CN1546769A - Gluing circular loom - Google Patents

Gluing circular loom Download PDF

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Publication number
CN1546769A
CN1546769A CNA2003101106128A CN200310110612A CN1546769A CN 1546769 A CN1546769 A CN 1546769A CN A2003101106128 A CNA2003101106128 A CN A2003101106128A CN 200310110612 A CN200310110612 A CN 200310110612A CN 1546769 A CN1546769 A CN 1546769A
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CN
China
Prior art keywords
barrel
gluing
gear
circular loom
crossbeam
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Granted
Application number
CNA2003101106128A
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Chinese (zh)
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CN1300400C (en
Inventor
蒋伯纯
赵必清
韩维维
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HUNAN HUAYUN MACHINE FACTORY
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HUNAN HUAYUN MACHINE FACTORY
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Priority to CNB2003101106128A priority Critical patent/CN1300400C/en
Publication of CN1546769A publication Critical patent/CN1546769A/en
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Publication of CN1300400C publication Critical patent/CN1300400C/en
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  • Braiding, Manufacturing Of Bobbin-Net Or Lace, And Manufacturing Of Nets By Knotting (AREA)

Abstract

The invention is a kind of sizing round loom, which includes energy consumption brake device, middle gear unit assembly, double shuttle base unit assembly, weaving ring, track rings unit assembly and shuttle unit assembly. All the parts are set in the machine frame. The character lies in: there sets an extruding and sizing part on the weaving part on the working bracket, on which there sets material bucket, material barrel and rotary extruding screw. A heating device is set on the outer surface of the barrel, an extruding head which can make the glue flow into weaved soft pipe inner lining under the extruding screw; there sets a forming device which can harden the glue on side surface of the soft pipe, the forming device is fixed on a weaving base, another end is fixed on the working bracket; there has a pulling device under the weaving part, which is fixed on the bottom of the working bracket.

Description

The gluing circular loom
Technical field:
The present invention relates to a kind of braiding with machinery, be specifically related to a kind of various chemical fibres, cotton fine, Soft ribbon circular loom that has inner lining material that ribbon spins fiber of being used for.
Background technology:
Present Soft ribbon circular loom both domestic and external all can only be produced the fabric pipe embryo that does not contain inner lining material, obtain to have the finished product flexible pipe of inner lining material, and also the subsequent technique that need carry out repeatedly just can be made finished product.Its technological process is: knit out the fabric pipe embryo by circular loom earlier, send into the gluing workshop after blocking according to the product length specification then, by the gluing workshop to sizing material carry out mixing with open refining, again sizing material is sent into extruder and extruded the sebific duct embryo, the sebific duct radicle is inserted in the sebific duct embryo in the fabric pipe embryo after blocking according to the product length specification, sends into the sulfuration bed at last and carries out the high steam sulfuration.This kind processing method, environmental pollution is serious, and energy resource consumption is big, needs multiple working procedure just can finish whole process of production, and its production efficiency is low, and labor strength is big.
Summary of the invention:
Technical problem to be solved by this invention is the defective that overcomes above-mentioned prior art, provides a kind of braiding speed fast, efficient height, the Soft ribbon circular loom that braiding and gluing are carried out synchronously.
The present invention solves the problems of the technologies described above by following technical scheme.It comprises knitting component, this knitting component by dynamic braking device, middle drive assembly, two shuttle seat assembly, knit ring, rail circle assembly and shuttle assembly and form, above-mentioned each parts all place in the frame, it is characterized in that described knitting component top is provided with extrudes gluing member, be loaded on the Working rack, which is provided with hopper, barrel and rotating extrusion screw rod, described barrel outer surface is provided with heater, and the extrusion die that can make sizing material flow into the flexible hose liner that has woven on the knitting component is housed below the extrusion screw rod; In this flexible hose side, being provided with can be with the fixing calibrator of sizing material sclerosis on its liner, and this calibrator one end is fixed on knitting on the ring seat on the knitting component, and the other end is fixed on the Working rack; The knitting component below is provided with draw-gear, is fixed on the Working rack bottom.The described gluing member of extruding comprises hopper, barrel, extrusion screw rod and extrusion die, and described extrusion screw rod and motor output shaft link, and in the inner chamber that places on the barrel to be offered, hopper is communicated with the barrel inner chamber by conveying pipeline; Extrusion die is loaded on the barrel head, and this extrusion die is made up of upper die body, lower mold body, mouthful mould and plug, and described upper die body top links to each other with barrel, and the bottom links to each other with lower mold body, fits in mouthful die tip and lower mold body bottom; Described upper die body, lower mold body and a mouthful mould all offer inner chamber, communicate with the barrel inner chamber, and the branch flow cone is equipped with on the plug top, place in above-mentioned three inner cavity of component, and are formed with between its inwall and can hold the runner that the sizing material fluid flows through.In plug and runner blocks, also offer the pore that communicates with compressed air.The sulfuration typing of described calibrator comprises tube channel and heater, and heater is installed on the tube channel, joins by binding post and power supply; Cooling and shaping comprises tube channel and cooling jacket, and cooling jacket is coated on the tube channel outer surface, which is provided with the water supply connector and the water out adapter that are connected with water pipe.Described draw-gear comprises reductor, carrying roller, carry-over pinch rolls and the guide roller of translator, on the described speed reducer output shaft driving gear is housed, this driving gear by driven gear respectively with same axle on carrying roller is housed gear be meshed, another gear that is loaded on the carrying roller power transmission shaft is equipped with the gears engaged of guide roller and carry-over pinch rolls respectively with on the same axle by another gear.Described Working rack comprises column, crossbeam, crossbeam pivoted arm, elevating screw and drive lead screw, described crossbeam pivoted arm connects with crossbeam, be placed on the column, drive lead screw is located on the crossbeam, elevating screw by the driven by motor rotation inserts in the crossbeam pivoted arm, matches with the lifting nut of installing in this crossbeam pivoted arm; Between crossbeam pivoted arm and column, also be provided with eccentric wheel.
The present invention can realize carrying out synchronously of braiding and gluing on a machine, the product of producing by this machine, the product that has inner lining material exactly, need not to carry out follow-up last glue process, can save multiple working procedure, save steam boiler, reduce environmental pollution, for the investor saves a large amount of vulcanizing equipments and worker-house, also can save a large amount of human resources simultaneously.
Description of drawings:
Fig. 1 is a structure general assembly drawing of the present invention;
Fig. 2 is a knitting component structural front view of the present invention;
Fig. 3 extrudes the gluing member structural front view for the present invention;
Fig. 4 is the A-A cutaway view of Fig. 3 of the present invention;
Fig. 5 is the B-B cutaway view of Fig. 3 of the present invention;
Fig. 6 is the calibrator structural front view of heating of calibrator of the present invention;
Fig. 7 is the cooling and shaping apparatus structure front view of calibrator of the present invention;
Fig. 8 is a draw-gear structural front view of the present invention;
Fig. 9 is the C-C cutaway view of Fig. 8 of the present invention;
Figure 10 is the D-D cutaway view of Fig. 8 of the present invention;
Figure 11 is Working rack modular construction figure of the present invention;
Figure 12 is the E-E cutaway view of Figure 11 of the present invention;
Figure 13 is an electrical apparatus control system structure chart of the present invention.
The specific embodiment:
The present invention is the improvement of being done on existing Soft ribbon circular loom.As Fig. 1, Fig. 2, shown in Figure 3, it comprises knitting component 1, it is characterized in that described knitting component 1 top is provided with extrudes gluing member 2, be loaded on the Working rack 5, which is provided with hopper 241, barrel 206 and rotating extrusion screw rod 204, described barrel 206 outer surfaces are provided with heater, and the extrusion die 259 in the flexible hose 6 that sizing material is flowed into woven on the knitting component 1 is housed below the extrusion screw rod 204; In these flexible hose 6 sides, being provided with can be with its liner sizing material solidifying and setting device 3, and these calibrator 3 one ends are fixed on knitting on the ring seat 107 on the knitting component 1, and the other end is fixed on the Working rack 5; Knitting component 1 below is provided with draw-gear 4, is fixed on Working rack 5 bottoms.Sizing material is clamp-oned in the flexible hose 6 that weaves by knitting component 1 by the parts 2 of extruding that are fixed on the Working rack 5, compressed air enters in the flexible hose 6, make it to form needed operating pressure, the flexible hose 6 that contains the liner sizing material enters typing processing in the calibrator 3, directive wheel 464 by draw-gear 4 compresses it then, by draw-gear 4 flexible hose 6 is pulled out at last, thereby reached the braiding of flexible hose 6 and the goal of the invention that gluing is carried out synchronously.
Each mechanism of following division.
Knitting component 1 structure of the present invention as shown in Figure 2, it is by motor 101, dynamic braking assembly of devices 102, bearing block 103, middle drive assembly 104, two shuttle seat assemblies 106 are knitted ring seat 107, knit ring 108, shuttle assembly 109 and rail circle assembly 110 are formed, and wherein motor 101 is the driving source of whole knitting component 1 for the braiding motor, can give each executing agency with transmission of power by middle drive assembly 104, finish each mechanism action process.Two shuttle seat assemblies 106 are provided with the separated time wheel, can play the effect that separates warp thread; Shuttle assembly 109 is used to finish the braiding process, can make warp thread and weft yarn weaving by separated time wheel action on two shuttle seat assemblies 106; Rail circle assembly 110 is the dividing sinker mechanism of knitting component 1, can make separated time wheel dividing sinker accurate, and warp thread enters to be knitted in the ring seat 107, is convenient to knit ring 108 braidings.Dynamic braking assembly of devices 102 is the unlatching brake apparatus of knitting component 1, by giving plugging moment of motor rotor, can force rotor to stop rapidly.Broken yarn automatic stopping device 105 can make and the yarn automatic stopping when falling that breaks occur in the braiding process, to improve weaving quality.Above structure is filed an application in 1997 by the applicant and is obtained national patent power on January 9th, 1999, and the patent No. is ZL97238569X, and the application name is called " Soft ribbon circular loom ".
As shown in Figure 3, the present invention extrudes gluing member 2 and comprises hopper 242, barrel 206, extrusion screw rod 204 and extrusion die 259, described extrusion screw rod 204 upper ends link by the output shaft 201 of shaft coupling 203 with motor 200, can drive by motor 200 and rotate, motor 200 is fixed on the connector 209 by screw 202, extrusion screw rod 204 other ends place in the inner chamber of being offered on the barrel 206, can rotate within it, and this barrel 206 is fixed on the connector 209 by screw 207.As shown in Figure 4, hopper 242 of the present invention is installed on the feed cylinder 244 by screw 241, feed cylinder 244 is installed on the feed appliance support 246, and feed appliance support 246 is installed on the connector 209, feeding spiro rod 245 is installed in the feed cylinder 244, and this feeding spiro rod 245 is connected by the output shaft 238 of flat key 239 with the reductor 236 of translator.Feed cylinder 244 usefulness Connection Blocks 237 are connected with the reductor 236 of translator.Between hopper 242 and barrel 206, also be provided with a conveying pipeline 235, be communicated with barrel 206 inner chambers.Extrusion die 259 of the present invention is loaded on barrel 206 heads, as shown in the figure, it is made up of upper die body 219, lower mold body 221, mouthful mould 223 and plug 230, described upper die body 219 tops and connecting ring 216 fit, connecting ring 216 links to each other with barrel 206 heads by screw 215, and barrel 206, connecting ring 216, upper die body 219 threes are fixed together by screw 233.In upper die body 219 bottoms, be provided with lower mold body 221, link to each other by screw 218, fit in mouthful mould 223 tops and lower mold body 221 bottoms, fixing by pressure ring 222.Described connecting ring 216, upper die body 219, a lower mold body 221 and a mouthful mould 223 all offer inner chamber, communicate with barrel 206 inner chambers, plug 230 places upper die body 219, in lower mold body 221 and mouthful mould 223 inner chambers, fixing by plug fixed block 220, the inner chamber of offering in the upper die body 219 is a bell, divide flow cone 232 tops to place in it, plug 230 is positioned at below the branch flow cone 232, join by cored screw 226 and runner blocks 227, divide flow cone 232, plug 230, runner blocks 227 and upper die body 219, be formed with between the cavity wall in lower mold body 221 and mouthful mould 223 and can hold the runner 224 that the sizing material fluid flows through.
As Fig. 3, shown in Figure 5, pressure gauge 248, thermo detector 252, cooling blower mount pad 247, air ring 249, lock-screw 250, clamping screw 251 are installed also on the barrel 206.Barrel 206 outer surface of upper are equipped with coolant jacket 208, are processed with cooling hole 210 on this coolant jacket 208, and barrel is equipped with Electrothermal ring 213 and 214 on 207 bottoms, and cooling blower 212 is loaded on Electrothermal ring 213 and 214 next doors, can avoid barrel 206 heating-up temperatures too high.
In plug 230 and runner blocks 227, offer pore, communicate with air compressor by suction nozzle 231, can form pressure to flexible hose 6 inwalls.
For guaranteeing the gluing quality, between connecting ring 216 and upper die body 219, be provided with filter 217.
The course of work is: the sizing material that will be mixed is put into hopper 241, and sizing material enters in the feed cylinder 243 by hopper mouth 242, delivers into the outlet 250 of feed cylinder 243 through feeding spiro rod 244.Enter barrel inlet 234 by conveying pipeline 235, extrusion screw rod 204 through rotating in barrel 207 enters upper die body 219 through filter plates 217, plug fixed block 220, lower mold body 221, mouthful mould 223 and divide flow cone 232, plug 230, runner blocks 227 formed runners 224 after enter again braided tube 6 with in.
Calibrator 3 of the present invention can adopt two kinds of different modes.It is to be provided with according to different inner lining materials, and can produce the Lining Hose material is the flexible hose that does not need the sulfuration thermoplastic material for rubber flexible hose and the inner lining material that needs sulfuration.Fig. 6 has showed the calibrator structure embodiment that heats, as shown in the figure, it comprises tube channel 301 and heater 302, and heater 302 is installed on the tube channel 301, tube channel 301 is installed in knits on the ring seat 107, and thermal insulation layer 303 is fixed on the heater 302 by screw 307 and nut 308.Heater 302 is provided with binding post 304, can join with power supply by this binding post 304.For the ease of making, the passage sectional is made, and is connected with nut 306 with screw 305 then.The thermal source that provides by the heater 302 that vulcanizes tube channel 301 outer walls reaches the required process conditions of sulfuration typing, thereby reaches the purpose of continuous vulcanization.
Cooling and shaping apparatus structure embodiment as shown in Figure 7, it comprises tube channel 301 and cooling jacket 323, cooling jacket 323 is coated on tube channel 301 outer surfaces, which is provided with the water supply connector 328 and the water out adapter 324 that are connected with water pipe.In order to reach cooling effect, cooling jacket 323 is made two parts up and down, connects by adpting flange 327, connects Inlet and outlet water respectively, and adpting flange 320 is installed in to be knitted on the ring seat 107, is connected with knitting component 1.
Draw-gear 4 structures of the present invention such as Fig. 8, Fig. 9, shown in Figure 10, the reductor 451 of translator is installed on the Connection Block 453, electromagnetic clutch 452 connects speed reducer output shaft 450 and final drive shaft 454, driving gear 455 is housed on the final drive shaft 454, driving gear 455 and gear 419 engagements, driven gear 419 and the gear 418 coaxial with it rotate, gear 418 and gear 456 engagements, and driven gear 456, gear 457, gear 458, gear 408, gear 409, gear 412 rotate simultaneously.Gear 419 drives the carrying roller coaxial with it 416 by power transmission shaft 461 and rotates, and gear 457 drives the carrying roller coaxial with it 417 and rotates, and gear 408 drives the carry-over pinch rolls coaxial with it 403 and rotates, and gear 412 drives the carry-over pinch rolls coaxial with it 463 and rotates.The present invention draws rod 463 and is installed in transmission case 411 and the supporting plate 406, rotates with carry-over pinch rolls 403 subtends.Thereby woven and the flexible hose 6 of gluing rotates through carrying roller 416,417 and by the subtend that enters carry-over pinch rolls 403 and carry-over pinch rolls 463 under the effect of guide roller 464 flexible pipe is pulled out.
As shown in Figure 9, the present invention is equipped with slide block 402 and 414 respectively on transmission case 411 and supporting plate 406, and wherein slide block 402 is installed in the chute of supporting plate 406, slide block 414 is installed in the chute of transmission case 411.Connection Block 453 is installed on the transmission case 411, transmission case 411, supporting plate 406 are installed on the base plate 407, power transmission shaft 405,461,462 is installed on transmission case 411 and the supporting plate 406, power transmission shaft 415 is installed in slide block 414 and the slide block 402, adjuster 401 is housed on the slide block 402, adjuster 413 is housed on the slide block 414.By adjuster 401 and 413 distances of regulating between the power transmission shaft 405 and 415, can regulate the gap between carry-over pinch rolls 403 and the carry-over pinch rolls 463, with the flexible hose 6 that adapts to different-thickness.
Working rack 5 parts of the present invention such as Figure 11, shown in Figure 12, it mainly plays supporting and extrudes gluing member 2.For the ease of centering the center of extruding of extruding gluing member 2 is overlapped with the braiding center of knitting component 1, these parts have designed and can make the structure of extruding gluing member 2 move left and right and rotation, connecting plate 517 by screw 211 with extrude gluing member 2 on connector 209 be connected.As shown in the figure, Working rack 5 comprises column 502, crossbeam 513, crossbeam pivoted arm 503, elevating screw 506 and drive lead screw 514, column 502 fixes on the ground by base 501, and crossbeam pivoted arm 503 is placed on the column 502, and this pivoted arm one end is equipped with lifting nut 504, elevating screw 506 lower ends insert in it, and can rotate within it, its upper end places in the mount pad 510, and worm gear 511 is loaded in it, match with worm screw 509, this worm screw 509 links by shaft coupling 508 and motor 507 output shafts.At crossbeam pivoted arm 503 other ends, be connected with crossbeam 513, on this crossbeam 513 drive lead screw 514 is housed, drive rotation by handwheel 515, transmission nut 518 is placed on this drive lead screw 514, is loaded on simultaneously on the connecting plate 517, and connecting plate 517 is placed in the chute of offering on the crossbeam 513.Like this, under the drive of motor 507, cooperation by worm gear 511 and worm screw 509 drives elevating screw 506 rotations, by this elevating screw 506 and crossbeam pivoted arm 503 interior screwing of lifting nut 504 crossbeam pivoted arm 503 is moved up and down simultaneously, crossbeam 513 also together moves up and down, and can make to extrude gluing member 2 and move simultaneously.In addition, the move left and right of connecting plate 517 realizes by rotating handwheel 515, when rotating handwheel 515, drive lead screw 514 is rotated, and transmission nut 518 drives its move left and right to drive lead screw 514 on the connecting plate 517 by being fixed on.Thereby realized extruding gluing member 2 up and down and move left and right.
For ease of the position that gluing member 2 is extruded in adjustment, the present invention also is provided with an eccentric wheel 505 between crossbeam pivoted arm 503 and column 502, unclamps or when locking eccentric wheel 505, just can make crossbeam pivoted arm 503 arbitrarily angled, very convenient around column 502 rotations on demand.
The whole course of action of the present invention is all realized by electrical apparatus control system.As shown in figure 13, its control action is: Q closes a switch s, S 1, S 2, prepare for the braiding electric motor starting, handle collision block and make travel switch SQ closure, make time breaker KT 1Must be electric, KT 1Often open timing closing.Contactor KM 1Delay time electricly, then electric motor starting work, knitting component 1 takes up one's knitting, and at this moment, SB closes a switch 3, S 4Extrude parts 2 and start working, according to arts demand, starting air-cooler switch S 5, S 6, S 7When braided tube 6 reached certain-length, braided tube 6 entered in the traction element 4, firing switch S 3, traction element 4 is started working.Whole starting process is finished, SB 5, SB 7Use when only extruding parts 2 and adjusting up and down.When a certain warp was disconnected, the carbine on the broken yarn automatic stopping device 8 resetted, and then indicator lamp is bright.Time relay KT 2Electric, KT then 2The trigger closure, normally-closed contact disconnects, simultaneously KA 1, KA 1Electric, make KM 1Dead electricity interlocking motor has a power failure.While KM 2Shi Dedian is through pressure regulator T 2Make commutation diode VC 1Must be electric, convert direct current to and enter in the motor, form dynamic braking, stop KT up to motor 2In time, also disconnect, and makes KM 2Dead electricity disconnects direct current, and motor is cut off the power supply fully.After yarn connects, press SB 1Or SB 2, make KT 2Dead electricity, KT 1Must be electric, KM 1Closure, the braiding motor is reset.Press SB simultaneously 3, S 3, S 4Just can work on.

Claims (9)

1, a kind of gluing circular loom, comprise knitting component, this knitting component by dynamic braking device, middle drive assembly, two shuttle seat assembly, knit ring, rail circle assembly and shuttle assembly and form, above-mentioned each parts all place in the frame, it is characterized in that described knitting component top is provided with extrudes gluing member, be loaded on the Working rack, which is provided with hopper, barrel and rotating extrusion screw rod, described barrel outer surface is provided with heater, and the extrusion die that can make sizing material flow into the flexible hose liner that has woven on the knitting component is housed below the extrusion screw rod; In this flexible hose side, being provided with can be with the fixing calibrator of sizing material sclerosis on its liner, and this calibrator one end is fixed on knitting on the ring seat on the knitting component, and the other end is fixed on the Working rack; The knitting component below is provided with draw-gear, is fixed on the Working rack bottom.
2, gluing circular loom according to claim 1, it is characterized in that extruding gluing member and comprise hopper, barrel, extrusion screw rod and extrusion die, described extrusion screw rod and motor output shaft link, and in the inner chamber that places on the barrel to be offered, hopper is communicated with the barrel inner chamber by conveying pipeline; Extrusion die is loaded on the barrel head.
3, gluing circular loom according to claim 1 is characterized in that described calibrator comprises tube channel and heater, and heater is installed on the tube channel, joins by binding post and power supply.
4, gluing circular loom according to claim 1 is characterized in that described calibrator comprises tube channel and cooling jacket, and cooling jacket is coated on the tube channel outer surface, which is provided with the water supply connector and the water out adapter that are connected with water pipe.
5, gluing circular loom according to claim 1, it is characterized in that described draw-gear comprises reductor, carrying roller, carry-over pinch rolls and the guide roller of translator, on the described speed reducer output shaft driving gear is housed, this driving gear by driven gear respectively with same axle on carrying roller is housed gear be meshed, another gear that is loaded on the carrying roller power transmission shaft is equipped with the gears engaged of guide roller and carry-over pinch rolls respectively with on the same axle by another gear.
6, gluing circular loom according to claim 1, it is characterized in that described Working rack comprises column, crossbeam, crossbeam pivoted arm, elevating screw and drive lead screw, described crossbeam pivoted arm connects with crossbeam, be placed on the column, drive lead screw is located on the crossbeam, elevating screw by the driven by motor rotation inserts in the crossbeam pivoted arm, matches with the lifting nut of installing in this crossbeam pivoted arm.
7, gluing circular loom according to claim 2 is characterized in that extrusion die is made up of upper die body, lower mold body, mouthful mould and plug, and described upper die body top links to each other with barrel, and the bottom links to each other with lower mold body, mouth die tip and the applying of lower mold body bottom; Described upper die body, lower mold body and a mouthful mould all offer inner chamber, communicate with the barrel inner chamber, and the branch flow cone is equipped with on the plug top, place in above-mentioned three inner cavity of component, and are formed with between its inwall and can hold the runner that the sizing material fluid flows through.
8, gluing circular loom according to claim 6 is characterized in that being provided with eccentric wheel between crossbeam pivoted arm and the column.
9, gluing circular loom according to claim 7 is characterized in that offering in plug and the runner blocks pore that communicates with compressed air.
CNB2003101106128A 2003-12-08 2003-12-08 Gluing circular loom Expired - Fee Related CN1300400C (en)

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Application Number Priority Date Filing Date Title
CNB2003101106128A CN1300400C (en) 2003-12-08 2003-12-08 Gluing circular loom

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Application Number Priority Date Filing Date Title
CNB2003101106128A CN1300400C (en) 2003-12-08 2003-12-08 Gluing circular loom

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CN1546769A true CN1546769A (en) 2004-11-17
CN1300400C CN1300400C (en) 2007-02-14

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101966729A (en) * 2010-06-23 2011-02-09 昆山科信橡塑机械有限公司 Quick-open connecting structure of pelletizing die
CN102002796A (en) * 2009-09-02 2011-04-06 顾新 Dual-shuttle circular loom for soft hoses
CN104674437A (en) * 2013-12-01 2015-06-03 周海忠 Circular loom adopting cycloidal pinwheel reducer as traction source
WO2017096579A1 (en) * 2015-12-08 2017-06-15 五行材料科技(江苏)有限公司 Reparation method for extending service life of petroleum transport pipe

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2289811Y (en) * 1996-06-03 1998-09-02 平阳县塑料机械总厂 Mesh braided bag round braider
CN2679183Y (en) * 2003-12-08 2005-02-16 湖南省华云机器厂 Sizing tubular knitting machine

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102002796A (en) * 2009-09-02 2011-04-06 顾新 Dual-shuttle circular loom for soft hoses
CN101966729A (en) * 2010-06-23 2011-02-09 昆山科信橡塑机械有限公司 Quick-open connecting structure of pelletizing die
CN104674437A (en) * 2013-12-01 2015-06-03 周海忠 Circular loom adopting cycloidal pinwheel reducer as traction source
WO2017096579A1 (en) * 2015-12-08 2017-06-15 五行材料科技(江苏)有限公司 Reparation method for extending service life of petroleum transport pipe

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