CN113215717B - Circular knitting machine for knitting fabric spinning - Google Patents

Abstract

The invention discloses a circular knitting machine for knitting fabric spinning, which relates to the technical field of textile equipment and comprises a frame, a tension control component, a tension regulation and control component, a winding component, a smoothing component, a moving component and a linkage component, wherein the frame is used for supporting and fixing the tension control component, the tension regulation and control component, the winding component, the smoothing component, the moving component and the linkage component; the tension assembly is arranged above the rack, the tension assembly is arranged above the rack under the supporting action of the tension adjusting and controlling assembly, and the tension adjusting and controlling assembly is clamped on the surface of the rack; the winding assembly is arranged at the side position of the tension control assembly. This scheme is through the tension control subassembly of design, tension regulation and control subassembly, rolling subassembly, smooths the subassembly, remove subassembly and linkage subassembly isotructure mutually under, the flexibility ratio is high, can adapt to in different knitted fabric's rolling action, can regulate and control by oneself according to knitted fabric in tensile change in transportation process, has effectively guaranteed the stability of follow-up rolling subassembly in the rolling in-process, still can provide certain effect of smoothing to the knitted fabric of rolling on the wind-up roll.

Description

Circular knitting machine for knitting fabric spinning

Technical Field

The invention relates to the technical field of textile equipment, in particular to a circular knitting machine for knitting fabric textile.

Background

The circular knitting machine comprises a circular knitting machine and a circular hosiery machine, wherein a needle bed of the circular knitting machine is cylindrical and disc-shaped, a needle cylinder is generally 356-965mm (14-38 inches) in diameter, the machine number is generally E16-E32, the circular knitting machine is mainly used for processing knitting blank cloth with various structures, the circular hosiery machine is used for producing various cylindrical socks, and the needle cylinder of the circular knitting machine is smaller in diameter, generally 71-141mm, and the machine number is E7.5-E36.

Knitted fabrics are mainly classified into two categories: the circular knitting machine is mainly composed of a yarn feeding mechanism, a knitting mechanism, a drawing-coiling mechanism and a transmission mechanism, and is still inconvenient to use.

Disclosure of Invention

The invention aims to provide a circular knitting machine for knitting fabric spinning, which is high in flexibility, can be adapted to rolling actions of different knitting fabrics, can be automatically regulated and controlled according to tension changes of the knitting fabrics in the conveying process, effectively ensures the stability of a subsequent rolling assembly in the rolling process, and can provide a certain smoothing effect on the knitting fabrics rolled on a rolling roller.

The technical purpose of the invention is realized by the following technical scheme: a circular knitting machine for knitting fabric textile comprises,

the frame is used for supporting and fixing the tension control assembly, the tension regulation and control assembly, the winding assembly, the smoothing assembly, the moving assembly and the linkage assembly;

the tension assembly is arranged above the rack, the tension assembly is arranged above the rack through the supporting effect of the tension adjusting and controlling assembly, and the tension adjusting and controlling assembly is clamped on the surface of the rack;

the rolling component is arranged on the side position of the tension control component, the bottom of the rolling component is fixedly connected to the top of the rack, and the leveling component is arranged on one side, away from the tension control component, of the rolling component.

Further, the tension control subassembly includes the accepting roller, the accepting roller is located the top of frame, the first switching axle of fixedly connected with on the terminal surface of accepting roller, first bearing has been cup jointed on the surface of first switching axle, one side that first bearing deviates from first switching axle still is provided with the bearing frame, first bearing joint is on the one side that the bearing frame is close, the top fixed connection of elbow and tension regulation and control subassembly is passed through to the one side that the bearing frame deviates from first bearing.

Further, the tension regulation and control subassembly is including connecting the urceolus, connect the urceolus joint at the top of frame, the pole in the connection has been cup jointed to the inside of connecting the urceolus, the top of pole in the connection passes through the elbow and the close one side fixed connection of bearing frame.

Furthermore, the inside sliding connection who connects the urceolus supports the seat, support the seat and pass through supporting spring fixed connection with the relative one end of connecting interior pole, support the seat and deviate from the first screw thread section of thick bamboo of the one end fixedly connected with of connecting interior pole, first screw thread section of thick bamboo cup joints in the inside of connecting the urceolus, the inside threaded connection of first screw thread section of thick bamboo has first threaded rod, the one end fixedly connected with second of first screw thread section of thick bamboo is kept away from to first threaded rod changes the spiale, the second bearing has been cup jointed on the surface of second commentaries on classics spiale, the second bearing joint is in the inboard bottom of frame.

Further, the fixed surface of second switching axle is connected with the worm wheel, the surperficial interlock of worm wheel has the worm, the tip fixedly connected with third switching axle of worm, the third bearing has been cup jointed on the surface of third switching axle, the third bearing joint is on the inside wall of frame, the one end fixedly connected with knob of worm is kept away from to the third switching axle.

Further, the rolling subassembly includes the wind-up roll, the wind-up roll is located the top of frame, fixedly connected with fourth switching axle on the terminal surface of wind-up roll, the fourth bearing has been cup jointed on the surface of fourth switching axle, the fourth bearing joint is on the one side that first side square seat is close, the bottom of fourth bearing and the top fixed connection of frame.

Further, smooth the device including smooth the roller, fixedly connected with fifth switching axle on the terminal surface of smooth the roller, the fifth bearing has been cup jointed on the surface of fifth switching axle, fifth bearing joint is on the one side that second side square seat is close, the bottom fixedly connected with of second side square seat slides the connecting seat, second slides connecting seat sliding connection in the groove of slideing that the frame top was seted up.

Further, the moving assembly comprises a driving wheel, the driving wheel is fixedly connected to the surface of a fourth transfer shaft, the driving wheel is in transmission connection with a driven wheel through a belt, the driven wheel is fixedly connected to a sixth transfer shaft, a sixth bearing is sleeved on the surface of the sixth transfer shaft, the sixth bearing is clamped on the surface, close to a second lateral seat, of the second lateral seat, a speed change box is arranged at the position, corresponding to the driving wheel and the driven wheel, of the second lateral seat, a first driving bevel gear is fixedly connected to the surface of the sixth transfer shaft, a first driven bevel gear is meshed on the surface of the first driving bevel gear, an eighth transfer shaft is fixedly connected to the lateral end face of the first driving bevel gear, an eighth bearing is sleeved on the surface of the eighth transfer shaft, the eighth bearing is clamped on the end face of the inner side of the speed change box, a second threaded rod is fixedly connected to one end, far away from the second driven bevel gear, a second threaded barrel is sleeved on the surface of the second lateral end, and the second threaded barrel is clamped on the surface, close to one side of the second lateral seat.

Furthermore, the linkage assembly comprises a second driving bevel gear, the second driving bevel gear is fixedly connected to a fourth transfer shaft, a second driven bevel gear is meshed with the surface of the second driving bevel gear, a sleeve is fixedly connected to the side end face of the second driven bevel gear, a ninth bearing is sleeved on the surface of the sleeve, and the ninth bearing is clamped on the surface close to the first side square seat.

Furthermore, a loop bar is sleeved inside the sleeve, a tenth bearing is sleeved on the surface of the loop bar, the tenth bearing is connected to the surface, close to the second side square seat, of the loop bar, a third driving bevel gear is fixedly connected to one end, far away from the sleeve, of the loop bar, a third driven bevel gear is meshed on the surface of the third driving bevel gear, the third driven bevel gear is fixedly connected to the surface of the fifth transfer shaft, a sliding block is fixedly connected to the surface of the loop bar, and the sliding block is connected to the inner side wall of the sleeve in a sliding groove formed in the inner side wall of the sleeve in a sliding mode.

Compared with the prior art, the scheme has the beneficial effects that:

1. this scheme is through the tension control subassembly of design, tension regulation and control subassembly, rolling subassembly, smooths the subassembly, remove subassembly and linkage subassembly isotructure mutually under, the flexibility ratio is high, can adapt to in different knitted fabric's rolling action, can regulate and control by oneself according to knitted fabric in tensile change in transportation process, has effectively guaranteed the stability of follow-up rolling subassembly in the rolling in-process, still can provide certain effect of smoothing to the knitted fabric of rolling on the wind-up roll.

2. According to the scheme, through the designed tension control assembly and the tension regulation and control assembly, the toggle knob can drive the third transfer shaft to rotate in the third bearing, then, the torsion can be transferred to the second transfer shaft by utilizing the linkage effect between the worm and the worm wheel, the first threaded rod is driven by the second transfer shaft to rotate in the second bearing, under the combined action effect of the torsion and the thread occlusion force, the first threaded rod can be displaced on the surface of the first threaded cylinder, the first threaded cylinder can apply upward thrust or downward tension to the support spring through the abutting seat in the displacement process, therefore, the effect of regulating and controlling the height of the support roller can be realized, the flexibility is high, the support spring can be adapted to the actions of different knitting fabrics, the support effect of the support spring is supplemented, the elastic buffer characteristic of the support spring is utilized, if the tension of the knitting fabric is insufficient, the support spring can push the support roller to move upwards, if the tension of the knitting fabric is stronger, the support spring can be compressed, the stability and the load capacity of the support roller can be ensured, and the stability of the subsequent winding assembly in the winding process can be effectively ensured.

3. According to the scheme, the driving device is required to be installed at the end part of one of the fourth transfer shafts before operation through the designed winding assembly, the driving device is controlled to operate, the output shaft of the driving device can drive the fourth transfer shaft to rotate in the fourth bearing in the working process, and the winding action of the knitted fabric can be realized by utilizing the rotating action of the winding roller.

4. According to the scheme, through the designed smoothing component, the moving component and the linkage component, in the process that the fourth transfer shaft rotates in the fourth bearing, the second driving bevel gear and the second driven bevel gear are utilized to transfer the torque force to the sleeve, so that the sleeve rotates in the ninth bearing, the sleeve drives the sleeve to rotate in the tenth bearing, the linkage effect between the third driven bevel gear and the third driving bevel gear is utilized, the fifth transfer shaft can be driven to rotate in the fifth bearing, the smoothing roller can be driven to rotate, the rotation direction of the smoothing roller is the same as that of the winding roller, the smoothing roller applies friction force and pressure to the knitted fabric, and therefore a certain smoothing effect can be provided for the winding of the knitted fabric wound on the winding roller, in the process of rotation of the fourth transfer shaft, torsion is transferred to the sixth transfer shaft through the linkage effect among the driving wheel, the belt and the driven wheel, so that the sixth transfer shaft performs deceleration motion, namely the rotating speed of the sixth transfer shaft is far lower than that of the fourth transfer shaft, then the sixth transfer shaft transfers the torsion to the eighth transfer shaft by utilizing the linkage effect between the first driving bevel gear and the first driven bevel gear, and the eighth transfer shaft drives the second threaded rod to rotate in the second threaded cylinder.

Drawings

FIG. 1 is a schematic perspective view of a device for embodying the present invention;

FIG. 2 is a schematic view of the combination of a uptake roll and a first transfer shaft used in the practice of the present invention;

FIG. 3 is a schematic view of a combination of a first transfer shaft and a bearing housing for embodying the present invention;

FIG. 4 is a schematic perspective view of a tension modulating assembly useful in the practice of the present invention;

FIG. 5 is an exploded view of the inner structure of the coupling outer cylinder for embodying the present invention;

FIG. 6 is a schematic view of the internal structure of the transmission case for embodying the present invention;

FIG. 7 is a schematic view of a combination of a wind-up roll and a fourth transfer shaft for use in embodying the present invention;

FIG. 8 is a schematic view of a combination of a sixth transfer shaft and a first threaded rod for embodying the present invention;

FIG. 9 is a schematic view showing a combination of a fourth transfer shaft and a fifth transfer shaft for embodying the present invention;

fig. 10 is an enlarged schematic view of a structure at a point a for embodying the present invention.

In the figure: 1. a frame; 2. a tension control assembly; 201. a receiving roller; 202. a first transfer shaft; 203. a first bearing; 204. a bearing seat; 205. bending the pipe; 3. a tension regulating assembly; 301. connecting the outer cylinder; 302. connecting the inner rod; 303. a support spring; 304. a support seat; 305. a first threaded barrel; 306. a first threaded rod; 307. a second transfer shaft; 308. a second bearing; 309. a worm gear; 310. a worm; 311. a third transfer shaft; 312. a third bearing; 313. a knob; 4. a winding component; 401. a wind-up roll; 402. a fourth transfer shaft; 403. a fourth bearing; 404. a first lateral square base; 5. a smoothing assembly; 501. smoothing rollers; 502. a fifth transfer shaft; 503. a fifth bearing; 504. a second lateral square base; 6. a sliding connection seat; 7. sliding connecting grooves; 8. a moving assembly; 801. a driving wheel; 802. a belt; 803. a driven wheel; 804. a sixth transfer shaft; 805. a gear box; 806. a sixth bearing; 807. a first drive bevel gear; 808. a first driven bevel gear; 809. an eighth transfer shaft; 810. an eighth bearing; 811. a second threaded rod; 812. a second threaded barrel; 9. a linkage assembly; 901. a second drive bevel gear; 902. a second driven bevel gear; 903. a sleeve; 904. a ninth bearing; 905. a loop bar; 906. a third drive bevel gear; 907. a third driven bevel gear; 908. a tenth bearing.

Detailed Description

The invention will be further described by means of specific embodiments, which are given by way of illustration only and are not intended to limit the scope of the invention.

Example 1

A circular knitting machine for textile of knitted fabric, as shown in fig. 1 to 10, comprising: the tension control device comprises a frame 1, a tension control component 2, a tension regulation and control component 3, a winding component 4, a smoothing component 5, a moving component 8 and a linkage component 9, wherein the frame is used for supporting and fixing the tension control component, the tension regulation and control component, the moving component 8 and the linkage component 9;

the tension assembly is positioned above the rack 1, the tension assembly is arranged above the rack 1 under the supporting action of the tension adjusting and controlling assembly 3, and the tension adjusting and controlling assembly 3 is clamped on the surface of the rack 1;

the rolling component 4 is arranged at the side position of the tension control component 2, the bottom of the rolling component 4 is fixedly connected to the top of the frame 1, and the leveling component 5 is arranged at one side of the rolling component 4 far away from the tension control component 2.

Tension control assembly 2 includes carrying roller 201, carrying roller 201 is located the top of frame 1, the first switching axle 202 of fixedly connected with on the terminal surface of carrying roller 201, first bearing 203 has been cup jointed on the surface of first switching axle 202, one side that first bearing 203 deviates from first switching axle 202 still is provided with bearing frame 204, first bearing 203 joint is on the one side that bearing frame 204 is close, the top fixed connection of elbow 205 and tension regulation and control assembly 3 is passed through to the one side that bearing frame 204 deviates from first bearing 203.

The tension regulation and control component 3 comprises a connecting outer barrel 301, the connecting outer barrel 301 is connected to the top of the rack 1 in a clamped mode, a connecting inner rod 302 is sleeved inside the connecting outer barrel 301, and the top end of the connecting inner rod 302 is fixedly connected with one side, close to the bearing seat 204, of the elbow 205.

The inside sliding connection who connects urceolus 301 has and supports seat 304, support the seat 304 and pass through supporting spring 303 fixed connection with the relative one end of connecting interior pole 302, support the first thread section of thick bamboo 305 of the one end fixedly connected with that the seat 304 deviates from to connect interior pole 302, first thread section of thick bamboo 305 cup joints the inside of connecting urceolus 301, the internal thread of first thread section of thick bamboo 305 is connected with first threaded rod 306, the one end fixedly connected with second that first thread section of thick bamboo 305 was kept away from to first threaded rod 306 changes the spiale 307, the surface of second commentaries on classics spiale 307 has cup jointed second bearing 308, second bearing 308 joint is in the inboard bottom of frame 1.

A worm wheel 309 is fixedly connected to the surface of the second transfer shaft 307, a worm 310 is meshed with the surface of the worm wheel 309, a third transfer shaft 311 is fixedly connected to the end of the worm 310, a third bearing 312 is sleeved on the surface of the third transfer shaft 311, the third bearing 312 is clamped on the inner side wall of the rack 1, and a knob 313 is fixedly connected to one end, far away from the worm 310, of the third transfer shaft 311.

In practical applications, a worker may toggle the knob 313 to drive the third transfer shaft 311 to rotate in the third bearing 312, and then, by using a linkage effect between the worm 310 and the worm wheel 309, a torsion may be transferred to the second transfer shaft 307, and the second transfer shaft 307 drives the first threaded rod 306 to rotate in the second bearing 308, so that the first threaded rod 306 may displace on the surface of the first threaded cylinder 305 under a combined action effect of the torsion and a thread engagement force, and the first threaded cylinder 305 may apply an upward pushing force or a downward pulling force to the support spring 303 through the abutment 304 during the displacement, so as to achieve an action effect of adjusting and controlling the height of the support roller 201, and have a high flexibility, and may be adapted to rolling motions of different knitting fabrics, and further, by using a support effect of the support spring 303, and by using an elastic buffer characteristic of the support spring 303, if the tension of the knitting fabric is insufficient, the support spring 303 may push the support roller 201 to move upward, and if the tension of the knitting fabric is strong, the support spring 303 may be compressed, and may ensure effective load bearing stability of the load bearing assembly 201 in a subsequent rolling process, and stability of 4.

Example 2

A circular knitting machine for textile fabric is different from the circular knitting machine in embodiment 1 in that a winding component 4 is arranged at the top of a machine frame 1 as shown in figure 1;

the winding assembly 4 comprises a winding roller 401, the winding roller 401 is located above the rack 1, a fourth transfer shaft 402 is fixedly connected to the end face of the winding roller 401, a fourth bearing 403 is sleeved on the surface of the fourth transfer shaft 402, the fourth bearing 403 is connected to the surface, close to the first side square seat 404, of the fourth bearing 403 in a clamped mode, and the bottom of the fourth bearing 403 is fixedly connected with the top of the rack 1.

In practical application, before operation, a driving device needs to be installed at the end of one of the fourth transferring shafts 402, and the driving device is controlled to operate, an output shaft of the driving device drives the fourth transferring shaft 402 to rotate in the fourth bearing 403 in the working process, and the winding action of the knitted fabric can be realized by utilizing the rotating action of the winding roller 401.

Example 3

A circular knitting machine for knitting fabric textile is different from embodiment 1 in that, as shown in figure 1, a smoothing component 5 is arranged at the top of a machine base;

the smoothing device comprises a smoothing roller 501, a fifth transfer shaft 502 is fixedly connected to the end face of the smoothing roller 501, a fifth bearing 503 is sleeved on the surface of the fifth transfer shaft 502, the fifth bearing 503 is clamped on the similar face of the second side square seat 504, a sliding connection seat 6 is fixedly connected to the bottom of the second side square seat 504, and the second sliding connection seat 6 is slidably connected into a sliding connection groove 7 formed in the top of the machine seat.

The moving assembly 8 comprises a driving wheel 801, the driving wheel 801 is fixedly connected to the surface of the fourth transfer shaft 402, the driving wheel 801 is in transmission connection with a driven wheel 803 through a belt 802, the driven wheel 803 is fixedly connected to a sixth transfer shaft 804, a sixth bearing 806 is sleeved on the surface of the sixth transfer shaft 804, the sixth bearing 806 is clamped on one surface close to the second lateral seat 504, a speed change box 805 is arranged at a position, corresponding to the driving wheel 801 and the driven wheel 803, of the second lateral seat 504, a first driving bevel gear is fixedly connected to the surface of the sixth transfer shaft 804, a first driven bevel gear 808 is meshed on the surface of the first driving bevel gear 807, an eighth transfer shaft 809 is fixedly connected to the lateral end surface of the first driving bevel gear 807, an eighth bearing 810 is sleeved on the surface of the eighth transfer shaft 809, the eighth bearing 810 is clamped on the end surface of the inner side of the speed change box 805, a second 811 is fixedly connected to one end, away from the driven bevel gear 902, a second threaded rod 812 is sleeved on the surface of the second transfer shaft 809, and a second threaded rod 812 is clamped on the surface of the second lateral seat 504.

The linkage assembly 9 comprises a second driving bevel gear 901, the second driving bevel gear 901 is fixedly connected to the fourth transfer shaft 402, a second driven bevel gear 902 is meshed with the surface of the second driving bevel gear 901, a sleeve 903 is fixedly connected to the side end face of the second driven bevel gear 902, a ninth bearing 904 is sleeved on the surface of the sleeve 903, and the ninth bearing 904 is clamped on the side close to the first side seat 404.

The loop bar 905 has been cup jointed to the inside of sleeve 903, the ten bearing 908 has been cup jointed on the surface of loop bar 905, the joint of ten bearing 908 is on the close one side of second side seat 504, the one end fixedly connected with third drive bevel gear 906 of sleeve 903 is kept away from to loop bar 905, the surface meshing of third drive bevel gear 906 has third driven bevel gear 907, third driven bevel gear 907 fixed connection is on the surface of fifth switching axle 502, the fixed surface of loop bar 905 is connected with the slider, slider sliding connection is in the spout of seting up on the sleeve 903 inside wall.

In practical application, in the process that the fourth transfer shaft 402 rotates in the fourth bearing 403, the second bevel drive gear 901 and the second bevel driven gear 902 are used to transfer torque to the sleeve 903, so that the sleeve 903 rotates in the ninth bearing 904, the sleeve 903 is driven by the sleeve 903 to rotate in the tenth bearing 908, the fifth transfer shaft 502 is driven to rotate in the fifth bearing 503 by using the linkage effect between the third bevel driven gear 907 and the third bevel drive gear 906, so that the smoothing roller 501 can be driven to rotate, the rotation direction of the smoothing roller 501 is the same as that of the wind-up roller 401, the smoothing roller 501 applies friction and pressure to the knitted fabric, and a certain smoothing effect can be provided to the knitted fabric wound on the wind-up roller 401, in the process that the fourth transfer shaft 402 rotates, a torsion is transferred to the sixth transfer shaft 804 through a linkage effect among the driving wheel 801, the belt 802 and the driven wheel 803, so that the sixth transfer shaft 804 performs a deceleration motion, that is, the rotation speed of the sixth transfer shaft 804 is far less than that of the fourth transfer shaft 402, then the sixth transfer shaft 804 transfers the torsion to the eighth transfer shaft 809 through the linkage effect between the first driving bevel gear 807 and the first driven bevel gear 808, and the eighth transfer shaft 809 drives the second threaded rod 811 to rotate in the second threaded cylinder 812, so that the leveling roller 501 performs a traversing motion along with the thickness of the knitted fabric on the winding roller 401 under the combined effect of the torsion and a thread engagement force, and the friction and the pressure applied to the knitted fabric by the leveling roller 501 are effectively ensured.

In the working principle, the toggle knob 313 can drive the third transfer shaft 311 to rotate in the third bearing 312, then the linkage effect between the worm 310 and the worm wheel 309 is utilized to transfer the torque force to the second transfer shaft 307, the second transfer shaft 307 drives the first threaded rod 306 to rotate in the second bearing 308, under the combined action effect of the torque force and the thread engagement force, the first threaded rod 306 can be displaced on the surface of the first threaded cylinder 305, the first threaded cylinder 305 can apply an upward pushing force or a downward pulling force to the support spring 303 through the abutting seat 304 in the displacement process, so that the effect of regulating and controlling the height of the receiving roller 201 can be realized, the flexibility is high, the rolling action of different knitting fabrics can be adapted, the support effect of the support spring 303 is supplemented, and the elastic buffer characteristic of the support spring 303 is utilized, if the tension of the knitted fabric is insufficient, the supporting spring 303 will push the receiving roller 201 to move upwards, if the tension of the knitted fabric is strong, the supporting spring 303 will be compressed, and can ensure the stability and the load capacity of the receiving roller 201, and effectively ensure the stability of the subsequent winding assembly 4 in the winding process, before the operation, a driving device needs to be installed at the end of one of the fourth transfer shafts 402, and the driving device is controlled to operate, an output shaft of the driving device will drive the fourth transfer shaft 402 to rotate in the fourth bearing 403 in the working process, the winding action of the knitted fabric can be realized by the rotation action of the winding roller 401, and in the process that the fourth transfer shaft 402 rotates in the fourth bearing 403, the torsion force will be transferred to the sleeve 903 by the second driving bevel gear 901 and the second driven bevel gear 902, so that the sleeve 903 rotates in the ninth bearing 904, the sleeve 903 drives the sleeve 903 to rotate in the tenth bearing 908, the fifth transfer shaft 502 can be driven to rotate in the fifth bearing 503 by using the linkage effect between the third driven bevel gear 907 and the third driving bevel gear 906, the smoothing roller 501 can be driven to rotate, the rotating direction of the smoothing roller 501 is the same as that of the take-up roller 401, friction force and pressure are applied to the knitted fabric by using the smoothing roller 501, a certain smoothing effect can be provided for the knitted fabric wound on the take-up roller 401, the fourth transfer shaft 402 transfers torsion to the sixth transfer shaft 804 by using the linkage effect among the driving wheel 801, the belt 802 and the driven wheel 803 in the rotating process, the sixth transfer shaft 804 performs deceleration movement, namely the rotating speed of the sixth transfer shaft 804 is far lower than that of the fourth transfer shaft 402, the sixth transfer shaft 804 drives the transfer shaft 812 to rotate by using the linkage effect between the first torsion gear and the first driven bevel gear, the eighth transfer shaft 809 drives the knitted fabric to rotate on the second transfer shaft 809, and the second transfer shaft 501 is driven by using the linkage effect of the first torsion gear 811, and the second torsion gear 811, and the effective thread pressing force of the second transfer shaft 501 is applied to the second transfer shaft 401.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications without inventive contribution to the present embodiment as required after reading the present specification, but all of them are protected by patent law within the scope of the present invention.

Claims (3)

1. A circular knitting machine for knitting fabric textile is characterized by comprising,

the frame (1) is used for supporting and fixing the tension control assembly (2), the tension regulation and control assembly (3), the winding assembly (4), the flattening assembly (5), the moving assembly (8) and the linkage assembly (9);

the tension regulating and controlling component (3) is positioned above the rack (1), the tension regulating and controlling component (3) is arranged above the rack (1) through the supporting effect of the tension regulating and controlling component (3), and the tension regulating and controlling component (3) is clamped on the surface of the rack (1);

the winding component (4) is arranged at the side position of the tension control component (2), the bottom of the winding component (4) is fixedly connected to the top of the rack (1), and the flattening component (5) is arranged on one side, away from the tension control component (2), of the winding component (4);

the tension control assembly (2) comprises a receiving roller (201), the receiving roller (201) is located above the rack (1), a first switching shaft (202) is fixedly connected to the end face of the receiving roller (201), a first bearing (203) is sleeved on the surface of the first switching shaft (202), a bearing seat (204) is further arranged on one side, away from the first switching shaft (202), of the first bearing (203), the first bearing (203) is clamped on one face, close to the bearing seat (204), of the bearing seat (204), and one face, away from the first bearing (203), of the bearing seat (204) is fixedly connected with the top end of the tension regulation and control assembly (3) through an elbow (205);

the tension regulation and control assembly (3) comprises a connecting outer barrel (301), the connecting outer barrel (301) is clamped at the top of the rack (1), a connecting inner rod (302) is sleeved inside the connecting outer barrel (301), and the top end of the connecting inner rod (302) is fixedly connected with one surface, close to the bearing seat (204), of the elbow (205);

the inner part of the connecting outer barrel (301) is connected with a supporting seat (304) in a sliding mode, one end, opposite to the supporting seat (304) and the connecting inner rod (302), of the supporting seat (304) is fixedly connected with a first threaded barrel (305) through a supporting spring (303), one end, away from the connecting inner rod (302), of the supporting seat (304) is fixedly connected with a first threaded barrel (305), the first threaded barrel (305) is sleeved inside the connecting outer barrel (301), the inner thread of the first threaded barrel (305) is connected with a first threaded rod (306), one end, away from the first threaded barrel (305), of the first threaded rod (306) is fixedly connected with a second transfer shaft (307), a second bearing (308) is sleeved on the surface of the second transfer shaft (307), and the second bearing (308) is clamped at the bottom of the inner side of the rack (1);

a worm wheel (309) is fixedly connected to the surface of the second transfer shaft (307), a worm (310) is meshed with the surface of the worm wheel (309), a third transfer shaft (311) is fixedly connected to the end of the worm (310), a third bearing (312) is sleeved on the surface of the third transfer shaft (311), the third bearing (312) is clamped on the inner side wall of the rack (1), and a knob (313) is fixedly connected to one end, far away from the worm (310), of the third transfer shaft (311);

the winding assembly (4) comprises a winding roller (401), the winding roller (401) is located above the rack (1), a fourth switching shaft (402) is fixedly connected to the end face of the winding roller (401), a fourth bearing (403) is sleeved on the surface of the fourth switching shaft (402), the fourth bearing (403) is clamped on one face, close to the first lateral square seat (404), of the fourth bearing (403), and the bottom of the fourth bearing (403) is fixedly connected with the top of the rack (1);

the flattening assembly (5) comprises a flattening roller (501), a fifth transfer shaft (502) is fixedly connected to the end face of the flattening roller (501), a fifth bearing (503) is sleeved on the surface of the fifth transfer shaft (502), the fifth bearing (503) is clamped on one surface close to the second side square seat (504), a sliding connecting seat (6) is fixedly connected to the bottom of the second side square seat (504), and the sliding connecting seat (6) is slidably connected into a sliding connecting groove (7) formed in the top of the machine base;

the moving assembly (8) comprises a driving wheel (801), the driving wheel (801) is fixedly connected to the surface of a fourth transfer shaft (402), the driving wheel (801) is in transmission connection with a driven wheel (803) through a belt (802), the driven wheel (803) is fixedly connected to a sixth transfer shaft (804), a sixth bearing (806) is sleeved on the surface of the sixth transfer shaft (804), the sixth bearing (806) is clamped on the surface close to a second lateral seat (504), a speed changing box (805) is arranged at the position, corresponding to the driving wheel (801) and the driven wheel (803), of the second lateral seat (504), and a first driving bevel gear (807) is fixedly connected to the surface of the sixth transfer shaft (804), the surface of the first driving bevel gear (807) is engaged with a first driven bevel gear (808), the side end face of the first driving bevel gear (807) is fixedly connected with an eighth transfer shaft (809), the surface of the eighth transfer shaft (809) is sleeved with an eighth bearing (810), the eighth bearing (810) is clamped on the end face of the inner side of the speed changing box (805), one end of the eighth transfer shaft (809) far away from the second driven bevel gear (902) is fixedly connected with a second threaded rod (811), the surface of the second threaded rod (811) is sleeved with a second threaded barrel (812), and the second threaded barrel (812) is clamped on the surface of the second side square seat (504) close to the second side square seat The above.

2. The circular knitting machine for textile fabrics of claim 1 is characterized in that the linkage assembly (9) comprises a second driving bevel gear (901), the second driving bevel gear (901) is fixedly connected to a fourth transfer shaft (402), a second driven bevel gear (902) is meshed with the surface of the second driving bevel gear (901), a sleeve (903) is fixedly connected to the lateral end face of the second driven bevel gear (902), a ninth bearing (904) is sleeved on the surface of the sleeve (903), and the ninth bearing (904) is clamped on the surface close to the first lateral square seat (404).

3. The circular knitting machine for textile fabric of claim 2, wherein a sleeve rod (905) is sleeved inside the sleeve (903), a tenth bearing (908) is sleeved on the surface of the sleeve rod (905), the tenth bearing (908) is clamped on the surface close to the second side base (504), a third driving bevel gear (906) is fixedly connected to one end, far away from the sleeve (903), of the sleeve rod (905), a third driven bevel gear (907) is meshed on the surface of the third driving bevel gear (906), the third driven bevel gear (907) is fixedly connected to the surface of the fifth transfer shaft (502), a sliding block is fixedly connected to the surface of the sleeve rod (905), and the sliding block is slidably connected to a sliding groove formed in the inner side wall of the sleeve (903).

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