CN217781495U - Nine-shaft napping roller - Google Patents

Abstract

The utility model relates to a nine-shaft napping roller, which comprises a left mounting disc, a right mounting disc and a main rotating shaft; the left mounting disc is fixedly sleeved on the left end of the main rotating shaft, and the right mounting disc is fixedly sleeved on the right end of the main rotating shaft; the multifunctional wool raising device also comprises 9 wool raising rollers which are arranged around the rotating axis of the main rotating shaft, wherein each wool raising roller comprises a driven rotating shaft and a brush hair cylinder which is sleeved and fixed on the driven rotating shaft; the left end of the driven rotating shaft of each gigging roller is rotatably arranged on the left mounting disc, the right end of the driven rotating shaft of each gigging roller is rotatably arranged on the right mounting disc, and the brushing barrel of each gigging roller is positioned between the left mounting disc and the right mounting disc; the two ends of the main rotating shaft are respectively and rotatably sleeved with a left driving wheel and a right driving wheel, the left driving wheel drives 4 raising rollers to rotate, and the right driving wheel drives the other 5 raising rollers to rotate. The utility model has the advantages of large contact area with the cloth, good napping effect and the like.

Description

Nine-shaft napping roller

Technical Field

The utility model relates to a technical field of the raising machine especially relates to a nine napping rollers.

Background

The napping is a process in the textile industry, and after the cloth is rubbed by a napping machine, a short napping layer is formed on the surface of the cloth, so that the original characteristics are maintained, the fabric is endowed with a new style, and the heat retention property and the softness are increased. The contact area between the napping roller and the cloth of the prior napping machine is small, and the napping effect is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a nine napping rollers has the area of contact with the cloth great, the advantage of the better grade of napping effect.

The utility model provides a technical scheme that its technical problem adopted is: a nine-shaft napping roller comprises a left mounting disc, a right mounting disc and a main rotating shaft; the left mounting disc is fixedly sleeved on the left end of the main rotating shaft, and the right mounting disc is fixedly sleeved on the right end of the main rotating shaft;

the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are sequentially arranged around the rotation axis of the main rotating shaft, and the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller respectively comprise a driven rotating shaft and a brush hair barrel sleeved and fixed on the driven rotating shaft; the left ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are rotatably arranged on a left mounting disc, the right ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are rotatably arranged on a right mounting disc, and the rotating axes of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are parallel to the rotating axis of the main rotating shaft; the brushing barrels of the first pile raising roller, the second pile raising roller, the third pile raising roller, the fourth pile raising roller, the fifth pile raising roller, the sixth pile raising roller, the seventh pile raising roller, the eighth pile raising roller and the ninth pile raising roller are all positioned between the left mounting disc and the right mounting disc;

a left driving wheel is rotatably sleeved at the left end of the main rotating shaft and is positioned on the left side of the left mounting plate, a right driving wheel is rotatably sleeved at the right end of the main rotating shaft and is positioned on the right side of the right mounting plate; 2 first tensioning wheels, 2 third tensioning wheels, a fifth tensioning wheel, 2 sixth tensioning wheels and 2 eighth tensioning wheels are rotatably mounted on the left mounting disc, and 2 second tensioning wheels, 2 fourth tensioning wheels, 2 seventh tensioning wheels and 2 ninth tensioning wheels are rotatably mounted on the right mounting disc;

the automatic feeding device also comprises a first double-sided synchronous belt, a second double-sided synchronous belt, a third double-sided synchronous belt, a fourth double-sided synchronous belt, a fifth double-sided synchronous belt, a sixth double-sided synchronous belt, a seventh double-sided synchronous belt, an eighth double-sided synchronous belt and a ninth double-sided synchronous belt;

the left end of a driven rotating shaft of the first clearer roller is connected with a first driven wheel which coaxially rotates with the driven rotating shaft, 2 first tensioning wheels are arranged between the first driven wheel and a left driving wheel, an inner ring of a first double-face synchronous belt is wound on the 2 first tensioning wheels and the first driven wheel at the same time, and a part, between the 2 first tensioning wheels, of an outer ring of the first double-face synchronous belt is in matched transmission with the circumferential surface of the left driving wheel;

a second driven wheel which coaxially rotates with the second raising roller is connected and mounted at the right end of a driven rotating shaft of the second raising roller, 2 second tension wheels are arranged between the second driven wheel and a right driving wheel, the inner ring of a second double-sided synchronous belt is simultaneously wound on the 2 second tension wheels and the second driven wheel, and the part, between the 2 second tension wheels, of the outer ring of the second double-sided synchronous belt is in matched transmission with the circumferential surface of the right driving wheel;

a third driven wheel which coaxially rotates with the third raising roller is connected and mounted at the left end of a driven rotating shaft of the third raising roller, 2 third tension wheels are arranged between the third driven wheel and a left driving wheel, the inner ring of a third double-sided synchronous belt is simultaneously wound on the 2 third tension wheels and the third driven wheel, and the part of the outer ring of the third double-sided synchronous belt, which is arranged between the 2 third tension wheels, is in matched transmission with the circumferential surface of the left driving wheel;

a fourth driven wheel which coaxially rotates with the fourth raising roller is connected and mounted at the right end of a driven rotating shaft of the fourth raising roller, 2 fourth tension wheels are all positioned between the fourth driven wheel and a right driving wheel, an inner ring of a fourth double-sided synchronous belt is simultaneously wound on the 2 fourth tension wheels and the fourth driven wheel, and a part, between the 2 fourth tension wheels, of an outer ring of the fourth double-sided synchronous belt is in matched transmission with the circumferential surface of the right driving wheel; the left end of the driven rotating shaft of the fourth fluff raising roller is connected with a driving wheel which rotates coaxially with the driven rotating shaft;

a fifth driven wheel which coaxially rotates with the fifth raising roller is connected and mounted at the left end of the driven rotating shaft of the fifth raising roller, a fifth tensioning wheel is positioned between the fifth driven wheel and the driving wheel, an inner ring of a fifth double-sided synchronous belt is wound on the fifth driven wheel and the driving wheel at the same time, and an outer ring of the fifth double-sided synchronous belt is wound on the fifth tensioning wheel;

a sixth driven wheel which coaxially rotates with the sixth raising roller is connected and mounted at the left end of a driven rotating shaft of the sixth raising roller, 2 sixth tension wheels are arranged between the sixth driven wheel and the left driving wheel, an inner ring of a sixth double-sided synchronous belt is wound on the 2 sixth tension wheels and the sixth driven wheel at the same time, and a part, between the 2 sixth tension wheels, of an outer ring of the sixth double-sided synchronous belt is in matched transmission with the circumferential surface of the left driving wheel;

a seventh driven wheel which coaxially rotates with the seventh raising roller is connected and mounted at the right end of a driven rotating shaft of the seventh raising roller, 2 seventh tensioning wheels are arranged between the seventh driven wheel and the right driving wheel, the inner ring of a seventh double-sided synchronous belt is simultaneously wound on the 2 seventh tensioning wheels and the seventh driven wheel, and the part of the outer ring of the seventh double-sided synchronous belt, which is arranged between the 2 seventh tensioning wheels, is in matched transmission with the circumferential surface of the right driving wheel;

the left end of a driven rotating shaft of the eighth raising roller is connected with an eighth driven wheel which coaxially rotates with the eighth raising roller, 2 eighth tension wheels are arranged between the eighth driven wheel and the left driving wheel, the inner ring of an eighth double-sided synchronous belt is wound on the 2 eighth tension wheels and the eighth driven wheel at the same time, and the part of the outer ring of the eighth double-sided synchronous belt, which is arranged between the 2 eighth tension wheels, is in matched transmission with the circumferential surface of the left driving wheel;

the right end of a driven rotating shaft of the ninth pile driving roller is connected with a ninth driven wheel which coaxially rotates with the driven rotating shaft, 2 ninth tension wheels are arranged between the ninth driven wheel and the right driving wheel, the inner ring of a ninth double-sided synchronous belt is simultaneously wound on the 2 ninth tension wheels and the ninth driven wheel, and the part, between the 2 ninth tension wheels, of the outer ring of the ninth double-sided synchronous belt is in matched transmission with the circumferential surface of the right driving wheel.

The utility model discloses a theory of operation:

when the left driving wheel is used, the left driving wheel is driven by an external first motor to rotate, and the right driving wheel is driven by an external second motor to rotate; because each double-sided synchronous belt is provided with a corresponding tension wheel, the first double-sided synchronous belt, the third double-sided synchronous belt, the sixth double-sided synchronous belt and the eighth double-sided synchronous belt are matched with the left driving wheel to realize transmission under the action of the tension force, the second double-sided synchronous belt, the fourth double-sided synchronous belt, the seventh double-sided synchronous belt and the ninth double-sided synchronous belt are matched with the right driving wheel to realize transmission, and meanwhile, the friction force between each double-sided synchronous belt and other transmission parts connected with the double-sided synchronous belt is increased, so that the transmission efficiency is improved; the left driving wheel drives the first driven wheel by driving the first double-sided synchronous belt, the third double-sided synchronous belt, the sixth double-sided synchronous belt, the eighth double-sided synchronous belt to travel, the third driven wheel, the sixth driven wheel and the eighth driven wheel to synchronously rotate, the right driving wheel drives the second double-sided synchronous belt, the seventh double-sided synchronous belt and the ninth double-sided synchronous belt to travel to drive the second driven wheel, the fourth driven wheel, the seventh driven wheel and the ninth driven wheel to synchronously rotate, and the coaxially-rotating driving wheel on the fourth pile-raising roller drives the fifth driven wheel to synchronously rotate by driving the fifth double-sided synchronous belt to travel, so that the driven rotating shafts of the first pile-raising roller, the second pile-raising roller, the third pile-raising roller, the fourth pile-raising roller, the fifth pile-raising roller, the sixth pile-raising roller, the seventh pile-raising roller, the eighth pile-raising roller and the ninth pile-raising roller are driven to rotate to drive the brush hair cylinders to rotate, thereby realizing the pile-raising treatment of the cloth. By arranging 9 raising rollers, the contact area between the cloth and the cloth is increased, and the raising effect is better; simultaneously, also make the cloth around the dress the utility model discloses an on the walking route more be close the circular arc, be favorable to the cloth to transmit. In addition, the main rotating shaft can be driven by an external third motor to rotate, so that the left mounting disc and the right mounting disc are driven to rotate, the first pile forming roller, the second pile forming roller, the third pile forming roller, the fourth pile forming roller, the fifth pile forming roller, the sixth pile forming roller, the seventh pile forming roller, the eighth pile forming roller and the ninth pile forming roller can move around the rotating axis of the main rotating shaft, and therefore line contact between the pile forming rollers and cloth is changed into surface contact, the contact area between the pile forming rollers and the cloth is further increased, and the pile forming effect is improved.

Further, according to the nine-shaft napping roller, the left ends of the driven rotating shafts of the first napping roller, the second napping roller, the third napping roller, the fourth napping roller, the fifth napping roller, the sixth napping roller, the seventh napping roller, the eighth napping roller and the ninth napping roller are respectively mounted on the left mounting disc through the first mounting seat, and the right ends of the driven rotating shafts of the first napping roller, the second napping roller, the third napping roller, the fourth napping roller, the fifth napping roller, the sixth napping roller, the seventh napping roller, the eighth napping roller and the ninth napping roller are respectively mounted on the right mounting disc through the second mounting seat.

Further, as for the nine-shaft napping roller, 9 rotating shaft mounting grooves communicating the left side surface and the right side surface of the left mounting disk and the right mounting disk are respectively formed on the circumferential surfaces of the left mounting disk and the right mounting disk, and the 9 rotating shaft mounting grooves of the left mounting disk and the right mounting disk are arranged around the centers of the left mounting disk and the right mounting disk; the left ends of the driven rotating shafts of the first pile removing roller, the second pile removing roller, the third pile removing roller, the fourth pile removing roller, the fifth pile removing roller, the sixth pile removing roller, the seventh pile removing roller, the eighth pile removing roller and the ninth pile removing roller are correspondingly and rotatably arranged in 9 rotating shaft mounting grooves of the left mounting disc one by one, and the right ends of the driven rotating shafts of the first pile removing roller, the second pile removing roller, the third pile removing roller, the fourth pile removing roller, the fifth pile removing roller, the sixth pile removing roller, the seventh pile removing roller, the eighth pile removing roller and the ninth pile removing roller are correspondingly and rotatably arranged in 9 rotating shaft mounting grooves of the right mounting disc one by one.

Further, according to the nine-shaft napping roller, each rotating shaft mounting groove is further embedded with a mounting plate, at least 2 first half-threaded grooves are formed in one side surface of the mounting plate, at least 2 second half-threaded grooves are formed in the other side surface of the mounting plate, at least 2 third half-threaded grooves are formed in one side wall of each rotating shaft mounting groove, and at least 2 fourth half-threaded grooves are formed in the other side wall of each rotating shaft mounting groove; each first half screw hole groove of the mounting plate is arranged opposite to each third half screw hole groove of the corresponding rotating shaft mounting groove one by one, each second half screw hole groove of the mounting plate is arranged opposite to each fourth half screw hole groove of the corresponding rotating shaft mounting groove one by one, so that the first half screw hole groove of the mounting plate and the third half screw hole groove of the rotating shaft mounting groove are combined to form a first mounting screw hole, and the second half screw hole groove of the mounting plate and the fourth half screw hole groove of the rotating shaft mounting groove are combined to form a second mounting screw hole; the bottom surface of the mounting plate and the bottom of the rotating shaft mounting groove are both inwards concave cambered surfaces, so that the bottom surface of the mounting plate and the bottom of the rotating shaft mounting groove are enclosed to form a rotating shaft hole; the left ends of the driven rotating shafts of the first pile raising roller, the second pile raising roller, the third pile raising roller, the fourth pile raising roller, the fifth pile raising roller, the sixth pile raising roller, the seventh pile raising roller, the eighth pile raising roller and the ninth pile raising roller are correspondingly and rotatably arranged in the rotating shaft hole of the left mounting disc one by one, and the right ends of the driven rotating shafts of the first pile raising roller, the second pile raising roller, the third pile raising roller, the fourth pile raising roller, the fifth pile raising roller, the sixth pile raising roller, the seventh pile raising roller, the eighth pile raising roller and the ninth pile raising roller are correspondingly and rotatably arranged in the rotating shaft hole of the right mounting disc one by one.

Furthermore, as for the nine-shaft napping roller, clamping grooves are formed in one hole opening of each rotating shaft hole in the left mounting disc and the right mounting disc along the edge of the hole opening, each clamping groove in the left mounting disc is formed in the right side face of the left mounting disc, and each clamping groove in the right mounting disc is formed in the left side face of the right mounting disc; the first mounting seat is provided with a first clamping boss, the second mounting seat is provided with a second clamping boss, the first clamping boss of the first mounting seat is embedded in the corresponding clamping groove in the left mounting disc, and the second clamping boss of the second mounting seat is embedded in the corresponding clamping groove in the right mounting disc.

Further, according to the nine-shaft napping roller, a supporting plate is arranged between the first napping roller and the second napping roller, between the second napping roller and the third napping roller, between the third napping roller and the fourth napping roller, between the fourth napping roller and the fifth napping roller, between the fifth napping roller and the sixth napping roller, between the sixth napping roller and the seventh napping roller, between the seventh napping roller and the eighth napping roller, between the eighth napping roller and the ninth napping roller, and between the ninth napping roller and the first napping roller, the length direction of each supporting plate is parallel to the rotation axis of the main rotating shaft, one end of each supporting plate is arranged on the left mounting disc, and the other end of each supporting plate is arranged on the right mounting disc.

Furthermore, as mentioned above, the peripheral surfaces of the left and right mounting plates are formed with a plurality of supporting plate mounting grooves for communicating the left and right side surfaces thereof, a supporting plate corresponds to one supporting plate mounting groove of the left mounting plate and one supporting plate mounting groove of the right mounting plate, one end of the supporting plate is connected and mounted on one supporting plate mounting groove of the left mounting plate, and the other end of the supporting plate is connected and mounted on one supporting plate mounting groove of the right mounting plate.

Further, as for the nine-shaft napping roller, the left mounting disc and the right mounting disc are also provided with the balance weight parts for balancing the gravity center.

Furthermore, as for the nine-shaft napping roller, a left mounting seat and a right mounting seat are formed on the circumferential surface of the main rotating shaft and are arranged side by side along the axis, a left boss is formed on the left side surface of the left mounting seat, and a right boss is formed on the right side surface of the right mounting seat; a first central hole is formed in the center of the left mounting disc, and a first central hole is formed in the center of the right mounting disc; a first center hole of the left mounting disc is sleeved on a left boss of the left mounting seat from the left side of the main rotating shaft, and the left mounting disc is fixedly connected with the left mounting seat; the second centre bore of right mounting disc is on the right boss of right mount pad from the right side suit of main pivot, right mounting disc and right mount pad fixed connection.

Realize the technical scheme of the utility model, following beneficial effect has: the utility model has the advantages of large contact area with the cloth, good napping effect and the like.

Drawings

FIG. 1 is a schematic perspective view of an embodiment;

FIG. 2 is a front view of the embodiment;

FIG. 3 is a left side view of the embodiment;

FIG. 4 isbase:Sub>A sectional view in the direction A-A of FIG. 3;

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

FIG. 6 is a right side view of the embodiment;

FIG. 7 is a schematic structural diagram of a right side face of the left mounting plate of the embodiment;

FIG. 8 is an enlarged view of a portion of FIG. 7 at B;

description of reference numerals:

1-a left mounting plate; 11-a first mount; 12-a rotating shaft mounting groove; 121-third half-threaded bore slot; 122-fourth half-threaded bore slot; 13-a pallet mounting groove; 14-clamping grooves; 15-a central hole; 2-right mounting plate; 21-a second mount; 3-main rotating shaft; 31-left mount; 32-right mounting base; 4-a left driving wheel; 5-a right driving wheel;

10-a first clearer roll; 101-a first double-sided synchronous belt; 102-a first tensioning wheel; 103-a first driven wheel;

20-a second fleece roller; 201-a second double-sided synchronous belt; 202-a second tensioning wheel; 203-a second driven wheel;

30-a third napping roller; 301-a third double-sided synchronous belt; 302-a third tensioning wheel; 303-a third driven wheel;

40-fourth fleece roller; 401-fourth double-sided synchronous belt; 402-a fourth tensioner pulley; 403-fourth driven wheel; 404-a transmission wheel;

50-fifth fleece roller; 501-a fifth double-sided synchronous belt; 502-a fifth tensioning wheel; 503-a fifth driven wheel;

60-sixth fleece roller; 601-sixth double-sided synchronous belt; 602-a sixth tensioning wheel; 603-a sixth driven wheel;

70-seventh raising roller; 701-a seventh double-sided synchronous belt; 702-a seventh tensioning wheel; 703-a seventh driven wheel;

80-eighth napping roller; 801-eighth double-sided synchronous belt; 802-eighth tensioner; 803-eighth driven pulley;

90-ninth fleece roller; 901-ninth double-sided synchronous belt; 902-ninth tensioner; 903-ninth driven wheel;

100-driven rotating shaft; 200-bristle cartridge.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1-8, the nine-shaft napping roller comprises a left mounting disc 1, a right mounting disc 2 and a main rotating shaft 3; the left mounting disc 1 is fixedly sleeved on the left end of the main rotating shaft 3, and the right mounting disc 2 is fixedly sleeved on the right end of the main rotating shaft 3;

the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are sequentially arranged around the rotation axis of the main rotating shaft 3, and the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 respectively comprise a driven rotating shaft 100 and a brush hair cylinder 200 sleeved and fixed on the driven rotating shaft 100; the left ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are all rotatably installed on the left installation disc 1, the right ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are all rotatably installed on the right installation disc 2, and the rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are all parallel to the rotating axis of the driven rotating shafts 3; the brushing barrels 200 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are all positioned between the left mounting disc 1 and the right mounting disc 2;

a left driving wheel 4 is rotatably sleeved at the left end of the main rotating shaft 3, the left driving wheel 4 is positioned at the left side of the left mounting disc 1, a right driving wheel 5 is rotatably sleeved at the right end of the main rotating shaft 3, and the right driving wheel 5 is positioned at the right side of the right mounting disc 2; 2 first tensioning wheels 102, 2 third tensioning wheels 302, a fifth tensioning wheel 502, 2 sixth tensioning wheels 602 and 2 eighth tensioning wheels 802 are rotatably mounted on the left mounting plate 1, and 2 second tensioning wheels 202, 2 fourth tensioning wheels 402, 2 seventh tensioning wheels 702 and 2 ninth tensioning wheels 902 are rotatably mounted on the right mounting plate 2;

the device also comprises a first double-sided synchronous belt 101, a second double-sided synchronous belt 201, a third double-sided synchronous belt 301, a fourth double-sided synchronous belt 401, a fifth double-sided synchronous belt 501, a sixth double-sided synchronous belt 601, a seventh double-sided synchronous belt 701, an eighth double-sided synchronous belt 801 and a ninth double-sided synchronous belt 901;

the left end of the driven rotating shaft 100 of the first clearer roller 10 is connected with a first driven wheel 103 which coaxially rotates with the driven rotating shaft, 2 first tensioning wheels 102 are all arranged between the first driven wheel 103 and the left driving wheel 4, the inner ring of a first double-sided synchronous belt 101 is simultaneously wound on the 2 first tensioning wheels 102 and the first driven wheel 103, and the part of the outer ring of the first double-sided synchronous belt 101, which is arranged between the 2 first tensioning wheels 102, is in matched transmission with the circumferential surface of the left driving wheel 4;

a second driven wheel 203 which coaxially rotates with the second raising roller 20 is connected and installed at the right end of the driven rotating shaft 100 of the second raising roller 20, 2 second tension wheels 202 are all positioned between the second driven wheel 203 and the right driving wheel 5, the inner ring of a second double-sided synchronous belt 201 is simultaneously wound on the 2 second tension wheels 202 and the second driven wheel 203, and the part of the outer ring of the second double-sided synchronous belt 201, which is positioned between the 2 second tension wheels 202, is matched with the circumferential surface of the right driving wheel 5 for transmission;

the left end of the driven rotating shaft 100 of the third napping roller 30 is connected with a third driven wheel 303 which coaxially rotates with the third driven wheel, 2 third tension wheels 302 are all positioned between the third driven wheel 303 and the left driving wheel 4, the inner ring of a third double-face synchronous belt 301 is simultaneously wound on the 2 third tension wheels 302 and the third driven wheel 303, and the part of the outer ring of the third double-face synchronous belt 301, which is positioned between the 2 third tension wheels 302, is in matched transmission with the circumferential surface of the left driving wheel 4;

a fourth driven wheel 403 which coaxially rotates with the fourth pile driving roller 40 is connected and installed at the right end of the driven rotating shaft 100 of the fourth pile driving roller 40, 2 fourth tension wheels 402 are all positioned between the fourth driven wheel 403 and the right driving wheel 5, the inner ring of a fourth double-sided synchronous belt 401 is simultaneously wound on the 2 fourth tension wheels 402 and the fourth driven wheel 403, and the part of the outer ring of the fourth double-sided synchronous belt 401, which is positioned between the 2 fourth tension wheels 402, is in matched transmission with the circumferential surface of the right driving wheel 5; the left end of the driven rotating shaft 100 of the fourth fluff raising roller 40 is connected with a driving wheel 404 which rotates coaxially with the driven rotating shaft;

a fifth driven wheel 503 which coaxially rotates with the fifth raising roller 50 is connected and installed at the left end of the driven rotating shaft 100 of the fifth raising roller 50, a fifth tensioning wheel 502 is positioned between the fifth driven wheel 503 and the driving wheel 404, the inner ring of a fifth double-sided synchronous belt 501 is simultaneously wound and installed on the fifth driven wheel 503 and the driving wheel 404, and the outer ring of the fifth double-sided synchronous belt 501 is arranged by winding the fifth tensioning wheel 502;

a sixth driven wheel 603 which coaxially rotates with the sixth raising roller 60 is connected and installed at the left end of the driven rotating shaft 100 of the sixth raising roller 60, 2 sixth tension wheels 602 are all positioned between the sixth driven wheel 603 and the left driving wheel 4, the inner ring of a sixth double-sided synchronous belt 601 is simultaneously wound on the 2 sixth tension wheels 602 and the sixth driven wheel 603, and the part of the outer ring of the sixth double-sided synchronous belt 601, which is positioned between the 2 sixth tension wheels 602, is in matched transmission with the circumferential surface of the left driving wheel 4;

a seventh driven wheel 703 which coaxially rotates with the seventh raising roller 70 is connected and mounted at the right end of the driven rotating shaft 100 of the seventh raising roller 70, 2 seventh tensioning wheels 702 are all positioned between the seventh driven wheel 703 and the right driving wheel 5, the inner ring of a seventh double-sided synchronous belt 701 is simultaneously wound on the 2 seventh tensioning wheels 702 and the seventh driven wheel 703, and the part of the outer ring of the seventh double-sided synchronous belt 701, which is positioned between the 2 seventh tensioning wheels 702, is in matched transmission with the circumferential surface of the right driving wheel 5;

the left end of the driven rotating shaft 100 of the eighth raising roller 80 is connected with an eighth driven wheel 803 which coaxially rotates with the driven rotating shaft, 2 eighth tension wheels 802 are all positioned between the eighth driven wheel 803 and the left driving wheel 4, the inner ring of an eighth double-sided synchronous belt 801 is simultaneously wound on the 2 eighth tension wheels 802 and the eighth driven wheel 803, and the part of the outer ring of the eighth double-sided synchronous belt 801 positioned between the 2 eighth tension wheels 802 is matched with the circumferential surface of the left driving wheel 4 for transmission;

a ninth driven wheel 903 which coaxially rotates with the ninth pile driving roller 90 is connected and installed at the right end of the driven rotating shaft 100 of the ninth pile driving roller 90, 2 ninth tension wheels 902 are all arranged between the ninth driven wheel 903 and the right driving wheel 5, the inner ring of a ninth double-sided synchronous belt 901 is simultaneously wound on the 2 ninth tension wheels 902 and the ninth driven wheel 903, and the part of the outer ring of the ninth double-sided synchronous belt 901, which is arranged between the 2 ninth tension wheels 902, is matched with the circumferential surface of the right driving wheel 5 for transmission.

When in use, the left driving wheel 4 is driven by an external first motor to rotate, and the right driving wheel 5 is driven by an external second motor to rotate; because each double-sided synchronous belt is provided with a corresponding tensioning wheel, under the action of tensioning force, the first double-sided synchronous belt 101, the third double-sided synchronous belt 301, the sixth double-sided synchronous belt 601 and the eighth double-sided synchronous belt 801 are in matched transmission with the left driving wheel 4, the second double-sided synchronous belt 201, the fourth double-sided synchronous belt 401, the seventh double-sided synchronous belt 701 and the ninth double-sided synchronous belt 901 are in matched transmission with the right driving wheel 5, and meanwhile, the friction force between each double-sided synchronous belt and other transmission parts connected with the double-sided synchronous belt can be increased, so that the transmission efficiency is improved; the left driving wheel 4 drives the first driven wheel 103, the third driven wheel 303, the sixth driven wheel 603 and the eighth driven wheel 803 to synchronously rotate by driving the first double-sided synchronous belt 101, the third double-sided synchronous belt 301, the sixth double-sided synchronous belt 601 and the eighth double-sided synchronous belt 801 to travel, the right driving wheel 5 drives the second double-sided synchronous belt 201, the fourth double-sided synchronous belt 401, the seventh double-sided synchronous belt 701 and the ninth double-sided synchronous belt 901 to travel so as to drive the second driven wheel 203, the fourth driven wheel 403, the seventh driven wheel 703 and the ninth driven wheel 903 to synchronously rotate, the driving wheel 404 coaxially rotating on the fourth pile raising roller 40 drives the fifth driven wheel 503 to synchronously rotate by driving the fifth double-sided synchronous belt 501 to travel, and further the driven rotating shafts 100 of the first pile raising roller 10, the second pile raising roller 20, the third pile raising roller 30, the fourth pile raising roller 40, the fifth pile raising roller 50, the sixth pile raising roller 60, the seventh pile raising roller 70, the eighth pile raising roller 80 and the ninth pile raising roller 90 to rotate so as to drive the pile raising roller 200 to rotate, thereby treating the cloth. The double-sided synchronous belts are provided with the corresponding tensioning wheels, so that the friction force between the double-sided synchronous belts and other transmission parts is increased due to the tensioning force, the transmission efficiency is further improved, and the double-sided synchronous belts and the rotation of the napping rollers are more stable; by arranging 9 raising rollers, the contact area between the nine-shaft raising roller and the cloth is increased, and the raising effect is better; meanwhile, the cloth is enabled to be closer to an arc around the walking path of the nine-shaft raising roller, and the cloth is favorably conveyed. In addition, the main rotating shaft 3 can be driven by an external third motor to rotate, so that the left mounting disc 1 and the right mounting disc 2 are driven to rotate, and the first pile raising roller 10, the second pile raising roller 20, the third pile raising roller 30, the fourth pile raising roller 40, the fifth pile raising roller 50, the sixth pile raising roller 60, the seventh pile raising roller 70, the eighth pile raising roller 80 and the ninth pile raising roller 90 can move around the rotating axis of the main rotating shaft 3, so that line contact between each pile raising roller and cloth is changed into surface contact, the contact area between each pile raising roller and the cloth is further increased, and the pile raising effect is improved.

As shown in fig. 2, the left ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are respectively mounted on the left mounting plate 1 through a first mounting seat 11, and the right ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are respectively mounted on the right mounting plate 2 through a second mounting seat 21. In this embodiment, each of the first and second mounting seats 11 and 21 includes a connecting member and a bearing, a fixed end of the bearing is connected to the connecting member, a movable end of the bearing is connected to the driven rotating shaft 100 corresponding to the raising roller, the connecting member of the first mounting seat 11 is mounted on the left mounting plate 1, and the connecting member of the second mounting seat 21 is mounted on the right mounting plate 2. The design can ensure that the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are installed more stably, and the stability is improved.

As shown in fig. 3 and 6, 9 rotating shaft mounting grooves 12 communicating the left side surface and the right side surface of the left mounting disk 1 and the right mounting disk 2 are respectively formed on the circumferential surfaces of the left mounting disk 1 and the right mounting disk 2, and the 9 rotating shaft mounting grooves 12 of the left mounting disk 1 and the right mounting disk 2 are all arranged around the centers thereof; the left ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are correspondingly and rotatably arranged in 9 rotating shaft mounting grooves 12 of the left mounting disc 1, and the right ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are correspondingly and rotatably arranged in 9 rotating shaft mounting grooves 12 of the right mounting disc 2. The rotating shaft mounting grooves 12 are formed in the left mounting disc 1 and the right mounting disc 2, so that the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 can be mounted and dismounted along the radial direction of the left mounting disc 1 and the right mounting disc 2 when being mounted, and the mounting and dismounting of the nine-shaft pile driving roller are more convenient.

As shown in fig. 3, 5, 6, 7, and 8, each of the shaft mounting grooves 12 is further embedded with a mounting plate (the mounting plate is not shown in the drawings), one side surface of the mounting plate is formed with at least 2 first half-screw grooves, the other side surface of the mounting plate is formed with at least 2 second half-screw grooves, one side wall of the shaft mounting groove 12 is formed with at least 2 third half-screw grooves 121, and the other side wall of the shaft mounting groove 12 is formed with at least 2 fourth half-screw grooves 122; each first half screw hole groove of the mounting plate is arranged opposite to each third half screw hole groove 121 corresponding to the rotating shaft mounting groove 12, each second half screw hole groove of the mounting plate is arranged opposite to each fourth half screw hole groove 122 corresponding to the rotating shaft mounting groove 12, so that the first half screw hole groove of the mounting plate and the third half screw hole groove 121 of the rotating shaft mounting groove 12 are combined to form a first mounting screw hole, and the second half screw hole groove of the mounting plate and the fourth half screw hole groove 122 of the rotating shaft mounting groove 12 are combined to form a second mounting screw hole; the bottom surface of the mounting plate and the bottom of the rotating shaft mounting groove 12 are both inwards concave cambered surfaces, so that the bottom surface of the mounting plate and the bottom of the rotating shaft mounting groove 12 are enclosed to form a rotating shaft hole; the left ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are correspondingly and rotatably arranged in the rotating shaft holes of the left mounting disc 1, and the right ends of the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 are correspondingly and rotatably arranged in the rotating shaft holes of the right mounting disc 2. When the installation, still including a plurality of first bolts, a plurality of second bolts, a plurality of first nut and a plurality of second nut, a first bolt and a first nut, a first installation screw corresponds, a second bolt and a second nut, a second installation screw corresponds, the one end of first bolt passes behind the first installation screw with first nut threaded connection, the one end of second bolt passes behind the second screw with second nut threaded connection, with this realization to the mounting panel for corresponding pivot mounting groove 12 install the location. By arranging the mounting plates, the driven rotating shafts 100 of the first pile driving roller 10, the second pile driving roller 20, the third pile driving roller 30, the fourth pile driving roller 40, the fifth pile driving roller 50, the sixth pile driving roller 60, the seventh pile driving roller 70, the eighth pile driving roller 80 and the ninth pile driving roller 90 can be positioned in the radial direction, so that the stability is improved; meanwhile, the mounting plate can enable the circular outlines of the left mounting plate 1 and the right mounting plate 2 to be more complete, and further the mounting plate is more attractive.

As shown in fig. 7, clamping grooves 14 are formed in one hole opening of each rotating shaft hole on the left mounting disk 1 and the right mounting disk 2 along the edge of the hole opening, each clamping groove 14 of the left mounting disk 1 is arranged on the right side surface of the left mounting disk 1, and each clamping groove 14 of the right mounting disk 2 is arranged on the left side surface of the right mounting disk 2; a first clamping boss is formed on the first mounting seat 11, a second clamping boss is formed on the second mounting seat 21, the first clamping boss of the first mounting seat 11 is embedded in the corresponding clamping groove 14 on the left mounting disc 1, and the second clamping boss of the second mounting seat 21 is embedded in the corresponding clamping groove 14 on the right mounting disc 2. Such design can make between first mount pad 11 and the left mounting disc 1, the second mount pad 21 is connected more firmly with right mounting disc 2 between, improves stability.

A supporting plate (not shown in the drawing) is arranged between the first pile driving roller 10 and the second pile driving roller 20, between the second pile driving roller 20 and the third pile driving roller 30, between the third pile driving roller 30 and the fourth pile driving roller 40, between the fourth pile driving roller 40 and the fifth pile driving roller 50, between the fifth pile driving roller 50 and the sixth pile driving roller 60, between the sixth pile driving roller 60 and the seventh pile driving roller 70, between the seventh pile driving roller 70 and the eighth pile driving roller 80, between the eighth pile driving roller 80 and the ninth pile driving roller 90, and between the ninth pile driving roller 90 and the first pile driving roller 10, the length direction of each supporting plate is parallel to the rotation axis of the main rotating shaft 3, one end of each supporting plate is arranged on the left mounting plate 1, and the other end of each supporting plate is arranged on the right mounting plate 2. The supporting plate plays a role in supporting the cloth, so that the cloth can normally transmit and walk around the axis of the rotating shaft of the main rotating shaft 3, and the cloth can keep a certain distance with the first pile raising roller 10, the second pile raising roller 20, the third pile raising roller 30, the fourth pile raising roller 40, the fifth pile raising roller 50, the sixth pile raising roller 60, the seventh pile raising roller 70, the eighth pile raising roller 80 and the ninth pile raising roller 90, thereby realizing the consistency of the lengths of piles on the surface of the cloth after pile raising treatment.

As shown in fig. 3, 6 and 7, the circumferential surfaces of the left and right mounting plates 1 and 2 are respectively formed with a plurality of supporting plate mounting grooves 13 communicating the left and right side surfaces thereof, a supporting plate corresponds to one supporting plate mounting groove 13 of the left mounting plate and one supporting plate mounting groove 13 of the right mounting plate, one end of the supporting plate is connected and mounted on one supporting plate mounting groove 13 of the left mounting plate, and the other end of the supporting plate is connected and mounted on one supporting plate mounting groove 13 of the right mounting plate. The design can make the installation and the disassembly of the supporting plate more convenient.

The left and right mounting discs 1 and 2 are also provided with a counterweight (not shown in the drawings) for balancing the center of gravity. When in use, according to the distribution positions of the first tensioning wheel 102, the second tensioning wheel 202, the third tensioning wheel 302, the fourth tensioning wheel 402, the fifth tensioning wheel 502, the sixth tensioning wheel 602, the seventh tensioning wheel 702, the eighth tensioning wheel 802, the ninth tensioning wheel 902, the first driven wheel 103, the second driven wheel 203, the third driven wheel 303, the fourth driven wheel 403, the fifth driven wheel 503, the sixth driven wheel 603, the seventh driven wheel 703, the eighth driven wheel 803, the ninth driven wheel 903 and the transmission wheel 404, the balance weights with different weights are installed on the left mounting disc 1 corresponding to the pallet mounting groove 13, and the balance weights with different weights are also installed on the right mounting disc 2 corresponding to the pallet mounting groove 13, so that the positions of the gravity centers of the left mounting disc 1 and the right mounting disc 2 are adjusted, the gravity centers of the left mounting disc 1 and the right mounting disc 2 are arranged close to the rotation axis thereof, and the left mounting disc 1 and the right mounting disc 2 are further smooth when rotating, and the stability is improved.

As shown in fig. 4, a left mounting seat 31 and a right mounting seat 32 are formed on the circumferential surface of the main rotating shaft 3 and arranged side by side along the axis, a left boss is formed on the left side surface of the left mounting seat 31, and a right boss is formed on the right side surface of the right mounting seat 32; a first central hole 15 is formed in the center of the left mounting plate 1, and a first central hole 15 is formed in the center of the right mounting plate 2; the first center hole 15 of the left mounting disc 1 is sleeved on the left boss of the left mounting seat 31 from the left side of the main rotating shaft 3, and the left mounting disc 1 is fixedly connected with the left mounting seat 31; the second center hole 15 of the right mounting disc 2 is sleeved on the right boss of the right mounting seat 32 from the right side of the main rotating shaft 3, and the right mounting disc 2 is fixedly connected with the right mounting seat 32. Such design can make the installation of left mounting disc 1, right mounting disc 2 more firm, improves stability.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, which may be modified, combined, and varied by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. A nine-shaft napping roller comprises a left mounting disc, a right mounting disc and a main rotating shaft; the left mounting disc is fixedly sleeved on the left end of the main rotating shaft, and the right mounting disc is fixedly sleeved on the right end of the main rotating shaft; the method is characterized in that:

the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are sequentially arranged around the rotation axis of the main rotating shaft, and the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller respectively comprise a driven rotating shaft and a brush hair barrel sleeved and fixed on the driven rotating shaft; the left ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are rotatably arranged on a left mounting disc, the right ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are rotatably arranged on a right mounting disc, and the rotating axes of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are parallel to the rotating axis of the main rotating shaft; the brushing barrels of the first pile removing roller, the second pile removing roller, the third pile removing roller, the fourth pile removing roller, the fifth pile removing roller, the sixth pile removing roller, the seventh pile removing roller, the eighth pile removing roller and the ninth pile removing roller are all positioned between the left mounting disc and the right mounting disc;

a left driving wheel is rotatably sleeved at the left end of the main rotating shaft and is positioned on the left side of the left mounting plate, a right driving wheel is rotatably sleeved at the right end of the main rotating shaft and is positioned on the right side of the right mounting plate; 2 first tensioning wheels, 2 third tensioning wheels, a fifth tensioning wheel, 2 sixth tensioning wheels and 2 eighth tensioning wheels are rotatably mounted on the left mounting disc, and 2 second tensioning wheels, 2 fourth tensioning wheels, 2 seventh tensioning wheels and 2 ninth tensioning wheels are rotatably mounted on the right mounting disc;

the automatic feeding device also comprises a first double-sided synchronous belt, a second double-sided synchronous belt, a third double-sided synchronous belt, a fourth double-sided synchronous belt, a fifth double-sided synchronous belt, a sixth double-sided synchronous belt, a seventh double-sided synchronous belt, an eighth double-sided synchronous belt and a ninth double-sided synchronous belt;

the left end of a driven rotating shaft of the first clearer roller is connected with a first driven wheel which coaxially rotates with the driven rotating shaft, 2 first tensioning wheels are arranged between the first driven wheel and a left driving wheel, the inner ring of a first double-sided synchronous belt is wound on the 2 first tensioning wheels and the first driven wheel at the same time, and the part, between the 2 first tensioning wheels, of the outer ring of the first double-sided synchronous belt is in matched transmission with the circumferential surface of the left driving wheel;

a second driven wheel which coaxially rotates with the second raising roller is connected and mounted at the right end of a driven rotating shaft of the second raising roller, 2 second tension wheels are all positioned between the second driven wheel and a right driving wheel, an inner ring of a second double-sided synchronous belt is simultaneously wound on the 2 second tension wheels and the second driven wheel, and a part of an outer ring of the second double-sided synchronous belt, which is positioned between the 2 second tension wheels, is in matched transmission with the circumferential surface of the right driving wheel;

a third driven wheel which coaxially rotates with the third raising roller is connected and mounted at the left end of a driven rotating shaft of the third raising roller, 2 third tension wheels are arranged between the third driven wheel and a left driving wheel, the inner ring of a third double-sided synchronous belt is simultaneously wound on the 2 third tension wheels and the third driven wheel, and the part of the outer ring of the third double-sided synchronous belt, which is arranged between the 2 third tension wheels, is in matched transmission with the circumferential surface of the left driving wheel;

a fourth driven wheel which coaxially rotates with the fourth raising roller is connected and mounted at the right end of a driven rotating shaft of the fourth raising roller, 2 fourth tension wheels are all positioned between the fourth driven wheel and a right driving wheel, an inner ring of a fourth double-sided synchronous belt is simultaneously wound on the 2 fourth tension wheels and the fourth driven wheel, and a part, between the 2 fourth tension wheels, of an outer ring of the fourth double-sided synchronous belt is in matched transmission with the circumferential surface of the right driving wheel; the left end of the driven rotating shaft of the fourth fluff raising roller is connected with a driving wheel which rotates coaxially with the driven rotating shaft;

a fifth driven wheel which coaxially rotates with the fifth raising roller is connected and mounted at the left end of the driven rotating shaft of the fifth raising roller, a fifth tensioning wheel is positioned between the fifth driven wheel and the driving wheel, an inner ring of a fifth double-sided synchronous belt is wound on the fifth driven wheel and the driving wheel at the same time, and an outer ring of the fifth double-sided synchronous belt is arranged by winding the fifth tensioning wheel;

a sixth driven wheel which coaxially rotates with the sixth raising roller is connected and mounted at the left end of a driven rotating shaft of the sixth raising roller, 2 sixth tension wheels are arranged between the sixth driven wheel and the left driving wheel, an inner ring of a sixth double-sided synchronous belt is wound on the 2 sixth tension wheels and the sixth driven wheel at the same time, and a part, between the 2 sixth tension wheels, of an outer ring of the sixth double-sided synchronous belt is in matched transmission with the circumferential surface of the left driving wheel;

a seventh driven wheel which coaxially rotates with the seventh raising roller is connected and mounted at the right end of a driven rotating shaft of the seventh raising roller, 2 seventh tension wheels are arranged between the seventh driven wheel and a right driving wheel, an inner ring of a seventh double-sided synchronous belt is simultaneously wound on the 2 seventh tension wheels and the seventh driven wheel, and a part, between the 2 seventh tension wheels, of an outer ring of the seventh double-sided synchronous belt is in matched transmission with the circumferential surface of the right driving wheel;

the left end of a driven rotating shaft of the eighth raising roller is connected with an eighth driven wheel which coaxially rotates with the eighth raising roller, 2 eighth tension wheels are arranged between the eighth driven wheel and the left driving wheel, the inner ring of an eighth double-sided synchronous belt is wound on the 2 eighth tension wheels and the eighth driven wheel at the same time, and the part of the outer ring of the eighth double-sided synchronous belt, which is arranged between the 2 eighth tension wheels, is in matched transmission with the circumferential surface of the left driving wheel;

the right end of a driven rotating shaft of the ninth napping roller is connected with a ninth driven wheel which coaxially rotates with the ninth driven rotating shaft, 2 ninth tension wheels are arranged between the ninth driven wheel and a right driving wheel, an inner ring of a ninth double-sided synchronous belt is simultaneously wound on the 2 ninth tension wheels and the ninth driven wheel, and a part, between the 2 ninth tension wheels, of an outer ring of the ninth double-sided synchronous belt is in matched transmission with the circumferential surface of the right driving wheel.

2. A nine-axis napping roller as recited in claim 1, in which: the left ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are respectively installed on the left installation disc through a first installation seat, and the right ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are respectively installed on the right installation disc through a second installation seat.

3. A nine-axis napping roller as recited in claim 2, in which: the peripheral surfaces of the left mounting disc and the right mounting disc are respectively provided with 9 rotating shaft mounting grooves which are communicated with the left side surface and the right side surface of the left mounting disc and the right mounting disc, and the 9 rotating shaft mounting grooves of the left mounting disc and the right mounting disc are arranged around the centers of the left mounting disc and the right mounting disc; the left ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are correspondingly and rotatably arranged in 9 rotating shaft mounting grooves of the left mounting disc one by one, and the right ends of the driven rotating shafts of the first pile driving roller, the second pile driving roller, the third pile driving roller, the fourth pile driving roller, the fifth pile driving roller, the sixth pile driving roller, the seventh pile driving roller, the eighth pile driving roller and the ninth pile driving roller are correspondingly and rotatably arranged in 9 rotating shaft mounting grooves of the right mounting disc one by one.

4. A nine-axis napping roller, as defined in claim 3, wherein: each rotating shaft mounting groove is also embedded with a mounting plate, at least 2 first half-screw hole grooves are formed in one side surface of the mounting plate, at least 2 second half-screw hole grooves are formed in the other side surface of the mounting plate, at least 2 third half-screw hole grooves are formed in one side wall of each rotating shaft mounting groove, and at least 2 fourth half-screw hole grooves are formed in the other side wall of each rotating shaft mounting groove; each first half screw hole groove of the mounting plate is in one-to-one opposite arrangement with each third half screw hole groove of the corresponding rotating shaft mounting groove, each second half screw hole groove of the mounting plate is in one-to-one opposite arrangement with each fourth half screw hole groove of the corresponding rotating shaft mounting groove, so that the first half screw hole grooves of the mounting plate and the third half screw hole grooves of the rotating shaft mounting groove are combined to form first mounting screw holes, and the second half screw hole grooves of the mounting plate and the fourth half screw hole grooves of the rotating shaft mounting groove are combined to form second mounting screw holes; the bottom surface of the mounting plate and the bottom of the rotating shaft mounting groove are both inwards concave cambered surfaces, so that the bottom surface of the mounting plate and the bottom of the rotating shaft mounting groove are surrounded to form a rotating shaft hole; the left ends of the driven rotating shafts of the first pile raising roller, the second pile raising roller, the third pile raising roller, the fourth pile raising roller, the fifth pile raising roller, the sixth pile raising roller, the seventh pile raising roller, the eighth pile raising roller and the ninth pile raising roller are correspondingly and rotatably arranged in the rotating shaft hole of the left mounting disc one by one, and the right ends of the driven rotating shafts of the first pile raising roller, the second pile raising roller, the third pile raising roller, the fourth pile raising roller, the fifth pile raising roller, the sixth pile raising roller, the seventh pile raising roller, the eighth pile raising roller and the ninth pile raising roller are correspondingly and rotatably arranged in the rotating shaft hole of the right mounting disc one by one.

5. A nine-axis napping roller, as defined in claim 3, wherein: clamping grooves are formed in one hole opening of each rotating shaft hole in the left mounting disc and the right mounting disc along the edge of the hole opening, each clamping groove in the left mounting disc is formed in the right side face of the left mounting disc, and each clamping groove in the right mounting disc is formed in the left side face of the right mounting disc; the first installation seat is provided with a first clamping boss, the second installation seat is provided with a second clamping boss, the first clamping boss of the first installation seat is embedded in the corresponding clamping groove on the left installation disc, and the second clamping boss of the second installation seat is embedded in the corresponding clamping groove on the right installation disc.

6. A nine-axis napping roller, as defined in claim 1, wherein: a supporting plate is arranged between the first pile driving roller and the second pile driving roller, between the second pile driving roller and the third pile driving roller, between the third pile driving roller and the fourth pile driving roller, between the fourth pile driving roller and the fifth pile driving roller, between the fifth pile driving roller and the sixth pile driving roller, between the sixth pile driving roller and the seventh pile driving roller, between the seventh pile driving roller and the eighth pile driving roller, between the eighth pile driving roller and the ninth pile driving roller, and between the ninth pile driving roller and the first pile driving roller, the length direction of each supporting plate is parallel to the rotation axis of the main rotating shaft, one end of each supporting plate is arranged on the left mounting disc, and the other end of each supporting plate is arranged on the right mounting disc.

7. A nine-axis napping roller as recited in claim 6, in which: the circumference face on left mounting disc, the right mounting disc all is formed with the layer board mounting groove of its left surface of a plurality of intercommunications and right flank, and a layer board corresponds with a layer board mounting groove of left mounting panel, a layer board mounting groove of right mounting panel, and the one end of layer board is to connect and install on a layer board mounting groove of left mounting panel, and the other end of layer board is to connect and installs on a layer board mounting groove of right mounting panel.

8. A nine-axis napping roller, as defined in claim 1, wherein: and the left mounting disc and the right mounting disc are also provided with a counterweight part for balancing the gravity center.

9. A nine-axis napping roller as recited in claim 1, in which: a left mounting seat and a right mounting seat are formed on the circumferential surface of the main rotating shaft in a parallel arrangement along the axis, a left boss is formed on the left side surface of the left mounting seat, and a right boss is formed on the right side surface of the right mounting seat; a first central hole is formed in the center of the left mounting disc, and a first central hole is formed in the center of the right mounting disc; a first center hole of the left mounting disc is sleeved on a left boss of the left mounting seat from the left side of the main rotating shaft, and the left mounting disc is fixedly connected with the left mounting seat; the second centre bore of right mounting disc is on the right boss of right mount pad of suit from the right side of main pivot, right mounting disc and right mount pad fixed connection.

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