CN111039093A - Plate pressing device for plate connection - Google Patents

Abstract

The invention discloses a plate pressing device for plate connection, which comprises: the pressing plate mechanism comprises two pressing plates, a pressing plate locking device, a guiding device and a guide rod locking device; the two pressing plates can clamp the plate and are locked and fixed through the pressing plate locking device; the guide device and the guide rod locking device are fixed on the pressing plate; the telescopic mechanism comprises a guide rod and a floating joint, the guide rod penetrates through the guide device and the guide rod locking device, and the floating joint is fixed at the end part of the guide rod. In the invention, the design of combining the pressing plate mechanism and the telescopic mechanism can ensure that the plate is more flexible to disassemble, assemble and adjust when being connected with other parts, and the disassembly, the adjustment and the convenience in operation can be realized without tools in the installation and maintenance processes of equipment. In addition, the floating joint can be used for eliminating up-and-down fluctuation caused by factors such as uneven ground during the moving process of the platform.

Description

Plate pressing device for plate connection

Technical Field

The invention belongs to the technical field of spinning engineering machinery, and particularly relates to a plate pressing device for plate connection.

Background

With the development of automation technology, bobbin winders are also greatly improved in the spinning engineering machinery industry, more and more bobbin winder manufacturers design fully-automatic bobbin winders to replace the original automatic bobbin winders, but the fully-automatic bobbin winder has high equipment integration degree, so that the maintenance is inconvenient, and once the equipment fails, the machine needs to be stopped for maintenance for a long time; moreover, most of the fully automatic winding machines are provided by a plurality of large-scale enterprises abroad, and the equipment and the machines are expensive.

In textile enterprises in China, a large number of automatic winding machines exist, and although a yarn bank is provided, cop can be automatically wound in the winding process, matched workers are required to put the cop into the yarn bank; along with the increase of labor cost, the competition of the textile industry is more and more intense, textile enterprises need to seek to modify and upgrade the existing automatic bobbin winder to replace workers to carry out yarn throwing operation, the labor cost is reduced, the automation degree of a production workshop is improved, and the high cost investment for purchasing brand-new full-automatic equipment is avoided.

At present, various manufacturers have studied the automatic yarn feeding system of the automatic winder, such as the CN201610657354.2 cop automatic feeding device, which has been developed and described in some ways around the front arrangement of the cops, but the yarn feeding system and the platform are not fully described.

The company has also developed a certain research and development in this field, and has applied for a series of patents such as CN201810459188.4 an automatic yarn-feeding device for automatic winder, CN201810459241.0 a conveying system of an automatic yarn-feeding device, CN201810459168.7 an automatic yarn-feeding device for automatic winder, CN201810459167.2 a yarn-feeding arrangement system for automatic yarn-feeding device of automatic winder, etc.

However, in the production test process, the existing automatic yarn feeding system is considered to have the problems of inconvenient disassembly, assembly and maintenance and the like due to too high structural integration degree, so that the yarn feeding system for the automatic bobbin winder is further upgraded and improved, and is expected to be more suitable for the real requirements of textile enterprises.

Disclosure of Invention

Aiming at the technical problems of overhigh structural integration degree and inconvenient disassembly, assembly and maintenance of the automatic winder in the prior art, the applicant develops a novel yarn feeding system for the automatic winder, which has high working efficiency and is convenient to disassemble, assemble and maintain, and the invention aims to provide a pressing plate device for plate connection, so that the flexible connection between the yarn feeding system for the automatic winder and the automatic winder is realized, and the disassembly, the assembly and the maintenance of the yarn feeding system for the automatic winder and the automatic winder are more convenient.

The platen device for panel connection of the present invention comprises:

the device comprises a pressing plate mechanism, a positioning mechanism and a control mechanism, wherein the pressing plate mechanism comprises two pressing plates (311), a pressing plate locking device (312), a guide device (313) and a guide rod locking device (315); the two pressing plates (311) can clamp the plate and are locked and fixed through a pressing plate locking device (312); the guide device (313) and the guide rod locking device (315) are fixed on the pressure plate (311);

the telescopic mechanism comprises a guide rod (314) and a floating joint (316), the guide rod (314) penetrates through a guide device (313) and a guide rod locking device (315), and the floating joint (316) is fixed at the end part of the guide rod (314).

The existing automatic winder is provided with a side plate for supporting a machine body, and the pressing plate device is designed for the connection of a yarn feeding system for the automatic winder and the automatic winder, wherein two pressing plates (311) can clamp the side plate of the automatic winder for fixing, and a floating joint (316) is connected with a bracket or a similar structure of the yarn feeding system for the automatic winder. The yarn throwing system for the automatic winder can be close to or pulled away from the automatic winder along the guide rod (314), so that the installation and the disassembly are more convenient, and the yarn throwing platform or the inner winding station can be conveniently overhauled.

Preferably, one ends of the two pressure plates (311) are connected together through bolts and nuts, and the pressure plate locking device (312) is arranged at the other ends of the two pressure plates (311); the pressure plate locking device (312) is an eccentric locking device, the main body of the pressure plate locking device is a bolt and nut device, and a handle with a cam is arranged on a bolt head. The pressing plate locking device (312) is slightly tightened through the manual adjusting nut, then the handle with the cam is completely tightened through operation, the tail ends of the two pressing plates (311) are completely tightened through the pressing plate locking device (312), and therefore the two pressing plates (311) clamp the plate (such as a side plate of an automatic winder), in the installation and maintenance processes of equipment, the structure can be disassembled, adjusted and operated conveniently without tools.

Preferably, the guide rod (314) is a cylindrical guide shaft, the guide device (313) is a linear bearing, and the guide rod locking device (315) is an axial guide locking device with a locking bolt and is provided with an operating handle. Therefore, the guide rod (314) can be held or loosened by rotating the operating handle, so that the movement guiding function or the positioning locking function is realized.

Preferably, one end of the guide rod (314) close to the guide rod locking device (315) is provided with a pull-out limiting block (317), and the cross section of the limiting block (317) is larger than an inner hole of the guide rod locking device (315). When the guide rod (314) is pulled outwards, the pull-out limiting block (317) can prevent the guide rod (314) from being pulled out accidentally, so that the guide limiting block is invalid.

Preferably, the floating joint (316) comprises a guide rod seat (320) and a bracket seat (321), the guide rod seat (320) is connected with the guide rod (314), and the bracket seat (321) is connected to the guide rod seat (320) in a vertically floating manner. The floating joint can be used for eliminating the up-and-down fluctuation caused by factors such as uneven ground during the moving process of the platform.

Further, the specific design that the bracket seat (321) and the guide rod seat (320) can float up and down relatively is as follows: one end of the guide rod seat (320) is provided with a guide rod mounting hole (322), and the guide rod mounting hole (322) is sleeved on the guide rod (314); the other end of the guide rod seat (320) is a working end flat part, an adjusting groove (323) is arranged on the other end of the guide rod seat, and the adjusting groove (323) is a vertically arranged long strip-shaped arc-shaped groove; the middle of the bracket base (321) is provided with a through groove and is sleeved on the outer side of the flat part of the working end of the guide rod base (320), an adjusting bearing (324) is arranged in the adjusting groove (323) and is fixed in a pin shaft hole (326) of the bracket base (321) through a pin shaft (325), and the bracket base (321) can move up and down relative to the guide rod base (320) along the adjusting groove (323) under the limitation of the adjusting bearing (324).

Furthermore, the guide rod mounting hole (322) is provided with an opening part, and the opening part is locked by a screw so that the guide rod seat (320) is fastened on the guide rod (314).

The invention has the beneficial effects that:

1. the invention is designed aiming at the existing automatic winder and a newly developed automatic yarn throwing mechanism, and is used for connecting a yarn throwing system for the automatic winder with the automatic winder, wherein two pressing plates can clamp a side plate of the automatic winder for fixing, and a floating joint is connected with a bracket or a similar structure of the yarn throwing system for the automatic winder. The yarn throwing system for the automatic winder can be close to or pulled away from the automatic winder along the guide rod by using the pressing plate device, so that the installation and the disassembly are more convenient, and the yarn throwing platform or the inner winding station can be conveniently overhauled. In addition, the floating joint can be used for eliminating the up-and-down fluctuation caused by factors such as uneven ground during the moving process of the platform.

2. The invention also provides a pressing plate locking device and a guide rod locking device for the pressing plate and the guide rod, and the pressing plate locking device and the guide rod locking device are respectively provided with a handle, so that the structure can be assembled, disassembled and adjusted without tools in the installation and maintenance processes of the equipment, and the operation is convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of a yarn feeding system for an automatic winder according to the present invention;

FIG. 2 is a schematic structural view of an automatic yarn feeding platform of the present invention;

FIG. 3 is a schematic view of the platen assembly installation of the present invention;

FIG. 4 is a partial schematic view of a platen apparatus of the present invention;

FIG. 5 is a schematic view of the platen assembly of the present invention;

FIG. 6 is a schematic view of the guide bar of the platen assembly of the present invention in a pulled-out state;

FIG. 7 is a disassembled view of the floating joint of the present invention;

FIG. 8 is a cross-sectional view of an adjustment mechanism for the floating joint of the present invention;

FIG. 9 is a schematic view of the butt joint of the No. 1 yarn throwing platform and the intermediate butt joint system of the present invention;

FIG. 10 is a partial schematic view of the No. 1 yarn feeding platform of the present invention;

FIG. 11 is a schematic structural view of a No. 2 yarn feeding platform of the present invention;

FIG. 12 is a partial structural view of a material taking and lifting mechanism of the No. 2 yarn feeding platform according to the present invention;

FIG. 13 is another end portion of the yarn feeding platform of number 2 of the present invention;

fig. 14 is a schematic view of the drop as a take off mechanism of the present invention;

fig. 15 is a schematic view of a reclaiming lift mechanism of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples. It should be understood that the following examples are illustrative only and are not intended to limit the scope of the present invention.

Example 1

A yarn feeding system for automatic winders according to the invention will be described in more detail below with reference to schematic drawings, in which preferred embodiments of the invention are shown, it being understood that a person skilled in the art may modify the invention described herein while still achieving the advantageous effects of the invention. Accordingly, the following description should be construed as broadly as possible to those skilled in the art and not as limiting the invention.

As shown in fig. 1, a new yarn feeding system for an automatic winder developed by the present applicant is applied to the platen device for plate connection of the present invention. In the yarn feeding system for the automatic winder, a control system 1 and an automatic winder 2 of the winder are original equipment, an automatic yarn feeding platform 3 is arranged on the working side of the automatic winder 2, and corresponding cop yarns are fed into a winding station to be fed by the automatic yarn feeding platform 3, so that the production requirement of the automatic winder 2 is met; the equipment matched with the automatic yarn feeding platform 3 comprises a middle butt joint system 4, a cop arranging system 5 and a cop storing and lifting system 6.

Different from the original technical scheme of the company (CN201810459241.0 a conveying system of automatic yarn feeding equipment), the automatic yarn feeding platform 3 is arranged at the working side of the automatic winder 2 and is flush with the winding station of the automatic winder 2, and the automatic yarn feeding platform 3 is arranged in sections and connected with each other to meet the yarn feeding requirement of cop of the whole automatic winder 2 production line.

The cop to be spooled is stored in a cop storage and lifting system 6, then is transmitted to a cop arranging system 5 one by one, and is arranged and pre-processed, so that the cop is loaded on a special collet, and then is transmitted to an automatic yarn feeding platform 3 by an intermediate butt joint system 4 for conveying; the automatic yarn feeding platform 3 also conveys the empty bottom supports after yarn feeding to corresponding channels of the bobbin yarn arrangement system 5 through the middle butt joint system 4 for inserting new bobbins to be wound.

As shown in fig. 2, which is a schematic structural diagram of the automatic yarn feeding platform 3, according to the working condition of the automatic winder 2, the automatic yarn feeding platform 3 is divided into two modules, namely a yarn feeding platform No. 1 31 and a yarn feeding platform No. 2 32, which are respectively used for corresponding to the winding working areas at the front end and the rear end of the automatic winder 2; the 2 yarn throwing platforms have the same basic structure and respectively comprise a bracket, a three-layer conveying device and a yarn throwing device, wherein the three-layer conveying device and the yarn throwing device are arranged on the bracket; the three-layer conveying device is used for conveying the cops and the bottom supports conveyed by the middle butt joint system 4 along the working side of the automatic winder 2; the yarn feeding device is arranged above the three-layer conveying device, corresponds to each spooling station and is used for feeding cop into the spooling station to be fed.

The supports of the yarn throwing platform No. 1 31 and the yarn throwing platform No. 2 32 are respectively connected with the automatic winder 2 through the pressure plate device 307 of the invention; an adjustable universal wheel 308 is arranged below the support of the yarn feeding platform No. 1 31 and the yarn feeding platform No. 2, so that the movable supporting effect is achieved; platform push-and-pull handrails 309 are installed on the outer sides of the yarn throwing platform 31 and the yarn throwing platform 2, and the yarn throwing platform 31 or the yarn throwing platform 2 can be pulled away from the automatic winder 2 independently through the platform push-and-pull handrails 309, so that platform maintenance is carried out, or the automatic winder 2 is maintained.

FIG. 3 is a schematic view of the installation of the platen apparatus 307 of the present invention; FIG. 4 is a partial schematic view of a platen apparatus of the present invention; the automatic winder 2 has a side plate for supporting the machine body, and the automatic yarn feeding platform 3 is mounted on the side plate through a pressing plate device 307. The platen device 307 includes a platen mechanism and a telescopic mechanism. The pressing plate mechanism comprises two pressing plates 311, a pressing plate locking device 312, a guide device 313 and a guide rod locking device 315; the two pressing plates 311 clamp the side plates of the automatic winder 2 and are locked and fixed by a pressing plate locking device 312; guide 313 and guide bar locking device 315 are secured to pressure plate 311. The telescopic mechanism comprises a guide rod 314 and a floating joint 316, the guide rod 314 penetrates through a guide device 313 and a guide rod locking device 315, and the floating joint 316 is fixed at the end part of the guide rod 314 and is connected with the bracket of the No. 1 yarn throwing platform 31 or the No. 2 yarn throwing platform 32. When the yarn throwing machine is used, the guide rod 314 can perform telescopic motion along the guide device 313 and the guide rod locking device 315, so that the yarn throwing platform 1 or the yarn throwing platform 2 can perform telescopic motion along the guide rods 314 on the two sides of the platform, and meanwhile, the guide rod 314 can be locked by operating the guide rod locking device 315, so that the yarn throwing machine cannot freely move. The floating joint 316 is used to eliminate the up-and-down fluctuation caused by the uneven ground during the movement of the platform.

FIG. 5 is a schematic view of the structure of the platen device 307 of the present invention; the guide rod 314 can be installed on the pressing plate 311 on one side of the pressing plate device 307 according to design requirements, or the guide rods 314 are installed on the pressing plates 311 on both sides, which mainly refers to the installation position of the pressing plate device 307, if the guide rod 314 is installed at one end of the yarn throwing platform 31 No. 1 or the yarn throwing platform 32 No. 2, only one side close to the yarn throwing platform needs to be provided with the guide rod 314 to be connected with the corresponding platform; at the joint of the two yarn feeding platforms, guide rods 314 are required to be arranged on the pressing plates 311 at the two sides and are respectively connected with the yarn feeding platforms at the two sides, and 2 guide rods 314 are independent from each other, so that the 2 yarn feeding platforms can realize telescopic pulling-out propelling movement independently from each other.

Preferably, the guide rod 314 is a cylindrical guide shaft, the guide device 313 is mainly a linear bearing, and the guide rod locking device 315 is an axial guide locking device with a locking bolt, and has an operating handle, and the guide rod 314 can be held or released by rotating the operating handle to play a role of motion guiding or positioning locking.

Preferably, a pull-out stopper 317 having a larger cross-sectional size than the inner hole of the guide locking means 315 is provided at the other end of the guide 314, i.e., at a side close to the guide locking means 315, so that when the guide 314 is pulled out, the pull-out stopper 317 can prevent the guide 314 from being pulled out accidentally, which may result in a failure of the guide stopper.

Preferably, one ends of the two pressing plates 311 are connected together through bolts and nuts and clamped on a side plate of the automatic winder 2, the other ends of the two pressing plates 311 are provided with pressing plate locking devices 312, the pressing plate locking devices 312 are eccentric locking devices, the main bodies of the pressing plate locking devices are bolt and nut devices, a handle with a cam is arranged on a bolt head, the pressing plate locking devices 312 are slightly tightened through manually adjusting the nuts, then the handle with the cam is operated to be completely tightened, the tail ends of the two pressing plates 311 are completely tightened through the pressing plate locking devices 312, and therefore the 2 pressing plates 311 clamp the side plate of the automatic winder 2.

Fig. 6 is a schematic diagram showing a state that the guide rod of the pressure plate device 307 of the present invention is pulled out, at this time, the yarn feeding platform No. 1 or the yarn feeding platform No. 2 is pulled away from the winding station of the automatic winder 2, and the yarn feeding platform No. 1 or the winding station at the inner side can be conveniently overhauled.

Fig. 7 is a schematic view of the floating joint 316 according to the present invention; FIG. 8 illustrates a cross-sectional view of an adjustment mechanism for the floating joint 316 of the present invention; the floating joint 316 is installed at the end of the guide rod 314 and comprises a guide rod seat 320 and a bracket seat 321, wherein one end of the guide rod seat 320 is provided with a guide rod installation hole 322, the guide rod installation hole 322 is provided with an opening part, the guide rod installation hole 322 is sleeved on the guide rod 314, and then the opening part is locked by a screw to ensure that the guide rod seat 320 is fastened on the guide rod 314; the working end of the guide rod seat 320 is a flat part, an adjusting groove 323 is arranged on the flat part, and the adjusting groove 323 is a vertically arranged long strip-shaped arc-shaped groove; the bracket bases 321 are fixedly arranged on two sides of the No. 1 yarn feeding platform 31 or the No. 2 yarn feeding platform 32; the middle of the bracket seat 321 is provided with a through groove which is sleeved outside the flat part at the working end of the guide rod seat 320, an adjusting bearing 324 is arranged in the adjusting groove 323 and is fixed in a pin shaft hole 326 of the bracket seat 321 through a pin shaft 325, and the bracket seat 321 can move up and down relative to the guide rod seat 320 along the adjusting groove 323 under the limitation of the adjusting bearing 324 to realize adjustment.

The three-layer conveying devices of the yarn throwing platform 31 and the yarn throwing platform 2 are respectively an upper-layer platform conveying track 301, a lower-layer platform conveying track 302 and a bottom support recovery conveying track 310. Wherein, the upper layer platform conveying tracks 301 of the No. 1 yarn throwing platform 31 and the No. 2 yarn throwing platform 32 are two sections of independent transmission units which run oppositely; the lower-layer platform conveying rails 302 of the No. 1 yarn throwing platform 31 and the No. 2 yarn throwing platform 32 are connected to form a conveying unit in the same direction, and the bottom support recycling conveying rails 310 of the No. 1 yarn throwing platform 31 and the No. 2 yarn throwing platform 32 are arranged between the upper-layer platform conveying rails 301 and the lower-layer platform conveying rails 302 and are also connected to form a conveying unit in the same direction; the end of the yarn throwing platform No. 2 32 is provided with a material taking and lifting mechanism 303. The number 1 yarn throwing platform 31 and the number 2 yarn throwing platform 32 are connected through a platform butt joint mechanism 304, but the upper layer platform conveying tracks 301 of the 2 yarn throwing platforms are not connected;

the middle butt joint system 4 is provided with a bottom support distribution mechanism 401, a material taking and descending mechanism 402, a lower layer cop conveying channel 403 and an upper layer cop conveying channel. Wherein, upper cop transfer passage and the upper platform transfer orbit 301 butt joint of 1 number throwing yarn platform 31 for send the cop and the collet assembled to upper platform transfer orbit 301. The material taking and descending mechanism 402 is arranged at the starting end of the lower cop conveying channel 403 and is used for conveying the assembled cops and the bottom supports downwards onto the lower cop conveying channel 403. The lower cop conveying channel 403 is in butt joint with the lower platform conveying track 302 of the No. 1 yarn throwing platform 31 and is used for conveying the assembled cops and the bottom supports to the lower platform conveying track 302. The collet distributing mechanism 401 is in butt joint with the collet recovering conveying track 310 of the No. 1 yarn throwing platform 31, is used for recovering empty collets, and is divided into two conveying channels to be distributed and sent back to the cop arranging system 5.

Fig. 9 is a schematic diagram of the butt joint of the yarn feeding platform No. 1 and the intermediate butt joint system 4, which is separated from each other to show the structure of the butt joint portion, and includes an upper butt joint portion 341 connected to the upper platform conveying track 301 for conveying the cop output from the upper cop conveying channel of the intermediate butt joint system 4 to the upper platform conveying track 301 of the yarn feeding platform No. 1; the lower layer butt joint part 342 is connected with the lower layer platform conveying track 302 and is used for conveying the cop output by the lower layer cop conveying channel 403 of the middle butt joint system 4 to the lower layer platform conveying track 302 of the No. 1 yarn throwing platform 31 and further conveying the cop to the upper layer platform conveying track 301 of the No. 2 yarn throwing platform 32 for yarn throwing; the device also comprises a bottom support butt joint part 343 connected with the bottom support recycling conveying track 310 and used for conveying empty bottom supports generated after the yarn feeding of the yarn feeding platform No. 1 31 and the yarn feeding platform No. 2 32 is finished back to the middle butt joint system 4.

During operation, the yarn feeding platform No. 1 and the yarn feeding platform No. 2 can simultaneously feed yarns. Specifically, the method comprises the following steps: cop and collet output from a lower layer cop conveying channel of the middle butt joint system 4 are conveyed to an upper layer platform conveying track 301 of the No. 1 yarn throwing platform 31, the upper layer platform conveying track 301 of the No. 1 yarn throwing platform 31 drives the cop and the collet to move forwards, and the cop and the collet are thrown into a spooling station to be fed by a yarn throwing device on the No. 1 yarn throwing platform 31 to finish yarn throwing; meanwhile, cop and a collet output from a lower layer cop conveying channel 403 of the middle butt joint system 4 are conveyed to a lower layer platform conveying track 302 of the yarn throwing platform 32 through a lower layer platform conveying track 302 of the yarn throwing platform 31 No. 1, then cop is lifted to an upper layer platform conveying track 301 of the yarn throwing platform 32 No. 2 from the lower layer platform conveying track 302 of the yarn throwing platform 32 No. 2 by a material taking and lifting machine 303 arranged at the tail end of the yarn throwing platform 32 No. 2, the upper layer platform conveying track 301 of the yarn throwing platform 32 is driven to advance with the cop and the collet, the advancing direction is opposite to that of the upper layer platform conveying track 301 of the yarn throwing platform 31 No. 1, and a yarn throwing device on the yarn throwing platform 32 No. 2 can finish yarn throwing work at the same time. After the cop is put in, the empty bottom supports on the yarn throwing platform No. 1 31 and the yarn throwing platform No. 2 32 are conveyed to the bottom support recovery conveying track 310 and are conveyed back to the middle butt joint system 4 by the bottom support recovery conveying track.

As shown in fig. 10, which is a partial schematic view of the yarn feeding platform No. 1, the upper-layer platform conveying track 301 is provided with two conveying belts in the same horizontal plane, one is a cop input conveying belt 351 arranged on one side close to the yarn feeding device, and the other is a cop circulating conveying belt 352 arranged in parallel on the outer side; and circulating guide mechanisms 306 are arranged at two ends of the upper-layer platform conveying track 301 and between the cop input conveying belt 351 and the cop circulating conveying belt 352, and the circulating guide mechanisms 306 are provided with guide cylinder mechanical arms 353.

The yarn feeding device comprises a yarn feeding mechanical arm 305, an inlet toggle cylinder 354, a yarn feeding area detection sensor 355, a bottom bracket support 356 and a bottom bracket support cylinder 359; the yarn throwing manipulator 305 is arranged on the upper-layer platform conveying track 301 and corresponds to each winding station; the inlet toggle cylinder 354 and the yarn feeding area detection sensor 355 are arranged at the inlet of the yarn feeding area where each yarn feeding manipulator 305 is located, the collet support 356 is arranged above the collet recovery conveying track 310 and is provided with a collet downward sliding inclined plane 358 capable of inclining downwards, and the collet support cylinder 359 is connected below the collet downward sliding inclined plane 358.

When yarn throwing works, at the inlet of a yarn throwing area where each yarn throwing manipulator 305 is located, a yarn throwing area detection sensor 355 firstly judges whether a cop exists in the yarn throwing area, when no cop exists, an inlet poking cylinder 354 is opened, the cop input on a conveyer belt 351 is put into the yarn throwing area, at the moment, the yarn throwing area detection sensor 355 detects that the cop exists, the inlet poking cylinder 354 is closed, and the cop input on the conveyer belt 351 cannot enter the yarn throwing area any more; when the bobbin yarn is needed in the winding station, the yarn throwing manipulator 305 acts to grab the bobbin yarn in the yarn throwing area, lift the bobbin yarn, rotate the bobbin yarn by a certain angle, turn the bobbin yarn inlet area of the winding machine and the yarn throwing release area 356, then release the bobbin yarn and throw the bobbin yarn into the winding station. Correspondingly, the yarn feeding area detecting sensor 355 detects that the cop has been taken away, the collet support 356 descends by a certain height under the action of the collet support cylinder 359 below, so that the empty collet slides down along with the collet to slide down the inclined plane 358, and then falls onto the collet recovery conveying track 310 (i.e. the collet conveying belt 360 which is opposite to the running direction of the cop input conveying belt 351 of the yarn feeding platform 31 No. 1 shown in fig. 10) to convey the cop to the middle butt joint system 4. After the empty bottom support slides, the bottom support 356 returns to the original height again, and the cylinder 354 is stirred to open at the inlet at the moment to put in a new cop.

When the cop transported on the cop input transport belt 351 does not enter the yarn feeding area of the yarn feeding robot 305, the cop is transported from the cop circulating transport belt 352 to the start end of the cop input transport belt 351 while being guided by the circulating guide mechanism 306, and is transported again from the cop circulating transport belt 352 to the cop input transport belt 351 for transport again by the guide cylinder robot 353 of the other circulating guide mechanism 306.

As shown in fig. 11, which is a schematic structural view of the yarn feeding platform No. 2 of the present invention, wherein a part of the mechanism schematic view of the material taking and lifting mechanism 303 is shown in fig. 12, the material taking and lifting mechanism 303 is provided with a docking station 330 that docks with the cop conveying platform of the yarn feeding platform No. 2 32, when the material taking and lifting mechanism 303 lifts the cop to the docking station 330, the material pushing mechanism 331 works to push the lifted cop to the cop feeding and conveying belt of the yarn feeding platform No. 2 through the docking station 330 for transmission. Fig. 13 shows that the other end of the yarn feeding platform 32 is a schematic structural view, the running direction of the collet recovery conveying track 310 of the yarn feeding platform 32 is the same as the running direction of the cop feeding conveying belt of the yarn feeding platform 32, and the collet recovery conveying track 310 of the yarn feeding platform 31 is communicated with the collet recovery conveying track 310 of the yarn feeding platform 2, and the empty collet generated in the yarn feeding process is finally input to the middle butt joint system 4 and then conveyed to the cop sorting system 5 one by the middle butt joint system 4 for recycling.

As shown in fig. 14, a schematic diagram of the material drop mechanism 402 is shown; the material taking descending mechanism 402 is provided with a material taking descending mechanism body 411, a material taking descending mechanism guide rail 412 is vertically arranged on the material taking descending mechanism body 411, and a material taking descending mechanism sliding block 413 is arranged on the material taking descending mechanism guide rail 412; the top of the material taking descending mechanism body 411 is provided with a lifting driving motor 414, the output end of the lifting driving motor 414 is connected with a lifting driving screw 415 parallel to the material taking descending mechanism guide rail 412, the lifting driving screw 415 is provided with a driving nut 416, the driving nut 416 is arranged on a first lifting plate 417, and the first lifting plate 417 is connected with a material taking descending mechanism sliding block 413; a second lifting plate 418 is arranged right below the first lifting plate 417, and the first lifting plate 417 and the second lifting plate 418 are in supporting connection through a first spring guide 419; the bottom of the material taking descending mechanism body 411 is also provided with a lifting limiting device 420 of a second lifting plate 418; a first collet cop storage platform 426 is connected to one side of the second lifting plate 418; a first material pushing plate 421, namely the material pushing mechanism 331, is slidably arranged on the first bottom-mounted cop storage platform 426, and a first gear and rack system is arranged on one side of the first bottom-mounted cop storage platform; the first gear rack system comprises a first gear rack 422, a first gear 423, a second gear 424 and a second gear rack 425, wherein the first gear rack 422 is horizontally arranged and is connected with the first material pushing plate 421, and the movement directions of the first gear rack 422 and the second gear rack are consistent; a first gear 423 engaged below the first rack 422 and supported by a bearing support system fixed to one side of the second lifting plate 418; the second gear 424 is positioned on one side of the first lifting plate 417 and is coaxially and fixedly connected with the first gear 423; the second rack 425 is vertically connected to the first elevating plate 417 and engaged with the second gear 424. In actual operation, under the driving of the lifting driving motor 414, the first lifting plate 417 drives the second lifting plate 418 to descend together through the first spring guide 419, and then the second lifting plate 418 contacts with the lifting limiting device 420, so that the second lifting plate 418 stays at a limited height, even if the first collet cop storage platform 426 of the second lifting plate 418 is flush with the lower layer cop conveying channel 403, at this time, due to the first spring guide 419, the lifting driving screw 415 can continue to drive the driving nut 416 and the first lifting plate 417 to continue to move downwards, when the first lifting plate 417 compresses the first spring guide 419, the first rack-and-pinion system starts to operate, the first lifting plate 417 drives the second rack 425 to move downwards, so that the second gear 424 rotates, and at this time, the first gear 423 rotates synchronously to drive the first rack 422 to realize horizontal movement, the first ejector plate 421 connected to the first rack 422 is pushed to move, so as to push the collet and the cop from the first collet and cop storage platform 426 to the lower layer cop conveying channel 403.

As shown in fig. 15, a schematic view of the reclaiming lift mechanism 303 is shown; the material taking lifting mechanism 303 is the same as the material taking descending mechanism 402 in principle, and is also provided with a material taking lifting mechanism body 361, a vertical material taking lifting mechanism guide rail 362 is installed on the material taking lifting mechanism body 361, and a material taking lifting mechanism sliding block is installed on the material taking lifting mechanism guide rail 362; the top of the material taking lifting mechanism body 361 is provided with a material taking lifting mechanism driving motor 354, the output end of the material taking lifting mechanism driving motor is connected with a material taking lifting driving screw 365 which is parallel to the material taking lifting mechanism guide rail 362, a second lifting driving nut is arranged on the material taking lifting driving screw 365, and the second lifting driving nut is arranged on a first lifting plate 367 connected with a material taking lifting mechanism sliding block; a second lifting plate 368 is arranged right above the first lifting plate 367, the first lifting plate 367 and the second lifting plate 368 are supported and connected through a second spring guide 369, and a lifting limiting device 370 for the second lifting plate 368 is further arranged at the top of the material taking lifting mechanism body 361; a second bottom mount cop storage platform 376 is arranged on one side of the second lifting plate 368; the second bottom-mounted cop storage platform 376 is slidably provided with a second material pushing plate 371, and a second gear rack system is arranged on one side of the second material pushing plate; the second gear rack system comprises a third gear rack 372, a third gear 373, a fourth gear 374 and a fourth gear rack 375, wherein the third gear rack 372 is horizontally arranged and connected with the second material pushing plate 371, and the movement directions of the third gear rack 372 are consistent; a third gear 373 engaged under the third rack 372 and supported by a bearing support system fixed to one side of the second lifting plate 368; the fourth gear 374 is positioned on the side of the first lifting plate 367 and is coaxially and fixedly connected with the third gear 373; the fourth gear rack 375 is vertically connected to the first lift plate 367 and is engaged with the fourth gear 374. In actual operation, under the driving of the material taking elevator driving motor 354, the first lifting plate 367 drives the second lifting plate 368 to ascend together through the second spring guiding device 369, and then the second lifting plate 368 contacts with the lifting limiting device 370, so that the second lifting plate 368 stays at the limited height, even if the second bottom cop storage platform of the second lifting plate 368 is flush with the upper platform conveying track 301 of the automatic yarn feeding platform 3, at this time, due to the second spring guiding device 369, the material taking elevator driving screw 365 can continue to drive the second lifting driving nut and the first lifting plate 367 to continue to move upwards. When the first lifting plate 367 compresses the second spring guiding device 369, the second gear rack system starts to operate, the first lifting plate 367 drives the fourth rack 375 to move upwards, so that the fourth gear 374 rotates, and at the moment, the third gear 373 synchronously rotates to drive the third rack 372 to move horizontally, so that the second material pushing plate 371 connected with the third rack 372 can be pushed to move, and the bottom supports and the cop yarns are pushed out to the upper-layer platform conveying track 301 from the first bottom support cop yarn storage platform 376.

The above description is only a preferred embodiment of the present invention, and does not limit the present invention in any way, and the present invention is not limited to the connection of yarn feeding system and automatic winder for automatic winder, and can be applied to the connection of any other similar plate or other similar situation. It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A platen apparatus for panel connection, comprising:

the device comprises a pressing plate mechanism, a positioning mechanism and a control mechanism, wherein the pressing plate mechanism comprises two pressing plates (311), a pressing plate locking device (312), a guide device (313) and a guide rod locking device (315); the two pressing plates (311) can clamp the plate and are locked and fixed through a pressing plate locking device (312); the guide device (313) and the guide rod locking device (315) are fixed on the pressure plate (311);

the telescopic mechanism comprises a guide rod (314) and a floating joint (316), the guide rod (314) penetrates through a guide device (313) and a guide rod locking device (315), and the floating joint (316) is fixed at the end part of the guide rod (314).

2. The platen assembly for joining panels as claimed in claim 1, wherein one ends of the two platens (311) are connected together by bolts and nuts, and the platen locking device (312) is provided at the other ends of the two platens (311); the pressure plate locking device (312) is an eccentric locking device, the main body of the pressure plate locking device is a bolt and nut device, and a handle with a cam is arranged on a bolt head.

3. The platen assembly for plate connection according to claim 1, wherein the guide rod (314) is a cylindrical guide shaft, the guide unit (313) is a linear bearing, and the guide rod locking unit (315) is an axial guide locking unit with a locking bolt and has an operating handle.

4. The platen apparatus for plate connection according to claim 1, wherein a pull-out stopper 317 is provided at an end of the guide rod 314 adjacent to the guide rod locking means 315, the stopper 317 having a sectional size larger than an inner hole of the guide rod locking means 315.

5. The platen apparatus for plate connection according to claim 1, wherein the floating joint (316) includes a guide bar holder (320) and a bracket holder (321), the guide bar holder (320) being connected to the guide bar (314), the bracket holder (321) being floatingly connected to the guide bar holder (320) up and down.

6. The platen apparatus for plate connection according to claim 5, wherein one end of the guide rod seat (320) is provided with a guide rod mounting hole (322), and the guide rod mounting hole (322) is sleeved on the guide rod (314); the other end of the guide rod seat (320) is a working end flat part, an adjusting groove (323) is arranged on the other end of the guide rod seat, and the adjusting groove (323) is a vertically arranged long strip-shaped arc-shaped groove; the middle of the bracket base (321) is provided with a through groove and is sleeved on the outer side of the flat part of the working end of the guide rod base (320), an adjusting bearing (324) is arranged in the adjusting groove (323) and is fixed in a pin shaft hole (326) of the bracket base (321) through a pin shaft (325), and the bracket base (321) can move up and down relative to the guide rod base (320) along the adjusting groove (323) under the limitation of the adjusting bearing (324).

7. The platen apparatus for panel connection according to claim 6, wherein the guide bar mounting hole (322) is provided with an opening portion for fastening the guide bar holder (320) to the guide bar (314) by screw locking.

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