CN113123035B - High silica glass fiber yarn preparation facilities excels in - Google Patents

Abstract

The invention relates to the field of glass fiber products, in particular to a high-strength high-silica glass fiber yarn preparation device. The technical problem is as follows: provides a device for preparing high-strength high-silica glass fiber yarns. A high-strength high-silica glass fiber yarn preparation device comprises a working frame plate, a control display screen, an acid liquor yarn soaking system and the like; the control display screen is connected with the working frame plate. The acid liquor spraying device achieves the effects that acid liquor spraying is carried out on the yarn roll from inside to outside, the acid liquor covering on the surface of the yarn roll can be used for ensuring that the whole yarn roll contains acid, the yarn roll is stirred in the glue liquor to accelerate the immersion of the glue liquor, and meanwhile, the redundant glue liquor of the yarn roll is rapidly collected and reflowed to accelerate the working process.

Description

High silica glass fiber yarn preparation facilities excels in

Technical Field

The invention relates to the field of glass fiber products, in particular to a high-strength high-silica glass fiber yarn preparation device.

Background

The high silica glass fiber yarn has excellent performances of temperature resistance, ablation resistance and the like, and is widely applied to the fields of spaceflight, aviation and the like.

At present, the high silica glass fiber yarn is usually manufactured by winding raw yarn on a yarn frame and then immersing the raw yarn into acid liquor, detecting the acid-containing state of the surface of a yarn roll through pH test paper, carrying out heat setting after the acid immersion is finished, immersing the yarn roll into the acid liquor after the setting is finished, and then suspending the yarn roll until the yarn does not drip glue.

In view of the above, a device for preparing high strength and high silica glass fiber yarn is urgently needed to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the prior art for manufacturing the high silica glass fiber yarn generally comprises the steps of winding raw yarn on a yarn frame, immersing the raw yarn into acid liquor, detecting the acid-containing state of the surface of a yarn roll through pH test paper, carrying out heat setting after the acid immersion is finished, immersing the yarn roll into the acid liquor after the setting is finished, and then suspending the yarn roll until the yarn does not drip, but because the whole yarn roll is immersed into the acid liquor, the high silica glass fiber yarn is wound layer by layer and compact after being wound, the acid liquor can not be immersed rapidly, namely the inside of the yarn roll can not be fully immersed with the acid liquor, and only the surface of the yarn roll is detected, an area which is not immersed with the acid liquor can be left inside the yarn roll, the flowability of the glue liquor is poor, the dipping speed is low, and the time for dripping redundant glue liquor on the yarn roll is long, so that the manufacturing time of a product is prolonged, the technical problems are solved: provides a device for preparing high-strength high-silica glass fiber yarns.

A high silica glass fiber yarn preparation facilities excels in, including:

a working frame plate;

the control display screen is connected with the working frame plate;

the acid liquor yarn soaking system is connected with the working frame plate;

the glue solution dipping system is connected with the working frame plate and the acid solution yarn dipping system;

the glue dripping collecting system is connected with the working frame plate and the glue solution dipping system.

Optionally, the acid yarn soaking system comprises:

the stepping motor is connected with the working frame plate through bolts;

the first driving wheel is fixedly connected with an output shaft of the stepping motor and is connected with the glue solution impregnation system;

the second driving wheel is fixedly connected with an output shaft of the stepping motor;

the outer ring surface of the third driving wheel is in transmission connection with the second driving wheel through a belt;

the first transmission shaft is fixedly connected with the third transmission wheel and is rotationally connected with the working frame plate through a support;

the transmission plate is fixedly connected with the first transmission shaft;

the linkage frame plate is in transmission connection with the transmission plate;

the connecting strip is fixedly connected with the linkage frame plate;

the gear tooth sliding plate is fixedly connected with the connecting strip;

the limiting slide rail is in sliding connection with the gear tooth slide plate and is in bolted connection with the working frame plate through the bracket;

the first flat gear is meshed with the gear tooth sliding plate;

the second transmission shaft is fixedly connected with the first flat gear;

the second flat gear is fixedly connected with the second transmission shaft;

the first gear ring is meshed with the second flat gear;

the outer ring surface of the first embedding disc is fixedly connected with the first gear ring;

the yarn loading assembly is connected with the first embedded disc;

the first fixing plate is rotatably connected with the second transmission shaft, the first fixing plate is rotatably connected with the first embedding plate, and the first fixing plate is fixedly connected with the working frame plate through a bracket;

the connecting cylinder is fixedly connected with the first fixing plate;

the gathering plate is fixedly connected with the connecting cylinder;

the liquid spraying head is connected with the collecting plate;

the first limiting support plate is connected with the connecting cylinder;

two groups of first electric push rods are arranged, are in bolted connection with the first limiting support plate and are in bolted connection with the working frame plate;

the second limiting support plate is connected with the yarn carrying component;

two groups of second electric push rods are arranged, are in bolted connection with the second limiting support plate and are in bolted connection with the working frame plate;

the connecting plate is fixedly connected with the linkage frame plate;

the carrying frame plate is fixedly connected with the connecting plate;

the auxiliary sliding block is fixedly connected with the carrying frame plate;

and the auxiliary sliding rail is in sliding connection with the auxiliary sliding block, and the auxiliary sliding rail is in bolted connection with the working frame plate.

Optionally, the glue solution dipping system comprises:

the outer ring surface of the fourth driving wheel is in transmission connection with the first driving wheel through a belt;

the third transmission shaft is fixedly connected with the fourth transmission wheel and is rotatably connected with the working frame plate through a bracket;

the fifth driving wheel is fixedly connected with the third transmission shaft and is connected with the glue dripping collection system;

the sixth driving wheel is fixedly connected with the third transmission shaft;

the third pinion is fixedly connected with the third transmission shaft;

the outer ring surface of the seventh driving wheel is in transmission connection with the sixth driving wheel through a belt;

the fourth transmission shaft is fixedly connected with the seventh transmission wheel and is rotatably connected with the working frame plate through a bracket;

the fourth flat gear is fixedly connected with the fourth transmission shaft;

the second gear ring is meshed with the third gear;

the outer ring surface of the second embedded disc is fixedly connected with the second gear ring;

the second fixing plate is rotatably connected with the second embedded disc;

two groups of third electric push rods are arranged, the two groups of third electric push rods are connected with the second fixing plate through bolts, and the two groups of third electric push rods are connected with the working frame plate through bolts;

the glue solution box is arranged on the side surface of the second embedded disc and is fixedly connected with the working frame plate;

the third limiting support plate is arranged on one side, away from the second embedded disc, of the glue solution box;

and the four electric push rods are provided with two groups, the two groups of the four electric push rods are connected with the third limiting support plate through bolts, and the two groups of the four electric push rods are connected with the working frame plate through bolts.

Optionally, the drip glue collecting system comprises:

the outer ring surface of the eighth driving wheel is in transmission connection with the fifth driving wheel through a belt;

the hexagonal rod is fixedly connected with the eighth driving wheel and is rotatably connected with the working frame plate through a bracket;

the transmission sleeve is connected with the hexagonal rod in a sliding manner;

the first bevel gear is fixedly connected with the transmission sleeve;

the connecting plate is rotatably connected with the transmission sleeve through a bearing;

the fifth electric push rod is connected with the connecting plate through a bolt, and the fifth electric push rod is connected with the working frame plate through a bolt;

the second bevel gear is arranged on the side surface of the first bevel gear;

the screw rod is fixedly connected with the second bevel gear and is rotationally connected with the working frame plate through a bracket;

the U-shaped frame is in screwed connection with the screw rod;

the liquid draining plate is fixedly connected with the U-shaped frame;

and the sliding rod is connected with the U-shaped frame in a sliding manner and is fixedly connected with the working frame plate through a support.

Optionally, the yarn carrier assembly comprises:

a first combining ring;

the clamping ring is fixedly connected with the first combination ring and is rotationally connected with the second limiting support plate;

the supporting round rod is fixedly connected with the first combination ring;

the second combined ring is fixedly connected with the supporting round rod;

and the embedded block is fixedly connected with the second combined ring and is connected with the first embedded disc.

Optionally, the side end portion of one side of the driving plate is provided with an extension block.

Optionally, six sets of supporting round rods are arranged between the first combined ring and the second combined ring at equal intervals around the circumference.

Optionally, four sets of the engaging blocks are equidistantly arranged on one side of the second combining ring, and four sets of the grooves matched with the four sets of the engaging blocks are respectively arranged on one side of the first engaging disc and one side of the second engaging disc.

The invention has the beneficial effects that: 1. the method aims to solve the problems that the existing method for manufacturing the high silica glass fiber yarn generally comprises the steps of winding raw yarn on a yarn frame, immersing the raw yarn into acid liquor, detecting the acid-containing state of the surface of a yarn roll through pH test paper, carrying out heat setting after the acid immersion is finished, immersing the yarn roll into the acid liquor after the setting is finished, then suspending the yarn roll until the yarn does not drip, but because the whole yarn roll is immersed into the acid liquor, the high silica glass fiber yarn is wound layer by layer and compact after the winding, the acid liquor cannot be immersed rapidly, namely the inside of the yarn roll cannot be fully immersed into the acid liquor, and only the surface of the yarn roll is detected, an area which is not immersed into the acid liquor is left inside the yarn roll, the flowability of the acid liquor is poor, the impregnation rate is low, the time is long when the yarn roll drips redundant glue liquor, and the manufacturing time of a product is prolonged;

2. an acid liquor yarn dipping system, a glue solution dipping system and a glue dripping collecting system are designed, when the device is used, a yarn roll is placed in the acid liquor yarn dipping system, acid liquor spraying from inside to outside is carried out on the yarn roll through the acid liquor yarn dipping system, the yarn roll can be judged to be totally immersed in the acid liquor after the surface of the yarn roll is covered with the acid liquor, then the yarn roll is taken away manually and placed in a heat setting furnace for high-temperature heat setting, then the yarn roll is placed in the glue solution dipping system, the glue solution dipping system is driven through the acid liquor yarn dipping system, the glue solution is immersed into the yarn roll through the glue solution dipping system, the glue dripping collecting system is driven through the glue solution dipping system, and finally the glue solution on the outer surface of the yarn roll is collected and refluxed through the glue dripping collecting system;

3. the effect of spraying the acid liquor from inside to outside on the yarn roll is achieved, the acid liquor on the surface of the yarn roll can be covered to ensure that the whole yarn roll contains acid, the yarn roll is stirred in the acid liquor to accelerate the immersion of the acid liquor, meanwhile, the redundant acid liquor of the yarn roll is rapidly collected and reflowed, and the working process is accelerated.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic view of a first perspective view of the acid liquor yarn immersion system of the present invention;

FIG. 4 is a schematic view of a second perspective view of the acid liquor yarn immersion system of the present invention;

FIG. 5 is a schematic diagram of a first three-dimensional structure of a glue solution dipping system according to the present invention;

FIG. 6 is a schematic diagram of a second three-dimensional structure of the glue solution dipping system of the present invention;

FIG. 7 is a schematic view of a first perspective structure of the drip glue collecting system of the present invention;

FIG. 8 is a schematic diagram of a second perspective view of the drip glue collecting system of the present invention;

FIG. 9 is a perspective view of the yarn carrier assembly of the present invention;

fig. 10 is a perspective view of the first toothed ring and the first engaging disk of the present invention.

Reference numbers in the drawings: 1: working frame plate, 2: control display screen, 3: acid liquor yarn immersion system, 4: glue solution impregnation system, 5: drip glue collection system, 301: stepping motor, 302: first drive wheel, 303: second transmission wheel, 304: third transmission wheel, 305: first drive shaft, 306: drive plate, 307: linkage frame plate, 308: connecting strip, 309: gear tooth slide, 3010: spacing slide rail, 3011: first spur gear, 3012: second drive shaft, 3013: second spur gear, 3014: first ring gear, 3015: first chimeric disk, 3016: yarn carrier assembly, 3017: first fixing plate, 3018: connecting cylinder, 3019: aggregate plate, 3020: liquid ejecting head, 3021: first spacing extension board, 3022: first electric putter, 3023: second spacing extension board, 3024: second electric putter, 3025: connecting plate, 3026: carrying frame plate, 3027: auxiliary slider, 3028: auxiliary slide rail, 401: fourth drive wheel, 402: third transmission shaft, 403: fifth transmission wheel, 404: sixth transmission wheel, 405: third spur gear, 406: seventh transmission wheel, 407: fourth drive shaft, 408: fourth flat gear, 409: second ring gear, 4010: second chimeric disk, 4011: second fixing plate, 4012: third electric putter, 4013: glue tank, 4014: third spacing extension board, 4015: fourth electric putter, 501: eighth transmission wheel, 502: hexagonal rod, 503: driving sleeve, 504: first bevel gear, 505: connector tile, 506: fifth electric putter, 507: second bevel gear, 508: screw rod, 509: u-shaped holder, 5010: leachate board, 5011: slide bar, 301601: first set of rings, 301602: card ring, 301603: support round bar, 301604: second combined ring, 301605: a fitting block.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

A high-strength high-silica glass fiber yarn preparation device is shown in figures 1-10 and comprises a working frame plate 1, a control display screen 2, an acid liquor yarn soaking system 3, a glue liquor soaking system 4 and a glue dripping collection system 5; the control display screen 2 is connected with the working frame plate 1; the acid liquor yarn soaking system 3 is connected with the working frame plate 1; the glue solution dipping system 4 is connected with the working frame plate 1, and the glue solution dipping system 4 is connected with the acid solution yarn dipping system 3; the glue dripping collecting system 5 is connected with the working frame plate 1, and the glue dripping collecting system 5 is connected with the glue solution dipping system 4.

The working principle is as follows: when the device is used, the device is horizontally fixed at a position required to be used, a power supply is connected externally, an operator controls the display screen 2 to carry out overall allocation on the device, the device is debugged firstly, the device starts to work after debugging is finished, sufficient acid liquor and glue liquor are prepared, yarn is wound and placed in the acid liquor yarn soaking system 3, the yarn is sprayed with the acid liquor from inside to outside through the acid liquor yarn soaking system 3, the yarn roll can be judged to be completely soaked in the acid liquor after being covered with the acid liquor on the surface of the yarn roll, then the yarn roll is taken away manually and placed in a heat setting furnace for high-temperature heat setting, then the yarn roll is placed in the glue liquor soaking system 4, the glue liquor soaking system 4 is driven through the acid liquor yarn soaking system 3, the yarn roll is soaked in the glue liquor through the glue liquor soaking system 4, the glue dripping collection system 5 is driven through the glue dripping collection system 4, finally the glue liquor on the outer surface of the yarn roll is collected and refluxed through the glue liquor collection system 5, the acid liquor on the surface of the yarn roll is sprayed from inside to outside, the whole yarn roll is covered, the acid liquor is stirred, and the backflow process of the yarn roll is accelerated, and the excess glue liquor is collected in the yarn roll, and the yarn roll is collected quickly.

The acid liquor yarn immersion system 3 comprises a stepping motor 301, a first driving wheel 302, a second driving wheel 303, a third driving wheel 304, a first driving shaft 305, a driving plate 306, a linkage frame plate 307, a connecting strip 308, a gear tooth sliding plate 309, a limit sliding rail 3010, a first flat gear 3011, a second driving shaft 3012, a second flat gear 3013, a first toothed ring 3014, a first embedded disc 3015, a yarn carrying assembly 3016, a first fixing plate 3017, a connecting cylinder 3018, a gathering plate 3019, a liquid spraying head 3020, a first limit support plate 3021, a first electric push rod 3022, a second limit support plate 3023, a second electric push rod 3024, a connecting plate 3025, a carrying frame plate 3026, an auxiliary slider 3027 and an auxiliary sliding rail 3028; the stepping motor 301 is connected with the working frame plate 1 through bolts; the first driving wheel 302 is fixedly connected with an output shaft of the stepping motor 301, and the first driving wheel 302 is connected with the glue solution impregnation system 4; the second driving wheel 303 is fixedly connected with the output shaft of the stepping motor 301; the outer ring surface of the third driving wheel 304 is in transmission connection with the second driving wheel 303 through a belt; the first transmission shaft 305 is fixedly connected with the third transmission wheel 304, and the first transmission shaft 305 is rotatably connected with the working frame plate 1 through a bracket; the transmission plate 306 is fixedly connected with the first transmission shaft 305; the linkage frame plate 307 is in transmission connection with the transmission plate 306; the connecting bar 308 is fixedly connected with the linkage frame plate 307; the gear tooth sliding plate 309 is fixedly connected with the connecting strip 308; the limiting slide rail 3010 is connected with the gear tooth slide plate 309 in a sliding manner, and the limiting slide rail 3010 is connected with the working frame plate 1 through a bracket by a bolt; the first spur gear 3011 intermeshes with the gear tooth slide 309; the second transmission shaft 3012 is fixedly connected with the first flat gear 3011; the second flat gear 3013 is fixedly connected to the second transmission shaft 3012; the first gear ring 3014 and the second flat gear 3013 are engaged with each other; the outer ring surface of the first embedded disc 3015 is fixedly connected with the first gear ring 3014; the yarn carrying component 3016 is connected with the first embedding disc 3015; the first fixing plate 3017 is rotatably connected with the second transmission shaft 3012, the first fixing plate 3017 is rotatably connected with the first embedding plate 3015, and the first fixing plate 3017 is fixedly connected with the working frame plate 1 through a bracket; the connecting cylinder 3018 is fixedly connected to the first fixing plate 3017; the gathering plate 3019 is fixedly connected with the connecting cylinder 3018; the liquid spray head 3020 is connected to the collective plate 3019; the first limiting support plate 3021 is connected with the connecting cylinder 3018; two groups of first electric push rods 3022 are arranged, the two groups of first electric push rods 3022 are both connected with the first limiting support plate 3021 through bolts, and the two groups of first electric push rods 3022 are both connected with the working frame plate 1 through bolts; the second limiting support plate 3023 is connected with the yarn carrier component 3016; two groups of second electric push rods 3024 are arranged, the two groups of second electric push rods 3024 are both connected with a second limiting support plate 3023 through bolts, and the two groups of second electric push rods 3024 are both connected with the working frame plate 1 through bolts; the connecting plate 3025 is fixedly connected with the linkage frame plate 307; the loading frame plate 3026 is fixedly connected with the connecting plate 3025; the auxiliary sliding block 3027 is fixedly connected to the loading frame plate 3026; the auxiliary slide rail 3028 is slidably connected to the auxiliary slide block 3027, and the auxiliary slide rail 3028 is bolted to the work frame board 1.

Firstly, the yarn-loading component 3016 is taken out manually, then the yarn-loading component 3016 is put into a winder for winding a yarn coil, the yarn-loading component 3016 is put back to the original position after the winding of the yarn coil is finished, when the yarn-loading component 3016 is taken out manually, two groups of first electric push rods 3022 and two groups of second electric push rods 3024 are started to move the first limiting support plate 3021 and the second limiting support plate 3023 downwards, then the yarn-loading component 3016 can be taken out, then when the yarn-loading component 3016 is put back to the original position, the first limiting support plate 3021 and the second limiting support plate 3023 are moved upwards for resetting, the connecting column 3018 is supported by the first limiting support plate 3021, the yarn-loading component 3016 is supported by the second limiting support plate 3023, then the stepping motor 301 is started to simultaneously rotate the first driving wheel 302 and the second driving wheel 303, at this time, the second driving wheel 303 drives the third driving wheel 304 by a belt, the third transmission wheel 304 drives the first transmission shaft 305 to rotate, and further drives the transmission plate 306 to rotate through the first transmission shaft 305, an extension block is disposed at a side end of one side of the transmission plate 306, the extension block slides in the linkage frame plate 307 when making a circular track motion, and further drives the linkage frame plate 307 to reciprocate through the extension block, the linkage frame plate 307 synchronously drives the connection bar 308 to move, and further the connection bar 308 drives the gear tooth sliding plate 309 to slide in the limit sliding rail 3010, and simultaneously drives the first flat gear 3011 engaged with the gear tooth sliding plate to rotate while moving, and further drives the second transmission shaft 3012 to rotate through the first flat gear 3011, and further drives the second flat gear 3013 to rotate through the second transmission shaft 3012, and further drives the first gear ring 3014 engaged with the gear tooth sliding plate to rotate through the second flat gear 3013, and further drives the first engaging disc 3015 to rotate through the first gear ring 3014, and then the first embedded disc 3015 drives the yarn carrying assembly 3016 to integrally rotate, so that the yarn roll can integrally rotate, six sets of assembled plates 3019 are arranged on one circumference of the surface of the connecting cylinder 3018, six sets of liquid spraying heads 3020 are equidistantly arranged on the side surface of each assembled plate 3019, the connecting cylinder 3018 can be externally connected with an acid liquid input device, acid liquid spraying can be performed from the inner side of the yarn roll through the multiple sets of liquid spraying heads 3020, at this time, acid liquid spraying is performed on the yarn roll from inside to outside while the yarn roll rotates, meanwhile, the linking frame plate 307 drives the connecting plate 3025 to reciprocate, the carrying frame plate 3026 is driven to synchronously reciprocate through the connecting plate 3025, two sets of auxiliary sliding blocks 3027 and auxiliary sliding rails 3028 are arranged below the carrying frame plate 3026, when the carrying frame plate 3026 moves, the auxiliary sliding fit carrying frame 3026 in the auxiliary sliding manner with the carrying frame 3026 in the auxiliary sliding manner when the carrying frame 3026 moves, test paper is placed in advance in the carrying frame 3026 before acid liquid spraying, when the carrying frame 3016 integrally rotates with the yarn roll, the acid liquid can be completely covered by the acid liquid spraying test paper, and the test paper can be judged that the yarn roll can completely covered on the yarn roll.

The glue solution dipping system 4 comprises a fourth driving wheel 401, a third transmission shaft 402, a fifth driving wheel 403, a sixth driving wheel 404, a third flat gear 405, a seventh driving wheel 406, a fourth transmission shaft 407, a fourth flat gear 408, a second toothed ring 409, a second embedding disc 4010, a second fixing plate 4011, a third electric push rod 4012, a glue solution box 4013, a third limit support plate 4014 and a fourth electric push rod 4015; the outer annular surface of the fourth driving wheel 401 is in driving connection with the first driving wheel 302 through a belt; the third transmission shaft 402 is fixedly connected with the fourth transmission wheel 401, and the third transmission shaft 402 is rotatably connected with the working frame plate 1 through a bracket; a fifth driving wheel 403 is fixedly connected with the third transmission shaft 402, and the fifth driving wheel 403 is connected with the dripping glue collecting system 5; the sixth driving wheel 404 is fixedly connected with the third transmission shaft 402; the third horizontal gear 405 is fixedly connected with the third transmission shaft 402; the outer ring surface of the seventh driving wheel 406 is in transmission connection with the sixth driving wheel 404 through a belt; the fourth transmission shaft 407 is fixedly connected with the seventh transmission wheel 406, and the fourth transmission shaft 407 is rotatably connected with the working frame plate 1 through a bracket; the fourth flat gear 408 is fixedly connected with the fourth transmission shaft 407; the second ring gear 409 intermeshes with the third spur gear 405; the outer ring surface of the second embedding disc 4010 is fixedly connected with the second gear ring 409; the second fixing plate 4011 is rotatably connected to the second fitting plate 4010; two groups of third electric push rods 4012 are arranged, the two groups of third electric push rods 4012 are in bolted connection with the second fixing plate 4011, and the two groups of third electric push rods 4012 are in bolted connection with the working frame plate 1; the glue solution box 4013 is arranged on the side surface of the second embedded disc 4010, and the glue solution box 4013 is fixedly connected with the working frame plate 1; the third limiting support plate 4014 is arranged on one side, far away from the second embedded disc 4010, of the glue solution box 4013; the fourth electric push rod 4015 is provided with two sets, and two sets of fourth electric push rods 4015 all carry out bolted connection with third spacing extension board 4014, and two sets of fourth electric push rods 4015 all carry out bolted connection with work frame plate 1.

After the yarn rolls are subjected to heat setting, two groups of third electric push rods 4012 are started, a second gear ring 409, a second embedded disc 4010 and a second fixed plate 4011 are moved upwards for a specified distance, then a yarn-carrying component 3016 with the yarn rolls is placed at the position of the second embedded disc 4010, then two groups of fourth electric push rods 4015 are used for pushing a third limiting support plate 4014 upwards, so that the third limiting support plate 4014 can support the yarn-carrying component 3016, then two groups of third electric push rods 4012 and two groups of fourth electric push rods 4015 are contracted simultaneously, so that the yarn-carrying component 3016 moves downwards, so that the bottommost part of the yarn roll is immersed into the glue solution in the glue solution box 4013, at the moment, a first driving wheel 302 drives a fourth driving wheel 401 through a belt, so that a fourth driving wheel 401 drives a third driving shaft 402 to rotate, so that a fifth driving wheel, a sixth driving wheel 404 and a third driving wheel 405 to rotate synchronously, so that the second gear ring 409 drives a second gear ring 409 to rotate, so that the third driving wheel 3012 and the second embedded carrier disc 4016 rotate synchronously, so that the yarn-carrying component 4016 and the yarn rolls are immersed into the glue solution 4013, and the second embedded disc 4016, so that the third gear ring 409 and the glue solution in the second embedded disc 4016 rotate synchronously, and the yarn rolls are accelerated, and the second gear ring 409 rotate simultaneously, and the second embedded disc 4016, and the yarn rolls are rotated, so that the second carrier plate 4016 are rotated, and the second gear ring 409 rotate synchronously, and the second carrier plate 4016 are rotated, and the second carrier plate 4016, and the second carrier plate 409 rotate synchronously, and the yarn rolls are rotated, and the second carrier plate 4014, and the yarn rolls are rotated fast, at the moment, the second gear ring 409 is disengaged from the third gear 405, the sixth transmission wheel 404 transmits the seventh transmission wheel 406 through a belt, the seventh transmission wheel 406 drives the fourth transmission shaft 407 to rotate, the fourth transmission shaft 407 drives the fourth gear 408 to rotate, the fourth gear 408 drives the second gear ring 409 engaged with the fourth gear ring to rotate, the yarn carrying component 3016 and the yarn roll rotate at the moment, and the glue on the surface of the yarn roll is collected by matching with the drip glue collecting system 5.

The glue dripping collecting system 5 comprises an eighth driving wheel 501, a hexagonal rod 502, a driving sleeve 503, a first bevel gear 504, a connecting plate 505, a fifth electric push rod 506, a second bevel gear 507, a screw rod 508, a U-shaped frame 509, a liquid dripping plate 5010 and a sliding rod 5011; the outer annular surface of the eighth driving wheel 501 is in transmission connection with the fifth driving wheel 403 through a belt; the hexagonal rod 502 is fixedly connected with the eighth driving wheel 501, and the hexagonal rod 502 is rotatably connected with the working frame plate 1 through a bracket; the transmission sleeve 503 is connected with the hexagonal rod 502 in a sliding way; the first bevel gear 504 is fixedly connected with the transmission sleeve 503; the connecting plate 505 is rotatably connected with the transmission sleeve 503 through a bearing; a fifth electric push rod 506 is connected with the connecting plate 505 through bolts, and the fifth electric push rod 506 is connected with the working frame plate 1 through bolts; the second bevel gear 507 is arranged on the side of the first bevel gear 504; the screw rod 508 is fixedly connected with the second bevel gear 507, and the screw rod 508 is rotatably connected with the working frame plate 1 through a bracket; the U-shaped frame 509 is screwed with the screw rod 508; the liquid leaching plate 5010 is fixedly connected with the U-shaped frame 509; the slide bar 5011 is connected with the U-shaped frame 509 in a sliding manner, and the slide bar 5011 is fixedly connected with the working frame plate 1 through a bracket.

When the yarn roll moves upwards to a designated height, the fifth driving wheel 403 drives the eighth driving wheel 501 through a belt, the sixth prism bar 502 is driven to rotate through the eighth driving wheel 501, the driving sleeve 503 is driven to rotate through the sixth prism bar 502, the fifth electric push rod 506 is started to push outwards, the connecting plate 505 drives the driving sleeve 503 to slide on the surface of the sixth prism bar 502, the driving sleeve 503 drives the first bevel gear 504 to move synchronously, the first bevel gear 504 is driven to move to a position meshed with the second bevel gear 507, that is, the driving sleeve 503 drives the first bevel gear 504 to rotate, the second bevel gear 507 meshed with the first bevel gear 504 is driven to rotate through the first bevel gear 504, and the screw rod 508 is driven to rotate through the second bevel gear 507, and then the screw rod 508 rotates to drive the U-shaped rack 509 screwed with the screw rod to move, meanwhile, the U-shaped rack 509 slides on the surface of the sliding rod 5011, and further, the U-shaped rack 509 drives the liquid leaching plate 5010 to synchronously move, so that the liquid leaching plate 5010 moves to the position below the yarn roll, the distance between the liquid leaching plate 5010 and the outermost layer of the yarn roll is a specified distance, at the moment, the fifth electric push rod 506 controls the first bevel gear 504 to be disengaged from the second bevel gear 507, when the yarn roll rotates, redundant glue liquid on the outer layer of the yarn roll contacts the liquid leaching plate 5010, and the redundant glue liquid flows down through the liquid leaching plate 5010 and then flows back into the glue liquid tank 4013.

The yarn carrying component 3016 comprises a first combination ring 301601, a clamping ring 301602, a support round rod 301603, a second combination ring 301604 and a tabling block 301605; the clamp ring 301602 is fixedly connected with the first combination ring 301601, and the clamp ring 301602 is rotatably connected with the second limiting support plate 3023; the supporting round rod 301603 is fixedly connected with the first combination ring 301601; the second combined ring 301604 is fixedly connected with the supporting round rod 301603; the engaging block 301605 is fixedly connected to the second engaging ring 301604, and the engaging block 301605 is connected to the first engaging disk 3015.

Six groups of supporting round rods 301603 are equidistantly arranged on the circumference between the first combination ring 301601 and the second combination ring 301604, after the yarn carrying component 3016 is taken away manually, yarn coils are wound on the outer sides of the six groups of supporting round rods 301603, four groups of embedded blocks 301605 are equidistantly arranged on the circumference of one side of the second combination ring 301604, four groups of grooves matched with the four groups of embedded blocks 301605 are formed on one sides of the first embedded disc 3015 and the second embedded disc 4010, the four groups of embedded blocks 301605 can be embedded into the four groups of grooves, the second combination ring 301604 can be driven to rotate through the first embedded disc 3015 and the second embedded disc 4010, the yarn coils are integrally rotated, the second limiting support plate 3023 and the third limiting support plate 4014 are respectively provided with a semicircular groove, a limiting groove is formed in the groove, the clamping ring 301602 is matched with the limiting groove, when the yarn carrying component 3016 is supported, the clamping ring 602 is aligned to the limiting grooves in the second limiting support plate 3023 and the third limiting support plate 4014, and the yarn coils can be wound into acid liquor with the yarn coils, and the yarn coils can be conveniently immersed in the inner sides.

The side end portion of one side of the driving plate 306 is provided with an extension block.

The extension block slides in the linkage frame plate 307 while moving in a circular path, and the linkage frame plate 307 is driven to reciprocate by the extension block.

Six groups of supporting round rods 301603 are equidistantly arranged on the circumference between the first combined ring 301601 and the second combined ring 301604.

The yarn roll can be wound on the outer sides of the six groups of supporting round rods 301603, so that the yarn roll is wound into a round tube shape, and acid liquor can be sprayed outwards from the inner side of the yarn roll, thereby being convenient for distinguishing the immersion degree of the acid liquor.

Four sets of engaging blocks 301605 are equidistantly arranged on one side of the second engaging ring 301604, and four sets of grooves matching with the four sets of engaging blocks 301605 are arranged on one side of the first engaging disk 3015 and the second engaging disk 4010.

The four groups of embedded blocks 301605 can be embedded into the four groups of grooves, and the second combined ring 301604 can be driven to rotate by the first embedded disk 3015 and the second embedded disk 4010, so that the whole yarn roll rotates.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and amendments can be made without departing from the principle of the present invention, and these modifications and amendments should also be considered as the protection scope of the present invention.

Claims (5)

1. A high silica glass fiber yarn preparation facilities excels in, including:

a working frame plate (1);

the control display screen (2), the control display screen (2) is connected with the working frame plate (1);

it is characterized by also comprising:

the acid liquor yarn soaking system (3), the acid liquor yarn soaking system (3) is connected with the working frame plate (1);

the glue solution dipping system (4), the glue solution dipping system (4) is connected with the working frame plate (1), and the glue solution dipping system (4) is connected with the acid liquor yarn dipping system (3);

the glue dripping collecting system (5), the glue dripping collecting system (5) is connected with the working frame plate (1), and the glue dripping collecting system (5) is connected with the glue solution dipping system (4);

the acid liquor yarn soaking system (3) comprises:

the stepping motor (301), the stepping motor (301) is connected with the working frame plate (1) through bolts;

the first driving wheel (302), the first driving wheel (302) is fixedly connected with the output shaft of the stepping motor (301), and the first driving wheel (302) is connected with the glue solution impregnation system (4);

the second transmission wheel (303), the second transmission wheel (303) is fixedly connected with the output shaft of the stepping motor (301);

the outer ring surface of the third driving wheel (304) is in transmission connection with the second driving wheel (303) through a belt;

the first transmission shaft (305), the first transmission shaft (305) is fixedly connected with the third transmission wheel (304), and the first transmission shaft (305) is rotatably connected with the working frame plate (1) through a bracket;

the transmission plate (306), the transmission plate (306) is fixedly connected with the first transmission shaft (305);

the linkage frame plate (307), the linkage frame plate (307) is in transmission connection with the transmission plate (306);

the connecting strip (308), the connecting strip (308) is fixedly connected with the linkage frame plate (307);

the gear tooth sliding plate (309), the gear tooth sliding plate (309) is fixedly connected with the connecting strip (308);

the limiting sliding rail (3010), the limiting sliding rail (3010) and the gear tooth sliding plate (309) carry on the sliding connection, the limiting sliding rail (3010) carries on the bolted connection through support and work frame plate (1);

the first flat gear (3011), the first flat gear (3011) and gear teeth slide (309) intermesh;

the second transmission shaft (3012), the second transmission shaft (3012) is fixed on first flat gear (3011);

the second flat gear (3013), the second flat gear (3013) is carried on building in with the second drive shaft (3012);

a first gear ring (3014), the first gear ring (3014) and the second flat gear (3013) are meshed with each other;

the outer ring surface of the first embedded disc (3015) is fixedly connected with the first gear ring (3014);

the yarn loading assembly (3016), the yarn loading assembly (3016) links with the first jogged disc (3015);

the first fixing plate (3017), the first fixing plate (3017) and the second transmission shaft (3012) carry on the rotating connection, the first fixing plate (3017) carries on the rotating connection with the first jogged disc (3015), the first fixing plate (3017) carries on the building in through the support and work frame plate (1);

the connecting cylinder (3018), the connecting cylinder (3018) is connected with the first dead plate (3017) fixedly;

the gathering plate (3019), the gathering plate (3019) is connected with the connecting column (3018) fixedly;

a liquid ejecting head (3020), the liquid ejecting head (3020) being connected to the collective plate (3019);

the first limiting support plate (3021), the first limiting support plate (3021) is connected with the connecting cylinder (3018);

the first electric push rods (3022), two groups of the first electric push rods (3022) are arranged, the two groups of the first electric push rods (3022) are connected with the first limiting support plate (3021) through bolts, and the two groups of the first electric push rods (3022) are connected with the working frame plate (1) through bolts;

the second limiting support plate (3023), the second limiting support plate (3023) is connected with the yarn carrier assembly (3016);

two groups of second electric push rods (3024) are arranged, the two groups of second electric push rods (3024) are both connected with a second limiting support plate (3023) through bolts, and the two groups of second electric push rods (3024) are both connected with the working frame plate (1) through bolts;

the connecting plate (3025), the connecting plate (3025) is fixedly connected with the linkage frame plate (307);

a carrying frame plate (3026), wherein the carrying frame plate (3026) is fixedly connected with the connecting plate (3025);

the auxiliary sliding block (3027), the auxiliary sliding block (3027) is fixedly connected with the carrying frame plate (3026);

the auxiliary sliding rail (3028), the auxiliary sliding rail (3028) is connected with the auxiliary sliding block (3027) in a sliding manner, and the auxiliary sliding rail (3028) is connected with the working frame plate (1) through bolts;

the glue solution impregnation system (4) comprises:

the outer ring surface of the fourth transmission wheel (401) is in transmission connection with the first transmission wheel (302) through a belt;

the third transmission shaft (402), the third transmission shaft (402) is fixedly connected with the fourth driving wheel (401), and the third transmission shaft (402) is rotatably connected with the working frame plate (1) through a bracket;

a fifth driving wheel (403), the fifth driving wheel (403) is fixedly connected with the third transmission shaft (402), and the fifth driving wheel (403) is connected with the glue dripping collection system (5);

a sixth driving wheel (404), wherein the sixth driving wheel (404) is fixedly connected with the third transmission shaft (402);

the third flat gear (405), the third flat gear (405) is fixedly connected with the third transmission shaft (402);

the outer ring surface of the seventh driving wheel (406) is in transmission connection with the sixth driving wheel (404) through a belt;

the fourth transmission shaft (407), the fourth transmission shaft (407) is fixedly connected with the seventh driving wheel (406), the fourth transmission shaft (407) is rotatably connected with the working frame plate (1) through a bracket;

the fourth flat gear (408), the fourth flat gear (408) is fixedly connected with the fourth transmission shaft (407);

a second gear ring (409), the second gear ring (409) and the third flat gear (405) are meshed with each other;

a second embedded disc (4010), wherein the outer ring surface of the second embedded disc (4010) is fixedly connected with a second gear ring (409);

a second fixing plate (4011), wherein the second fixing plate (4011) is rotatably connected to the second fitting plate (4010);

the two groups of third electric push rods (4012) are arranged, the two groups of third electric push rods (4012) are connected with the second fixing plate (4011) through bolts, and the two groups of third electric push rods (4012) are connected with the working frame plate (1) through bolts;

the glue solution box (4013), the glue solution box (4013) is arranged on the side face of the second embedded disc (4010), and the glue solution box (4013) is fixedly connected with the working frame plate (1);

the third limiting support plate (4014), the third limiting support plate (4014) is arranged on one side, far away from the second embedded disc (4010), of the glue solution box (4013);

the four groups of fourth electric push rods (4015) are arranged, the two groups of fourth electric push rods (4015) are connected with the third limiting support plate (4014) through bolts, and the two groups of fourth electric push rods (4015) are connected with the working frame plate (1) through bolts;

the drip glue collecting system (5) comprises:

an eighth driving wheel (501), wherein the outer ring surface of the eighth driving wheel (501) is in transmission connection with the fifth driving wheel (403) through a belt;

the hexagonal rod (502), the hexagonal rod (502) is fixedly connected with the eighth driving wheel (501), and the hexagonal rod (502) is rotatably connected with the working frame plate (1) through a bracket;

the transmission sleeve (503), the transmission sleeve (503) and the hexagonal rod (502) are connected in a sliding manner;

the first bevel gear (504), the first bevel gear (504) is connected with the driving sleeve (503) fixedly;

the connecting plate (505) is in rotary connection with the transmission sleeve (503) through a bearing;

the fifth electric push rod (506), the fifth electric push rod (506) is in bolted connection with the connecting plate (505), and the fifth electric push rod (506) is in bolted connection with the working frame plate (1);

a second bevel gear (507), wherein the second bevel gear (507) is arranged on the side surface of the first bevel gear (504);

the screw rod (508), the screw rod (508) is fixedly connected with the second bevel gear (507), the screw rod (508) is rotatably connected with the working frame plate (1) through a bracket;

the U-shaped frame (509), the U-shaped frame (509) is screwed with the screw rod (508);

the liquid leaching plate (5010) is fixedly connected with the U-shaped frame (509);

the sliding rod (5011), the sliding rod (5011) and the U-shaped frame (509) are connected in a sliding mode, and the sliding rod (5011) is fixedly connected with the working frame plate (1) through a support.

2. A device for preparing high strength and high silica glass fiber yarn according to claim 1, wherein the yarn carrier assembly (3016) comprises:

a first combining ring (301601);

the clamping ring (301602), the clamping ring (301602) is fixedly connected with the first combination ring (301601), and the clamping ring (301602) is rotatably connected with the second limiting support plate (3023);

a supporting round rod (301603), the supporting round rod (301603) is fixedly connected with the first combined ring (301601);

the second combined ring (301604), the second combined ring (301604) is fixed and connected with supporting the round bar (301603);

a mosaic block (301605), the mosaic block (301605) is fixed with the second combined ring (301604), and the mosaic block (301605) is connected with the first mosaic disk (3015).

3. A high strength high silica glass fiber yarn preparing apparatus as claimed in claim 2, wherein the side end portion of one side of the driving plate (306) is provided with an extension block.

4. The device for preparing the high-strength high-silica glass fiber yarn as claimed in claim 3, wherein six sets of supporting round rods (301603) are arranged between the first combined ring (301601) and the second combined ring (301604) at equal intervals around the circumference.

5. The device for preparing the high-strength high-silica glass fiber yarn as claimed in claim 4, wherein four groups of embedded blocks (301605) are equidistantly arranged on one side of the second embedded ring (301604) in a circle, and four groups of grooves matched with the four groups of embedded blocks (301605) are respectively arranged on one sides of the first embedded disc (3015) and the second embedded disc (4010).

Images