CN214563318U - Automatic square filter bag processing production line - Google Patents

Abstract

An automatic processing production line for square filter bags comprises a belt placing deviation rectifying mechanism and a welding and cutting mechanism; the belt-releasing deviation-rectifying mechanism comprises a support, an upper tensioning shaft and a lower tensioning shaft are arranged at the front end of the support, an upper group of deviation-rectifying mechanisms and a lower group of deviation-rectifying mechanisms are fixed at the rear end of the support, and each group of deviation-rectifying mechanisms comprises an integrated deviation-rectifying guide frame and a deviation-rectifying sensor; the welding and cutting mechanism comprises a supporting platform, wherein an upper cutting roller, a lower cutting roller, a welding roller, a guide roller and a cutting roller are rotatably arranged on the supporting platform; the lower ends of the upper cutting roller, the lower cutting roller, the guide roller and the cutting roller are all provided with conveying rollers, and an ultrasonic system welding kit is arranged below the welding rollers; the upper cutting roller, the lower cutting roller, the welding roller, the guide roller and the cutting roller are driven by a gear transmission mechanism, a synchronous belt transmission mechanism and a servo motor to perform synchronous transmission. The utility model provides a pair of square branch filter bag automatic processing production line not only raises the efficiency, improves the precision moreover.

Description

Automatic square filter bag processing production line

Technical Field

The utility model relates to a filter bag, especially a square branch filter bag automatic processing production line are divided to fibre.

Background

The fiber filter bag (length, width =60mm, 50 mm) produced by the company is mainly used on a detection instrument in the feed industry and used for a detection packaging bag for analyzing the content of cellulose fiber. In order to facilitate the loading of detection materials, the upper end of the existing fiber filter bag is opened, and in order to facilitate the opening, one end of the existing fiber filter bag is higher and the other end is lower, and the height difference is about 1.5mm-2.0 mm. When the existing fiber separating filter bag is processed, the fiber is firstly cut into a certain width through equipment, then the height difference of two ends after being folded is manually folded to be larger than 5mm, then the fiber is placed in the equipment to be sealed at the left side and the right side, and finally the height difference of an opening end is recovered to be about 1.5mm after the longer side edge of the end is cut. There are two problems with this approach: 1) continuity cannot be achieved, and efficiency is low; 2) the initial height difference is different when the folding is carried out manually, and the height difference of the later opening is different, so that the produced products are different; 3) and a plurality of people and equipment work together, which causes low efficiency.

The patent with application number ' 201420155682.9 ' servo roll ultrasonic and tracking transverse ultrasonic sealing non-woven fabric dust bag forming machine ' is a non-woven fabric bag processing machine, but the machine is directly punched and sealed, and is different from the fiber filter bag structure to be processed in the application, in process and equipment structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a square branch filter bag automatic processing production line is provided, but mechanical continuous production not only raises the efficiency, improves the precision moreover, guarantees the uniformity. In addition, the device realizes alone the last product of rolling can, practices thrift the cost.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

an automatic processing production line for square filter bags comprises a belt placing deviation rectifying mechanism and a welding and cutting mechanism;

the belt-releasing deviation-rectifying mechanism comprises a support, an upper tensioning shaft and a lower tensioning shaft are arranged at the front end of the support, an upper group of deviation-rectifying mechanisms and a lower group of deviation-rectifying mechanisms are fixed at the rear end of the support, and each group of deviation-rectifying mechanisms comprises an integrated deviation-rectifying guide frame and a deviation-rectifying sensor;

the welding and cutting mechanism comprises a supporting platform, wherein an upper cutting roller, a lower cutting roller, a welding roller, a guide roller and a cutting roller are rotatably arranged on the supporting platform;

conveying rollers are arranged at the lower ends of the upper cutting roller, the lower cutting roller, the guide roller and the cutting roller, and a first gear is arranged on each conveying roller;

an ultrasonic system welding kit and a second gear are arranged below the welding roller;

and the upper cutting roller, the lower cutting roller, the welding roller, the guide roller and the cutting roller are provided with third gears, the third gears are meshed with the first gears and the second gears, and the first gears and the second gears are driven to perform synchronous transmission through a synchronous belt transmission mechanism and a servo motor on the outer side of the supporting platform.

The left and right sides of the upper cutting roll and the lower cutting roll are respectively fixed with a cutting knife, and the width difference formed by the width between the two cutting knives of the upper cutting roll and the width between the two cutting knives of the lower cutting roll is the same as or twice as the height difference of the two sides of the opening end of the fiber filter bag.

The welding roller is fixed with an ultrasonic edge sealing die, the ultrasonic edge sealing die comprises a middle annular part, a plurality of strip-shaped parts are uniformly arranged on one side or the left side and the right side of the annular part in the circumferential direction, and the strip-shaped parts are just opposite to or far away from the welding sleeve of the ultrasonic system.

And cutting pieces corresponding to the ultrasonic edge sealing die are circumferentially distributed on the cutting roller.

The synchronous belt conveying mechanism comprises double synchronous belt wheels and single synchronous belt wheels, the double synchronous belt wheels and the single synchronous belt wheels are coaxially connected with a first gear or a second gear, a driving synchronous belt wheel is installed below the supporting platform, and a plurality of synchronous belts are sequentially wound on the double synchronous belt wheels, the single synchronous belt wheels and the driving synchronous belt wheels to realize synchronous action of conveying rollers.

The offcut spool is installed to the supporting platform below, and offcut spool one side is connected with driven synchronous pulley, and driven synchronous pulley and one of them a set of double synchronous pulley sharing hold-in range.

The utility model relates to a square branch filter bag automatic processing production line has following technological effect:

1) the upper non-woven fabric and the lower non-woven fabric are respectively cut by adopting the upper cutting roller and the lower cutting roller, so that the left side and the right side of the lower non-woven fabric are wider than the upper non-woven fabric by a fixed length distance, and the fixed length distance is the same as the height difference of two sides of the opening end of the fiber sub-filter bag; after the continuous heat-sealing welding and cutting, the fiber sub-filter bag shown in fig. 10 can be manufactured, and the height difference of the upper end opening of the fiber sub-filter bag is always kept consistent. Therefore, the whole process is mechanical operation, and the efficiency is very high. Only one person is needed to package the whole process at last, so that the cost is greatly saved.

2) The ultrasonic edge sealing die of the annular part and the strip-shaped part of the welding roller belt is matched with the corresponding cutting roller, so that the eight fibers can be thermally sealed and cut out of the filter bag by the welding roller and the cutting roller every rotating a circle, and the working efficiency is improved.

3) Carry out synchronous conveying and by same platform motor drive through passing through hold-in range transport mechanism, gear transport mechanism with all roller, guarantee like this that cutting, seal, tailor and carry out the in-process that conveys simultaneously and keep the uniformity to need not to set up extra supervisory equipment.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the structure diagram of the deviation correcting mechanism of the intermediate-release belt of the utility model.

Fig. 3 is a schematic structural diagram of the middle welding and cutting mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the middle welding and cutting mechanism of the present invention.

Fig. 5 is a main sectional view of the lower cutting roll of the present invention.

Fig. 6 is a schematic structural view of the welding roller of the present invention.

Fig. 7 is a schematic structural view of the cutting roller of the present invention.

Fig. 8 is a schematic view of the working state of the present invention.

Fig. 9 is a schematic view of the upper and lower non-woven fabrics of the present invention after heat sealing.

Fig. 10 is a schematic structural view of the fiber filter bag of the present invention.

Fig. 11 is a schematic distribution diagram (the first type) of the cutting knives of the upper and lower cutting rolls of the present invention.

Fig. 12 is a schematic distribution diagram (second type) of the cutting knives of the upper and lower cutting rolls of the present invention.

In the figure: the device comprises a belt placing deviation correcting mechanism 1, a welding and cutting mechanism 2, a support 1.1, an upper tensioning shaft 1.2, a lower tensioning shaft 1.3, an integrated deviation correcting guide frame 1.4, a deviation correcting sensor 1.5 and a control box 1.6; an upper cutting roll 2.1, a lower cutting roll 2.2, a welding roll 2.3, a guide roll 2.4, a cutting roll 2.5, a conveying roll 2.6, a first gear 2.7, an ultrasonic system welding kit 2.8, a second gear 2.9, a third gear 2.10, a synchronous belt conveying mechanism 2.11, a double synchronous pulley 2.11.1, a single synchronous pulley 2.11.2, a driving synchronous pulley 2.11.3, a synchronous belt 2.11.4, a servo motor 2.12 supporting platform 2.13, a cutting knife 2.14, an ultrasonic edge sealing die 2.15, an annular part 2.15.1, a strip part 2.15.2, a cutting piece 2.16, a rim charge reel 2.17 and a driven synchronous pulley 2.18; an upper non-woven fabric 3, a lower non-woven fabric 4, a hot sealing edge 5 and a cutting line 6.

Detailed Description

As shown in figure 1, the automatic square filter bag processing production line comprises a belt placing deviation rectifying mechanism 1 and a welding and cutting mechanism 2.

As shown in fig. 2, put area mechanism 1 of rectifying includes support 1.1, and two sets of bearing frames about the support 1.1 front end is installed, and rotatable the installing of last tensioning axle 1.2, lower tensioning axle 1.3 on two sets of bearing frames, go up tensioning axle 1.2, lower tensioning axle 1.3 and be used for the installation of non-woven fabrics take-up reel. But be equipped with the scale on the reducing reel, conveniently set up the non-woven fabrics in the set position with the coiling like this, make the last non-woven fabrics 3 that stretches out, the relative position of lower non-woven fabrics 4 is fixed, reduces and adjusts the degree of difficulty.

An upper group of deviation rectifying mechanisms and a lower group of deviation rectifying mechanisms are fixed at the rear end of the support 1.1, the deviation rectifying mechanisms are manufactured by Duke electronic technology Limited and mainly comprise an integrated deviation rectifying guide frame 1.4 and a deviation rectifying sensor 1.5, and the deviation of the upper non-woven fabric 3 or the lower non-woven fabric 4 in the width direction is detected in real time by the deviation rectifying sensor 1.5 in the advancing process of the upper non-woven fabric 3 or the lower non-woven fabric 4; the controller processes and calculates the offset signals of the upper non-woven fabric 3 or the lower non-woven fabric 4 and outputs the signals to the integrated deviation rectifying and guiding frame 1.4 with different rotating speeds of the motor in the positive and negative directions; and the motor drives the guide frame to rotate and swing left and right through the ball screw, so that the correction and the guide are realized.

As shown in fig. 3 to 4, the welding and cutting mechanism 2 includes a support platform 2.13, and the support platform 2.13 is arranged left and right. An upper cutting roller 2.1, a lower cutting roller 2.2, a welding roller 2.3, a guide roller 2.4 and a cutting roller 2.5 are arranged between the two supporting platforms 2.13.

The upper cutting roller 2.1, the lower cutting roller 2.2, the welding roller 2.3, the guide roller 2.4 and the cutting roller 2.5 are rotatably arranged on a bearing seat through bearings from left to right, and the left bearing seat and the right bearing seat are slidably arranged in a sliding groove of the supporting platform 2.13 and are adjusted up and down through an adjusting screw rod.

Conveying rollers 2.6 are respectively arranged at the lower ends of the upper cutting roller 2.1, the lower cutting roller 2.2, the guide roller 2.4 and the cutting roller 2.5, a first gear 2.7 is arranged on each conveying roller 2.6, and the first gear 2.7 is meshed with third gears 2.10 on the upper cutting roller 2.1, the lower cutting roller 2.2, the guide roller 2.4 and the cutting roller 2.5.

An ultrasonic system welding external member 2.8 and a second gear 2.9 are arranged below the welding roller 2.3, wherein the ultrasonic system welding external member 2.8 is opposite to the welding roller 2.3, and the second gear 2.9 is meshed with a third gear 2.10 on the welding roller 2.3.

The coaxial short shafts of the first gear 2.7 and the second gear 2.9 are arranged at the end head of the supporting platform 2.13 through a bearing, and one end of the short shaft extending out of the supporting platform 2.13 drives synchronous transmission through a synchronous belt transmission mechanism 2.11 and a servo motor 2.12.

As shown in fig. 3-4, the synchronous belt transmission mechanism 2.11 includes a single synchronous pulley 2.11.2 coaxially connected to the upper cutting roller 2.1 and the conveying roller 2.6 at the lower end of the cutting roller 2.5, a double synchronous pulley 2.11.1 coaxially connected to the lower cutting roller 2.2, the welding roller 2.3 and the conveying roller 2.6 at the lower end of the guide roller 2.4, a driving synchronous pulley 2.11.3 installed below the supporting platform 2.13, and the driving synchronous pulley 2.11.3 coaxially connected to the servo motor 2.12.

The plurality of synchronous belts 2.11.4 are sequentially wound on the double synchronous pulleys 2.11.1, the single synchronous pulley 2.11.2 and the driving synchronous pulley 2.11.3 in a front-back manner to realize synchronous action of each conveying roller 2.6. And because the first gear 2.7, the second gear 2.9 and the third gear 2.10 are the same in size and are transmitted by the gear transmission mechanism, the upper cutting roller 2.1, the lower cutting roller 2.2, the welding roller 2.3, the guide roller 2.4 and the cutting roller 2.5 at the upper end are synchronously transmitted. The synchronous action of all roll shafts is realized through one servo motor 2.12, the continuous action and the accurate position are ensured, the welding and cutting are accurate, no wrinkle is generated, and no extra detection equipment is needed.

As shown in fig. 5, the cutting blades 2.14 are fixed on the left and right of the upper cutting roll 2.1 and the lower cutting roll 2.2. Two conditions are distributed on the positions of the cutting knives 2.14 on the upper cutting roller 2.1 and the lower cutting roller 2.2.

As shown in fig. 11, the first is that the width between two cutters of the upper cutting roll 2.1 is smaller than the width between two cutters of the lower cutting roll 2.2, and the left and right cutters of the lower cutting roll 2.2 are both shifted outwards by a fixed length distance L relative to the two cutters of the upper cutting roll 2.1, and the fixed length distance L is the same as the height difference of the two sides of the opening end of the fiber filter bag.

As shown in fig. 12, the second is that the width between the two cutters of the upper cutting roll 2.1 is smaller than the width between the two cutters of the lower cutting roll 2.2, and one of the cutters of the lower cutting roll 2.2 is aligned with one of the cutters of the upper cutting roll 2.1 in the longitudinal direction, and the other cutter 2.14 of the lower cutting roll 2.2 is outwardly offset in the longitudinal direction by a fixed length distance L, which is the same as the height difference between the two sides of the opening end of the fiber filter bag, relative to the cutter 2.14 of the upper cutting roll 2.1 located at the same end.

In order to improve the production efficiency, the embodiment of the application is described in the first, and the subsequent welding roller 2.3 and the cutting roller 2.5 are matched with the embodiment.

As shown in fig. 6, an ultrasonic edge sealing die 2.15 is fixed on the welding roller 2.3, the ultrasonic edge sealing die 2.15 includes a middle annular portion 2.15.1, four strip portions 2.15.2 are uniformly arranged on the left and right sides of the annular portion 2.15.1 in the circumferential direction, and the strip portions 2.15.2 are opposite to or away from the ultrasonic system welding kit 2.8. The ultrasonic system welding kit 2.8 is prior art and mainly comprises an ultrasonic transducer, an amplitude transformer and the like. When the upper and lower non-woven fabrics pass through, the ultrasonic edge sealing die 2.15 and the ultrasonic system welding external member 2.8 coact to carry out heat-seal welding on the upper and lower non-woven fabrics, the welded shape is as shown in figure 9, the heat-seal edge 5 is a straight line in the middle in the longitudinal direction, and the heat-seal edge 5 is arranged at intervals in the transverse direction.

As shown in fig. 7, a hard rubber sleeve is sleeved on the cutting roller 2.5, a plurality of grooves are formed in the hard rubber sleeve, and cutting pieces 2.16 corresponding to the ultrasonic edge banding die 2.15 are distributed in the grooves. When the heat-seal welded nonwoven fabric passes through the cutting roller 2.5, the cutting line 6 of the cutting roller 2.5 cuts the heat-seal edge 5 of the nonwoven fabric in the transverse and longitudinal directions, as shown in fig. 9. Through the reasonable design of the extension thickness of the cut piece 2.16, the cut fiber filter bags can not be completely separated, so that the manual folding and packaging are facilitated.

Also distributed on guide roll 2.4, transfer roller 2.6 has the stereoplasm rubber cover, can conveniently adjust the clearance between guide roll 2.4, the transfer roller 2.6 through setting up the stereoplasm rubber cover, is convenient for carry to the non-woven fabrics centre gripping.

As shown in fig. 3, an edge-trim reel 2.17 is installed below the supporting platform 2.13, one side of the edge-trim reel 2.17 is connected to a driven synchronous pulley 2.18, and the driven synchronous pulley 2.18 and one set of double synchronous pulleys 2.11.1 share a synchronous belt 2.11.4. Can collect the rim charge from both sides through rim charge spool 2.17, avoid influencing the normal production that the filter bag was divided to the fibre, need not artificial collection simultaneously.

An automatic processing method of square fiber filter bags comprises the following steps:

step 1), as shown in fig. 8, placing the non-woven fabric winding disc on an upper tensioning shaft 1.2 and a lower tensioning shaft 1.3 respectively, tensioning and fixing the non-woven fabric winding disc at a specified position; the upper non-woven fabric 3 passes through the upper end deviation rectifying mechanism, the upper cutting roller 2.1 and the conveying roller 2.6; the lower non-woven fabric 4 passes through the deviation rectifying mechanism at the lower end, the lower cutting roller 2.2 and the conveying roller 2.6; subsequently, the upper non-woven fabric 3 and the lower non-woven fabric 4 are combined and attached and pass through the space between the first group of guide rollers 2.4 and the conveying rollers 2.6, the space between the welding rollers 2.3 and the ultrasonic system welding suite 2.8; the second group of guide rollers 2.4 and the conveying rollers 2.6 extend out after passing through the cutting rollers 2.5 and the conveying rollers 2.6.

Step 2), starting a servo motor 2.12 and an ultrasonic system welding kit 2.8, driving each conveying roller 2.6, a first gear 2.7 and a second gear 2.9 to synchronously rotate by a synchronous belt conveying mechanism 2.11, and further driving an upper cutting roller 2.1, a lower cutting roller 2.2, a welding roller 2.3, two groups of guide rollers 2.4 and a cutting roller 2.5 to synchronously rotate, so that the non-woven fabric is synchronously conveyed in the whole length direction; in the rotating process, the upper and lower deviation-rectifying sensors 1.5 detect the deviation of the upper non-woven fabric 3 and the lower non-woven fabric 4 in the width direction in real time; the controller processes and calculates the offset signals of the upper non-woven fabric 3 and the lower non-woven fabric 4 and outputs the signals to the integrated deviation rectifying and guiding frame 1.4 with different rotating speeds of the motor in the positive and negative directions; and the motor drives the guide roller frame to rotate and swing left and right through the ball screw, so that the correction and the guide are realized.

Step 3), after the welding and cutting mechanism works normally, the upper non-woven fabric 3 and the lower non-woven fabric 4 are firstly subjected to primary cutting, and after cutting, the difference between the width of the upper non-woven fabric 3 and the width of the lower non-woven fabric 4 is twice of the height difference of two sides of the opening end of the fiber sub-filter bag; the cut edge material is wound on the edge material reel 2.17, and the edge material reel 2.17 and the conveying roller 2.6 synchronously act.

And 4), overlapping the cut upper non-woven fabric 3 and the cut lower non-woven fabric 4 after being conveyed by the first group of guide rollers 2.4 and the conveying rollers 2.6, wherein the parts of the left and right ends of the lower non-woven fabric 4 exceeding the upper non-woven fabric 3 are the same, and the exceeding length is the same as the height difference of two sides of the opening end of the fiber filter bag.

Step 5), continuously conveying the superposed upper non-woven fabric 3 and lower non-woven fabric 4, and realizing interval heat-seal welding of the upper non-woven fabric 3 and the lower non-woven fabric 4 under the combined action of the welding roller 2.3 and the ultrasonic system welding external member 2.8 when the superposed upper non-woven fabric 3 and lower non-woven fabric 4 pass through the welding roller 2.3 and the ultrasonic system welding external member 2.8; and the upper non-woven fabric 3 and the lower non-woven fabric 4 after being overlapped complete middle linear heat-seal welding and transverse multiple interval heat-seal welding every time the welding roller 2.3 rotates for one circle, and the state shown in figure 9 is formed;

step 6), when the non-woven fabrics after heat sealing passes through cutting roller 2.5, transfer roller 2.6, the heat-seal position is all cut, and the line of cut 6 is as shown in figure 9, carries out reasonable design through the piece that cuts cutting roller 2.5 for the non-woven fabrics area is not totally cut the separation, comes out the back from cutting roller 2.5, transfer roller 2.6, tears through artifical about, forms about two fibre and divides the filter bag, two fibre divide the folding back of filter bag and can pack. The complete cutting is avoided, and the cutting is too messy after falling.

Claims (6)

1. The utility model provides a square branch filter bag automatic processing production line which characterized in that: comprises a belt placing deviation rectifying mechanism (1) and a welding and cutting mechanism (2);

the belt-releasing deviation-rectifying mechanism (1) comprises a support (1.1), an upper tensioning shaft (1.2) and a lower tensioning shaft (1.3) are arranged at the front end of the support (1.1), an upper group of deviation-rectifying mechanisms and a lower group of deviation-rectifying mechanisms are fixed at the rear end of the support (1.1), and each group of deviation-rectifying mechanisms comprises an integrated deviation-rectifying guide frame (1.4) and a deviation-rectifying sensor (1.5);

the welding and cutting mechanism (2) comprises a supporting platform (2.13), wherein an upper cutting roller (2.1), a lower cutting roller (2.2), a welding roller (2.3), a guide roller (2.4) and a cutting roller (2.5) are rotatably arranged on the supporting platform (2.13); conveying rollers (2.6) are arranged at the lower ends of the upper cutting roller (2.1), the lower cutting roller (2.2), the guide roller (2.4) and the cutting roller (2.5), and a first gear (2.7) is arranged on each conveying roller (2.6);

an ultrasonic system welding external member (2.8) and a second gear (2.9) are arranged below the welding roller (2.3);

the upper cutting roll (2.1), the lower cutting roll (2.2), the welding roll (2.3), the guide roll (2.4) and the cutting roll (2.5) are provided with a third gear (2.10), the third gear (2.10) is meshed with the first gear (2.7) and the second gear (2.9), and the first gear (2.7) and the second gear (2.9) are driven to synchronously transmit through a synchronous belt transmission mechanism (2.11) and a servo motor (2.12) on the outer side of the supporting platform (2.13).

2. The automatic square filter bag processing production line according to claim 1, wherein: the left and right sides of the upper cutting roll (2.1) and the lower cutting roll (2.2) are respectively fixed with a cutting knife (2.14), and the width difference formed by the width between the two cutting knives of the upper cutting roll (2.1) and the width between the two cutting knives of the lower cutting roll (2.2) is the same as or twice as the height difference of the two sides of the opening end of the fiber filter bag.

3. The automatic square filter bag processing production line according to claim 1, wherein: be fixed with supersound banding mould (2.15) on welding roller (2.3), supersound banding mould (2.15) have a plurality of bar portions (2.15.2) including middle annular portion (2.15.1), annular portion (2.15.1) unilateral or left and right sides circumference evenly arranged, and bar portion (2.15.2) just are just right or keep away from with ultrasonic system welding external member (2.8).

4. The automatic square filter bag processing production line according to claim 3, wherein: cutting sheets (2.16) corresponding to the ultrasonic edge sealing die (2.15) are circumferentially distributed on the cutting roller (2.5).

5. The automatic square filter bag processing production line according to claim 1, wherein: hold-in range transport mechanism (2.11) is including two synchronous pulley (2.11.1), single synchronous pulley (2.11.2), two synchronous pulley (2.11.1), single synchronous pulley (2.11.2) and first gear (2.7) or second gear (2.9) coaxial coupling, driving synchronous pulley (2.11.3) are installed to supporting platform (2.13) below, around two synchronous pulley (2.11.1), single synchronous pulley (2.11.2), realize each transfer roller (2.6) synchro-motion around in proper order in a plurality of hold-in ranges (2.11.4) on driving synchronous pulley (2.11.3).

6. The automatic square filter bag processing production line according to claim 5, wherein: rim charge spool (2.17) are installed to supporting platform (2.13) below, and rim charge spool (2.17) one side is connected with driven synchronous pulley (2.18), and driven synchronous pulley (2.18) and one set of two synchronous pulley (2.11.1) sharing hold-in range (2.11.4) wherein.

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