the telescopic adjusting box (24), the horizontal flat plate (262) is installed on one side of the bottom end of the vertical side plate (261), the horizontal flat plate (262) penetrates through one side of the push box (23), the convex plate (263) is installed on one side, far away from the vertical side plate (261), of the horizontal flat plate (262), the transverse flat plate (262) is fixedly connected with the push plate (234) through the convex plate (263), the elastic piece (264) is installed on one side, far away from the horizontal flat plate (262), of the vertical side plate (261), the elastic piece (264) is fixedly connected with the L-shaped fixing plate (25), the toothed plate (265) is installed on one side of the upper end of the vertical side plate (261), and the toothed plate (265) penetrates through one side of the bottom end of the telescopic adjusting box (24), the toothed plate (265) is meshed with the gear (2421).

9. The auxiliary positioning and tensioning device for spinning and winding as claimed in claim 1, characterized in that: location tensioning subassembly (28) are including link (281), tensioning roller (282), baffle (283) and guide bar (284), link (281) run through the top of flexible regulating box (24) through constant head tank (27), tensioning roller (282) are installed to the upper end of link (281), baffle (283) are installed to the bottom of link (281), and baffle (283) with support tight board (2422) swing joint, guide bar (284) are installed to the bottom both sides of baffle (283), and guide bar (284) run through limiting plate (243) through guiding hole (244).

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