CN210826581U - Automatic threading plate device of flat knitting machine - Google Patents

Automatic threading plate device of flat knitting machine Download PDF

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Publication number
CN210826581U
CN210826581U CN201921106956.4U CN201921106956U CN210826581U CN 210826581 U CN210826581 U CN 210826581U CN 201921106956 U CN201921106956 U CN 201921106956U CN 210826581 U CN210826581 U CN 210826581U
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China
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steel wire
releasing
lifting mechanism
threading plate
plate
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CN201921106956.4U
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Chinese (zh)
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肖运全
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Steiger Participations SA
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Steiger Participations SA
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Abstract

The utility model discloses an automatic threading plate device of a flat knitting machine, which comprises a frame, a high-position roller, a lifting device, a pulling force automatic releasing device, a thread guiding plate, a threading plate, a starting needle, a steel wire feeding and drawing device and a steel wire limiting device; the frame comprises a left frame and a right frame, the lifting device comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism is arranged on the left frame, the right lifting mechanism is arranged on the right frame, and the left lifting mechanism and the right lifting mechanism are symmetrically arranged; the lead plate, the threading plate and the automatic tension releasing device are arranged between the left lifting mechanism and the right lifting mechanism; the lead plate is arranged at one end of the threading plate; the starting needle is formed at the top of the threading plate; the steel wire feeding and drawing device is positioned below the threading plate; the steel wire limiting device is arranged in the middle of the steel wire feeding and pumping device. The automatic threading plate device is simple and ingenious in structure, convenient to install and low in manufacturing cost, and can effectively achieve the effect that any piece is knitted without waste yarn and directly plays the opening, so that the knitting cost and the labor cost are greatly reduced.

Description

Automatic threading plate device of flat knitting machine
Technical Field
The utility model relates to a knitting machine technical field specifically is an automatic threading board device of flat-bed machine.
Background
The flat knitting machine is a machine for knitting by using a transverse knitting needle bed, and is a machine for finishing loop knitting by matching yarns with knitting needles, wherein yarns are driven by a machine head to move back and forth on the needle bed full of knitting needles, and the knitting machine is a flat knitting machine, which belongs to one kind of knitting machinery and generally adopts the transverse knitting machine.
The flat knitting machine can complete the knitting of a complete piece of knitting, a complete piece of knitting generally mainly comprises parts such as waste yarn, stitches removing, starting, idle running, rib knitting, big body and the like, and because the pulling output process of the knitted fabric after the knitting is finished draws the formed knitted fabric out of a knitting area and sends the knitted fabric out after a certain traction force is given to the knitted fabric, the traction force has great influence on the knitting process and the product quality, and the flat knitting machine has the following basic requirements: because the looping process is continuously carried out and the traction movement is required to be continuously carried out, the traction force acting on each coil needs to be stable, uniform and consistent, and the traction amount in the unit time of the traction force needs to be synchronously carried out in the looping process, a certain distance exists between a needle bed port and a traction device in the flat knitting machine, namely, a fabric piece cannot be clamped by the traction device immediately when being knitted, at the moment, if the normal knitting of the fabric piece is directly carried out, the fabric piece which is just knitted (i.e. the fabric piece which is not clamped by a high-position roller) is uneven due to lack of uniform traction force, so the whole knitting effect of the fabric piece is influenced, namely, the fabric piece can be smoothly knitted only in the traction state, therefore, before entering the formal knitting of the fabric piece, the starting fabric with the length of 25-35mm needs to be knitted firstly, and after the starting fabric is clamped by the high-position roller below the needle bed port, the weaving pieces can obtain certain traction force and enter formal weaving, so that 25-35mm of the starting fabric needs to be woven for transition when one weaving piece is woven, and after weaving of the weaving pieces is finished, workers need to detach the starting fabric (waste yarn) on the weaving pieces. Because some flat knitting machines can be equipped with automatic starting devices, starting rubber band yarns are required to be used as starting fabrics, waste yarns are generated, the starting devices are complex in structure and high in failure rate, and the use cost is relatively increased. Therefore, the conventional flat knitting machine needs to realize the integral knitting of the knitted fabric piece by using the waste yarn before starting the knitting, so that the integral working efficiency is reduced, and the yarn is wasted.
Aiming at the technical problems, the method of the starting device is mostly adopted for starting the piece in the prior art, but the method has poor practicability and poor using effect, so that a plurality of flat knitting machines still continue to use the original waste yarn traction method for starting the piece, the labor intensity of operators is increased undoubtedly, the loss of manpower and material resources is caused, and the starting device of the flat knitting machine is designed and optimized due to the lack of an effective scheme in the industry.
The operator is still required to process and modify the straight line, which is not beneficial to the popularization and application of the flat knitting machine in the market.
Disclosure of Invention
The utility model relates to an overcome the defect among the above-mentioned prior art, the utility model provides a flat-bed machine's automatic threading board device, this automatic threading board device simple structure is ingenious, simple to operate, and low in manufacturing cost can effectively reach any piece of weaving and all do not have the direct suitable for reading of yarn waste, greatly reduced weave cost and cost of labor, be favorable to this automatic threading board device in knitting machinery technical field's popularization and application.
In order to realize the aim, the utility model adopts the following technical scheme that the automatic threading plate device of the flat knitting machine comprises a frame and a high-position roller, wherein the high-position roller is arranged close to the upper end of the frame; the device also comprises a lifting device, a tension automatic releasing device, a thread guide plate, a threading plate, a starting needle, a steel wire feeding and drawing device and a steel wire limiting device; the frame comprises a left frame and a right frame, the lifting device comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism is arranged on the left frame, the right lifting mechanism is arranged on the right frame, and the left lifting mechanism and the right lifting mechanism are symmetrically arranged; the lead plate, the threading plate and the automatic tension releasing device are arranged between the left lifting mechanism and the right lifting mechanism; the lead plate is arranged at one end of the threading plate; the starting needle is formed at the top of the threading plate; the steel wire feeding device is positioned below the threading plate; the steel wire limiting device is arranged in the middle of the steel wire feeding and drawing device.
As a preferred scheme of the utility model, the threading board includes the threading board body, threading board body top has set firmly the threading board steel pipe, the threading board body forms with seting up a plurality of slots with the threading board steel pipe the fore-set needle, the fore-set needle includes needle tooth and needle circle, and the copper wire is worn to locate in the needle circle.
As the utility model discloses an optimal scheme, the lead plate includes the lead plate body, lead plate body border cladding has the lead plate steel pipe, the butt joint of lead plate steel pipe and threading board steel pipe.
As an optimized proposal of the utility model, the edge of the lead plate body is arranged in a curve.
As an optimized scheme of the utility model, threading board body side forms first arch and second arch, threading board body side forms first recess and second recess, first arch and first recess looks adaptation and joint, second arch and second recess looks adaptation and joint.
As a preferred scheme of the present invention, a transmission rod is connected between the left lifting mechanism and the right lifting mechanism, and the left lifting mechanism and the right lifting mechanism respectively include a synchronous wheel, a synchronous belt, a slide rail, a lifting motor, a slider, a chain and a sprocket, the lifting motor drives the chain and the sprocket to rotate and drives the transmission rod and the synchronous wheel to rotate, the synchronous wheel drives the synchronous belt, and the synchronous belt drives the slider to move linearly on the slide rail; the outer side end of the lead plate connected with the threading plate is fixedly connected with the sliding block.
As an optimized proposal of the utility model, a counterweight strip is installed on one side of the synchronous belt.
As an optimized scheme of the utility model, the automatic release of pulling force device includes release base, release clamping slide block, release spring, release slide bar, release elasticity regulating block, release position inductor, hold-in range and release clamping slide block fixed connection, the release slide bar is worn to locate in the release clamping slide block, the release spring suit in outside the release slide bar, just release spring one end top is pushed away and is pressed from both sides tightly release clamping slide block, the other end quilt release elasticity regulating block supports the installation, release elasticity regulating block bottom is equipped with release adjusting bolt.
As an optimal scheme of the utility model, send and take out copper wire device including supplementary self-holding meshing copper wire wheelset, press from both sides tight regulation extension spring, main steel wire dish, number of turns inductor group, copper wire from the driving wheel, from driving wheel inductor, copper wire support, first motor, second motor, first motor drive the main steel wire dish, second motor drive supplementary self-holding meshing copper wire wheelset, number of turns inductor group install in main steel wire dish one side.
As the utility model discloses an optimal scheme, the copper wire stop device includes copper wire limit switch, trompil shell fragment and copper wire stopper, copper wire limit switch install in send and take out in the middle of the copper wire device.
The utility model provides an automatic threading board device of flat-bed machine, moreover, the steam generator is simple in structure ingenious, high durability and convenient installation, low in manufacturing cost, because the small and exquisite piece of knitting that can insert any tissue of rising needle will be knitted the whole of a rising needle is leakproof of piece and hold, hang the yarn and take off the yarn stably and can realize not having the state of a rising fabric and no rising tissue under will knitting the complete pull down of piece, it all does not have the direct rising of useless yarn to reach any piece of knitting, greatly reduced weave cost and cost of labor, be favorable to this automatic threading board device in knitting machine technical field's popularization and application.
Drawings
Fig. 1 is a schematic structural view of an automatic threading plate device of a flat knitting machine according to an embodiment of the present invention;
fig. 2 is a schematic structural view of an automatic threading plate device of a flat knitting machine according to an embodiment of the present invention;
FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;
FIG. 4 is an enlarged schematic view of the structure at B in FIG. 3;
FIG. 5 is a schematic structural diagram of components in an automatic threading plate device of a flat knitting machine according to an embodiment of the present invention;
FIG. 6 is a schematic structural diagram of components in an automatic threading plate device of a flat knitting machine according to an embodiment of the present invention;
fig. 7 is a schematic structural diagram of components in an automatic threading plate device of a flat knitting machine according to an embodiment of the present invention;
FIG. 8 is a schematic structural view of a threading board according to an embodiment of the present invention;
fig. 9 is a schematic structural view of an automatic tension releasing device in an embodiment of the present invention;
FIG. 10 is a schematic structural view of a lead plate according to an embodiment of the present invention;
fig. 11 is a left side view of the structure of the automatic threading plate device of the flat knitting machine according to the embodiment of the present invention.
Reference numerals: 1. a left frame; 2. a right frame; 3. a high-position roller; 4. a transmission rod; 41. a synchronizing wheel; 42. a synchronous belt; 43. a slide rail; 44. a lifting motor; 45. a slider; 46. a chain; 47. a sprocket; 51. a lead plate; 510. a lead plate body; 511. a first groove; 512. a second groove; 513. a lead plate steel pipe; 52. a threading plate; 520. a threading board body; 521. needle teeth; 522. needle ring; 523. a threading plate steel pipe; 524. a first protrusion; 525. a second protrusion; 6. a tension automatic releasing device; 61. releasing the clamping slide block; 62. releasing the sliding rod; 63. releasing the spring; 64. releasing the elastic force adjusting block; 65. releasing the adjusting bolt; 7. auxiliary self-clamping meshing steel wire wheel sets; 8. a main steel wire coil; 9. a circle number inductor group; 10. clamping the adjusting tension spring; 11. a steel wire limit switch; 12. a steel wire bracket; 15. a second motor; 16. opening the elastic sheet; 17. a steel wire limiting block; 18. a driven wheel sensor; 19. a steel wire driven wheel; 20. a first motor.
Detailed Description
The following describes embodiments of the present invention in detail with reference to the accompanying drawings.
Example (b): as shown in fig. 1 to 11, an automatic threading plate device of a flat knitting machine comprises a frame and a high-position roller 3, wherein the high-position roller 3 is installed near the upper end of the frame, the automatic threading plate device further comprises a lifting device, a tension automatic releasing device 6, a threading plate 51, a threading plate 52, a starting needle, a steel wire feeding and drawing device and a steel wire limiting device, the frame comprises a left frame 1 and a right frame 2, the lifting device comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism is installed on the left frame 1, the right lifting mechanism is installed on the right frame 2, the left lifting mechanism and the right lifting mechanism are symmetrically arranged, the threading plate 51, the threading plate 52 and the tension automatic releasing device are installed between the left lifting mechanism and the right lifting mechanism, the left lifting mechanism and the right lifting mechanism drive the threading plate 51 and the threading plate 52 to vertically lift and descend, and the threading plate 52 is in the process of drawing work, the automatic tension releasing device 6 automatically adjusts and matches the tension required by the cloth piece and the tension driven by the lifting motor, so that the probability that the inclination of the thread guiding plate 51 and the threading plate 52 affects the quality of the fabrics in the process of ascending and descending is reduced.
The threading plate 51 is installed at one end of the threading plate 52 for guiding the moving direction of the steel wire, the starting needle is formed at the top of the threading plate 52 for guiding the steel wire, the steel wire feeding and drawing device is located below the threading plate 52 for tightening and loosening the steel wire, and the steel wire limiting device is installed in the middle of the steel wire feeding and drawing device.
Threading board 52 includes threading board body 520, above-mentioned threading board body 520 top has set firmly threading board steel pipe 523, above-mentioned threading board body 520 offers a plurality of slots with threading board steel pipe 523 and forms above-mentioned fore-set needle, for the position of fixed threading board steel pipe 523 in this embodiment, weld threading board steel pipe 523 at threading board body 520 top, the fore-set needle is on threading board body 520 and threading board steel pipe 523 and open a row of slot and form latch 521 and needle ring 522, the slot between the latch 521 is used for stocking the fore-set yarn of piece, the copper wire is worn to establish in above-mentioned needle ring 522, because threading board steel pipe 523 is attaching to threading board body 520 edge complete welding, the needle ring height 522 of latch 521 top has been guaranteed like this on the horizontal direction unanimously, and the concentricity in the hole of whole row needle ring 522 has been guaranteed, make the copper wire can penetrate smoothly and obtain guaranteeing.
The steel wire feeding and drawing device is arranged at the lower part of the threading plate 52 and is used for clockwise and anticlockwise rotating to sequentially penetrate the steel wire tips into needle rings 522 at the tops of a row of opening needles or draw back the steel wires for storage.
The steel wire limiting device is arranged in the middle of the steel wire feeding and drawing device, when the steel wire is pushed to a specified length, the limiting block welded on the steel wire can push the limiting switch elastic sheet, and the steel wire feeding and drawing device can stop feeding the steel wire.
Lead plate 51 includes lead plate body 510, the cladding of above-mentioned lead plate body 510 border has lead plate steel pipe 513, lead plate steel pipe 513 passes through the welded mode to be fixed at the border of lead plate body 510, above-mentioned lead plate steel pipe 513 docks with threading board steel pipe 523, the copper wire is worn to establish in lead plate steel pipe 513 and threading board steel pipe 523, a moving direction for the copper wire that the guide penetrated, above-mentioned lead plate body 510 border is curve setting, make the device compact structure, ingenious utilization space, reduce this automatic threading board device and transversely occupy the space.
The side of threading board body 520 forms first protruding 524 and second protruding 525, the side of above-mentioned lead board body 510 forms first recess 511 and second recess 512, above-mentioned first protruding 524 and first recess 511 looks adaptation and joint, above-mentioned second protruding 525 and second recess 512 looks adaptation and joint, through setting up first protruding 524, the second is protruding 525, lead plate 51 and threading board 52 are blocked simultaneously to the mode of first recess 511 and second recess 512, with the steel pipe concentricity of guaranteeing lead plate steel pipe 513 and threading board steel pipe 523, the threading of the copper wire of being convenient for, and mutual independence between lead plate 51 and the threading board 52, be convenient for later maintenance is changed, reduce user's use cost.
A transmission rod 4 is connected between the left and right elevating mechanisms, and the left and right elevating mechanisms respectively comprise a synchronous wheel 41, a synchronous belt 42, a slide rail 43, an elevating motor 44, a slider 45, a chain 46 and a sprocket 47, the elevating motor 44 drives the chain 46 and the sprocket 47 to rotate and drives the transmission rod 4 and the synchronous wheel 41 to rotate, the slider 45 and the synchronous belt 42 slidably mounted on the linear slide rail 43 are fixedly connected through an automatic tension releasing device, the synchronous wheel 41 drives the synchronous belt 42, the synchronous belt 42 drives the slider 45 to linearly move on the slide rail 43, one side of the synchronous belt 42 is provided with a counterweight strip for balancing the weight of the two sides of the synchronous belt 42 and reducing the load of the elevating motor 44, and the outer side end of the lead plate 51 connected with the threading plate 52 is fixedly connected with the slider 45, the rotation of the lifting motor 44 can drive the lead plate 51 and the threading plate 52 to complete the automatic lifting movement.
The automatic tension releasing device 6 comprises a releasing device base, a releasing clamping slide block 61, a releasing spring 63, a releasing slide rod 62, a releasing elasticity adjusting block 64 and a releasing position sensor 66, wherein the synchronous belt 42 is fixedly connected with the releasing clamping slide block 61, the releasing slide rod 62 is arranged in the releasing clamping slide block 61 in a penetrating mode, the releasing spring 63 is sleeved outside the releasing slide rod 62, one end of the releasing spring 63 is used for pushing and clamping the releasing clamping slide block 61, the other end of the releasing spring 63 is supported and installed by the releasing elasticity adjusting block 64, a releasing adjusting bolt 65 is arranged at the bottom of the releasing elasticity adjusting block 64, the releasing elasticity adjusting block 64 is loosened by screwing the releasing adjusting bolt 65 at the bottom of the releasing elasticity adjusting block 64, so that the releasing spring 63 is compressed to adjust the pushing force for pushing and releasing the clamping slide block 61.
The steel wire feeding and drawing device comprises an auxiliary self-clamping meshing steel wire wheel set 7, a clamping adjusting tension spring 10, a main steel wire disc 8, a circle number sensor set 9, a steel wire driven wheel 19, a driven wheel sensor 18, a steel wire bracket 12, a first motor 20 and a second motor 15, wherein the first motor 20 drives the main steel wire disc 8 to rotate to push or draw back steel wires fixed in the main steel wire disc 8 outwards, the second motor 15 drives the auxiliary self-clamping meshing steel wire wheel set 7, the auxiliary self-clamping meshing steel wire wheel set 7 comprises two rollers in meshing transmission, one roller is fixed on a rotating arm, the other roller is fixed on an output shaft of the second motor 15, the two rollers are always in a clamping state under the action of the clamping adjusting tension spring 10, the tips of the steel wires positioned between the two rollers in self-clamping meshing matching are fed into a lead plate steel pipe 513, and then are sequentially pushed into or drawn out from a needle ring 522 on a threading plate steel pipe 523, the moving steel wire is pressed on the steel wire driven wheel 19, the steel wire is twitched to drive the steel wire driven wheel 19 to rotate so that the driven wheel inductor 18 arranged behind the steel wire driven wheel 19 works, if the first motor 20 and the second motor 15 are both in a working state and the driven wheel 19 does not work, the driven wheel inductor 18 does not work at the moment, the steel wire can be judged to be in an abnormal state at the moment, the main steel wire disc 8 is provided with a turn number inductor group 9 for judging turning and turn numbers, and the turn number inductor group 9 is arranged on one side of the main steel wire disc 8 and used for judging the turning of the steel wire motor and counting the length of steel wire conveying.
Copper wire stop device includes copper wire limit switch 11, trompil shell fragment 16 and copper wire stopper 17, above-mentioned copper wire limit switch 11 is installed in the middle of the above-mentioned copper wire device of sending to take out, when sending the copper wire device propelling movement copper wire forward, because the copper wire wears to establish in the aperture on the trompil shell fragment 16 on the copper wire limit switch 11 limit, when the last needle ring 522 in threading board 52 top is pushed to the copper wire, copper wire stopper 17 of welding on the copper wire is because the volume is greater than the aperture of trompil shell fragment 16, copper wire stopper 17 will promote trompil shell fragment 16 through this hole and make copper wire limit switch 11 work, make and send the copper wire device of taking out to stop the.
After a first row is woven in a piece, the automatic threading plate device enables the thread guiding plate 51 and the threading plate 52 to start to move upwards under the driving of the left lifting mechanism and the right lifting mechanism, at the moment, the high-position roller 3 is in an open state, the thread guiding plate 51 and the threading plate 52 continue to move upwards until the needle teeth 521 at the tops of the thread guiding plate 51 and the threading plate 52 are inserted into all coils in the first row of the piece and stop moving upwards, at the moment, the steel wire feeding and drawing device starts to work to feed steel wires forwards, meanwhile, the turn number sensor group 9 arranged behind the main steel wire coil 8 calculates the length of the steel wires pushed forwards, the steel wires pushed forwards pass through the steel wire limit switch 11 arranged in the middle of the steel wire feeding and drawing device and the hole opening elastic sheet 16 and then are sequentially fed into the steel wire bracket 12, the thread guiding plate 51 and then penetrate into the needle ring 522 at the tops of the needle teeth 521, until the steel wires penetrate into the last needle ring 522, the steel wire limit switch 11 works, the steel wire feeding and drawing device stops working, meanwhile, the coils in the needle teeth 521 are all sealed by the steel wires, then the thread guide plate 51 and the threading plate 52 start to descend, when the steel wires at the tops of the needle teeth 521 press the coils and the tops of the needle rings 522 are not in contact with the moving crochet needles, the flat knitting machine starts to continue knitting, and the thread guide plate 51 and the threading plate 52 uniformly draw the knitted sheets according to the drawing speed set by knitting.
When the driving force of the lifting device is too large, in order to protect the fabric from being pulled and torn, the automatic tension releasing device 6 which is arranged on the sliding block 45 and is in transitional connection with the synchronous belt 42 automatically moves the excessive lower tension transmitted by the synchronous belt 42 to press down the compression releasing spring 63 through the release clamping sliding block 61, transmits the excessive tension to the releasing spring 63, when the release clamping sliding block 61 is compressed and moved to the position of the releasing position sensor 66, the lifting power device 44 stops the output of the driving force, when the release clamping sliding block 61 returns to the position of the releasing position sensor 66, the lifting motor 44 restarts the driving until the length of the pulled fabric exceeds the bottom of the high-position roller 3, the high-position roller 3 is closed, the high-position roller 3 starts to pull the fabric continuously, at the moment, the lead plate 51 and the threading plate 52 keep still, the flat knitting machine continues to knit the fabric with a certain length, and the steel wire feeding device sends out steel wires with a corresponding length before pulling, and drawing back the steel wire from the coils and the needle rings 522, taking the steel wire into the main steel wire coil 8, keeping the tip of the steel wire in the wire leading plate steel pipe 513, completely separating the first row of coils of the knitted fabric from the automatic threading plate at the moment, continuously knitting the knitted fabric under the traction of the high-position roller 3 until the knitted fabric is finished, and continuously descending the automatic threading to an initial position to wait for the next knitted fabric to continuously start working.
The automatic threading plate device of the flat knitting machine in the embodiment is simple and ingenious in structure, convenient to install, low in manufacturing cost, because the small and exquisite piece that weaves that can insert any tissue of rising needle will be knitted the whole that the rising needle of piece is leakproof and hold, hang the yarn and take off the yarn stably and can realize not having the state of rising fabric and no rising tissue will knit the piece complete and pull down, it does not have the direct rising of yarn all to reach any piece of weaving, greatly reduced weave cost and cost of labor, be favorable to this automatic threading plate device in the popularization and application of knitting machine technical field.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Although reference number 1, left frame, in the figures is used more herein; 2. a right frame; 3. a high-position roller; 4. a transmission rod; 41. a synchronizing wheel; 42. a synchronous belt; 43. a slide rail; 44. a lifting motor; 45. a slider; 46. a chain; 47. a sprocket; 51. a lead plate; 510. a lead plate body; 511. a first groove; 512. a second groove; 513. a lead plate steel pipe; 52. a threading plate; 520. a threading board body; 521. needle teeth; 522. needle ring; 523. a threading plate steel pipe; 524. a first protrusion; 525. a second protrusion; 6. a tension automatic releasing device; 61. releasing the clamping slide block; 62. releasing the sliding rod; 63. releasing the spring; 64. releasing the elastic force adjusting block; 65. releasing the adjusting bolt; 7. auxiliary self-clamping meshing steel wire wheel sets; 8. a main steel wire coil; 9. a circle number inductor group; 10. clamping the adjusting tension spring; 11. a steel wire limit switch; 12. a steel wire bracket; 15. a second motor; 16. opening the elastic sheet; 17. a steel wire limiting block; 18. a driven wheel sensor; 19. a steel wire driven wheel; 20. first motor, etc., without excluding the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. An automatic threading plate device of a flat knitting machine comprises a frame and a high-position roller (3); the method is characterized in that: the steel wire drawing machine also comprises a lifting device, a tension automatic releasing device (6), a wire leading plate (51), a threading plate (52), a starting needle, a steel wire feeding and drawing device and a steel wire limiting device; the frame comprises a left frame (1) and a right frame (2), the lifting device comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism is arranged on the left frame (1), the right lifting mechanism is arranged on the right frame (2), and the left lifting mechanism and the right lifting mechanism are symmetrically arranged; the lead plate (51), the threading plate (52) and the automatic tension releasing device are arranged between the left lifting mechanism and the right lifting mechanism; the lead plate (51) is arranged at one end of the threading plate (52); the starting needle is formed at the top of the threading plate (52); the steel wire feeding device is positioned below the threading plate (52); the steel wire limiting device is arranged in the middle of the steel wire feeding and drawing device.
2. The automatic threading plate device of the flat knitting machine according to claim 1, characterized in that: the threading plate (52) comprises a threading plate body (520), a threading plate steel pipe (523) is fixedly arranged at the top of the threading plate body (520), the threading plate body (520) and the threading plate steel pipe (523) are formed by arranging a plurality of grooves together to form the starting needle, the starting needle comprises needle teeth (521) and a needle ring (522), and a steel wire is arranged in the needle ring (522) in a penetrating manner.
3. The automatic threading plate device of the flat knitting machine according to claim 2, characterized in that: lead plate (51) include lead plate body (510), lead plate body (510) border cladding has lead plate steel pipe (513), lead plate steel pipe (513) dock with threading board steel pipe (523).
4. The automatic threading plate device of the flat knitting machine according to claim 3, characterized in that: the edge of the lead plate body (510) is arranged in a curve.
5. The automatic threading plate device of the flat knitting machine according to claim 3, characterized in that: threading board body (520) side forms first protruding (524) and second arch (525), lead board body (510) side forms first recess (511) and second recess (512), first protruding (524) and first recess (511) looks adaptation and joint, protruding (525) of second and second recess (512) looks adaptation and joint.
6. The automatic threading plate device of the flat knitting machine according to claim 1, characterized in that: a transmission rod (4) is connected between the left lifting mechanism and the right lifting mechanism, the left lifting mechanism and the right lifting mechanism respectively comprise a synchronous wheel (41), a synchronous belt (42), a sliding rail (43), a lifting motor (44), a sliding block (45), a chain (46) and a chain wheel (47), the lifting motor (44) drives the chain (46) and the chain wheel (47) to rotate and drives the transmission rod (4) and the synchronous wheel (41) to rotate, the synchronous wheel (41) drives the synchronous belt (42), and the synchronous belt (42) drives the sliding block (45) to linearly move on the sliding rail (43); the outer side end of the lead plate (51) connected with the threading plate (52) is fixedly connected with the sliding block (45).
7. The automatic threading plate device of the flat knitting machine according to claim 6, characterized in that: and a counterweight strip is arranged on one side of the synchronous belt (42).
8. The automatic threading plate device of the flat knitting machine according to claim 6, characterized in that: the automatic tension releasing device (6) comprises a releasing device base, a releasing clamping sliding block (61), a releasing spring (63), a releasing sliding rod (62), a releasing elastic force adjusting block (64) and a releasing position sensor (66), wherein a synchronous belt (42) is fixedly connected with the releasing clamping sliding block (61), the releasing sliding rod (62) penetrates through the releasing clamping sliding block (61), the releasing spring (63) is sleeved outside the releasing sliding rod (62), one end of the releasing spring (63) pushes and clamps the releasing clamping sliding block (61), the other end of the releasing spring (63) is supported and installed by the releasing elastic force adjusting block (64), and a releasing adjusting bolt (65) is arranged at the bottom of the releasing elastic force adjusting block (64).
9. The automatic threading plate device of the flat knitting machine according to claim 1, characterized in that: send and take out copper wire device including supplementary self-holding meshing steel wire wheelset (7), press from both sides tight regulation extension spring (10), main steel wire dish (8), number of turns inductor group (9), the copper wire from driving wheel (19), from driving wheel inductor (18), steel wire support (12), first motor (20), second motor (15), first motor (20) drive main steel wire dish (8), second motor (15) drive supplementary self-holding meshing steel wire wheelset (7), number of turns inductor group (9) install in main steel wire dish (8) one side.
10. The automatic threading plate device of the flat knitting machine according to claim 9, characterized in that: the steel wire limiting device comprises a steel wire limiting switch (11), an opening elastic sheet (16) and a steel wire limiting block (17), and the steel wire limiting switch (11) is installed in the middle of the steel wire feeding and pumping device.
CN201921106956.4U 2019-07-15 2019-07-15 Automatic threading plate device of flat knitting machine Withdrawn - After Issue CN210826581U (en)

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CN201921106956.4U CN210826581U (en) 2019-07-15 2019-07-15 Automatic threading plate device of flat knitting machine

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110438647A (en) * 2019-07-15 2019-11-12 宁波慈星股份有限公司 The self-threading panel assembly of straight-bar machines

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110438647A (en) * 2019-07-15 2019-11-12 宁波慈星股份有限公司 The self-threading panel assembly of straight-bar machines
CN110438647B (en) * 2019-07-15 2024-03-29 宁波慈星股份有限公司 Automatic threading plate device of flat knitting machine

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