CN114737290A - Intelligent stepped adjusting device for multi-group yarn output tension - Google Patents

Abstract

The invention provides an intelligent stepped adjusting device for multi-group yarn output tension, which comprises a rack, a plurality of yarn cylinder groups, a plurality of yarn guide frames and a wind-up roller, wherein the plurality of yarn guide frames and the wind-up roller are arranged along the routing direction of yarns, each yarn cylinder group consists of a plurality of vertically arranged yarn cylinders, the plurality of yarn cylinder groups and the plurality of yarn guide frames are in one-to-one correspondence side by side, each yarn guide frame is provided with a yarn guide hole through which yarns can pass, the yarns in the plurality of yarn cylinder groups are sequentially decreased from back to front through the number of the yarn guide frames, and a yarn outlet part of each yarn cylinder group is provided with a tension mechanism. The tension of the yarn is controlled in a hydraulic or pneumatic mode, the hydraulic pressure in the corresponding hydraulic sleeves on the plurality of groups of yarn cylinders is adjusted in a stepped mode by the aid of the stepped adjusting mechanism, so that the winding tension of the yarn cylinders at different positions is gradually increased from far to near, finally, the tension of all yarns outgoing from the last yarn guide frame is the same, and the phenomena of wrinkling, loosening and the like of the yarn during winding are effectively prevented.

Description

Intelligent stepped adjusting device for multi-group yarn output tension

Technical Field

The invention relates to the technical field of intelligent textile, in particular to an intelligent stepped adjusting device for multi-group yarn output tension.

Background

Warping is a process in which a certain number of warp yarns are wound in parallel on a beam or a beam according to a predetermined length and width. The most important thing in the warping process is to control the consistency of the tension of tens of warp yarns and even hundreds of warp yarns wound on the warp beam at the same time.

But because the position of the cheese in each row is not in the same longitudinal direction and the unwinding condition of the cheese in each row is different. Therefore, in the process that yarns unwound from different bobbins pass through the tensioner and are wound on the warp beam, the unwinding tension of the yarns in each row is different, and the tension provided by the existing tensioner is consistent, so that the tension of the yarns in different positions before reaching the winding roller is deviated, and the phenomena of wrinkling, loosening and the like are inevitably generated during the winding of the yarns.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intelligent stepped adjusting device for a plurality of groups of yarn output tension, which solves the problems in the background technology.

(II) technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a cascaded adjusting device of multiunit yarn output tensile force intelligence, includes frame, a plurality of yarn section of thick bamboo group, a plurality of guide frame, wind-up roll, and a plurality of guide frame, wind-up roll are arranged along the line direction of walking of yarn, and each group yarn section of thick bamboo group comprises a plurality of yarn section of thick bamboo of vertical arranging, and a plurality of yarn section of thick bamboo groups, a plurality of guide frame are one by one side, set up the yarn guide hole that can supply the yarn to pass through on every guide frame, and the quantity that the yarn in a plurality of yarn section of thick bamboo groups passes through the guide frame is progressively reduced from back to front in proper order, and the yarn department of being qualified for the next round of competitions of every group yarn section of thick bamboo group all is provided with tension mechanism, be provided with ladder adjustment mechanism in the frame, ladder adjustment mechanism can the ladder adjust the tension mechanism on a plurality of group yarn section of thick bamboo groups simultaneously, makes all yarn tension that last guide frame was qualified for the next round of competitions the same.

Preferably, the plurality of yarn barrel groups are a yarn barrel group I, a yarn barrel group II, a yarn barrel group III and a yarn barrel group IV, the number of the yarn guide frames is four, yarns on the yarn barrel group IV pass through the four yarn guide frames, yarns on the yarn barrel group III pass through the three yarn guide frames, yarns on the yarn barrel group II pass through the two yarn guide frames, and yarns on the yarn barrel group I pass through one yarn guide frame.

Preferably, tension mechanism includes tension pulley, preceding knock-off pulley, back knock-off pulley, hydraulic pressure sleeve and adaptation piston plate in hydraulic pressure sleeve, preceding knock-off pulley, back knock-off pulley pass through the wheel carrier and fix in the frame, and are located the front and back of tension pulley respectively, preceding knock-off pulley, tension pulley, back knock-off pulley are the V font and arrange, the vertical setting of hydraulic pressure sleeve is in the frame, the piston plate is connected to the wheel carrier of tension pulley, step adjustment mechanism can provide degressive hydraulic pressure or atmospheric pressure in proper order for providing in the hydraulic pressure sleeve that corresponds on yarn section of thick bamboo group one, yarn section of thick bamboo group two, yarn section of thick bamboo group three, yarn section of thick bamboo group four.

Preferably, the step adjusting mechanism comprises a support plate, a driving gear, four driven gears, a hydraulic cylinder body, a piston slider and a screw rod, wherein the piston slider and the screw rod are matched in a sliding manner and are arranged in the hydraulic cylinder body, the driving gear and the four driven gears are connected to the support plate in a rotating manner, the four driven gears are meshed with the driving gear, the tooth number of the four driven gears is reduced in sequence and in equal amount, a motor connected with the driving gear is arranged on the support plate, the four hydraulic cylinder bodies are arranged along the length direction of a rotating shaft of the driven gears and are connected with the support plate through a support frame, the four screw rods are coaxially connected with the four driven gears one by one, a thread groove is formed in the piston slider along the length direction of the piston slider, one end, away from the driven gears, of the screw rod is in threaded connection with the thread groove in the piston slider, hydraulic cavities are formed in the hydraulic cylinder body, and are respectively connected with a yarn cylinder group through guide pipes, And the corresponding hydraulic sleeves on the second yarn cylinder group, the third yarn cylinder group and the fourth yarn cylinder group are connected.

Preferably, a flow direction adjusting assembly for adjusting the flow direction is arranged in the hydraulic chamber.

Preferably, the flow direction adjusting component comprises a circular sliding sleeve, a circular sliding block and a rocking wheel, wherein the two ends of the circular sliding sleeve are communicated, the circular sliding sleeve is arranged in the hydraulic cavity, the circular sliding sleeve is communicated with openings at the two ends, the rest of the sliding blocks are hermetically connected with the wall of the hydraulic cavity, the circular sliding block is pivoted in the circular sliding sleeve, a channel communicated with the circular sliding sleeve is arranged on the circular sliding block, a one-way valve is arranged in the channel, the rocking wheel is arranged outside the hydraulic cylinder body and is connected with the circular sliding block through a rotating shaft, two positioning holes which are separated by 180 degrees are arranged on the rocking wheel, a guide sleeve is vertically arranged on the hydraulic cylinder body, a positioning column is vertically matched on the guide sleeve in a sliding manner, a spring is arranged between the bottom end of the positioning column and the bottom of the guide sleeve, the top end of the positioning column corresponds to the positioning hole, when the positioning column is clamped into the positioning hole, the two ends of the channel correspond to the openings at the two ends of the circular sliding sleeve.

(III) advantageous effects

The invention provides an intelligent stepped adjusting device for a plurality of groups of yarn output tension. The method has the following beneficial effects:

1. this cascaded adjusting device of multiunit yarn output tensile force intelligence, the tensile force through hydraulic pressure or atmospheric pressure's mode control yarn utilizes the hydraulic pressure force in the hydraulic sleeve that corresponds on the cascaded regulation a plurality of groups of yarn section of thick bamboo group of ladder adjustment mechanism simultaneously, makes the tension that different positions yarn section of thick bamboo was wound out be the crescent by far away to nearly, finally makes all yarn tension that last creel was qualified for the next round of competitions the same, effectively prevents that the yarn from taking place phenomenons such as fold, lax when the rolling.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a schematic view of a tension mechanism of the present invention;

FIG. 3 is a schematic view of the step adjustment mechanism of the present invention;

FIG. 4 is a schematic view of a hydraulic cylinder of the present invention;

FIG. 5 is a schematic view of the driven gear of the present invention;

FIG. 6 is a schematic top view of the hydraulic cylinder of the present invention;

FIG. 7 is a side cross-sectional view of the cylinder block of the present invention;

fig. 8 is a schematic view of the connection between the step adjustment mechanism and the tension mechanism of the present invention.

In the figure: the device comprises a machine frame 1, a yarn guide frame 2, a wind-up roller 3, a tension mechanism 4, a step adjusting mechanism 5, a yarn flow direction adjusting component 6, a guide pipe 7, a flow direction adjusting component 8, a first yarn cylinder 11, a second yarn cylinder 12, a third yarn cylinder 13, a fourth yarn cylinder 14, a tension wheel 41, a front top wheel 42, a rear top wheel 43, a hydraulic sleeve 44, a piston plate 45, a support plate 51, a driving gear 52, a driven gear 53, a hydraulic cylinder 54, a piston slider 55, a screw 56, a motor 57, a hydraulic cavity 58, a liquid outlet 59, a circular sliding sleeve 81, a circular slider 82, a channel 83, a one-way valve 84, a rotating shaft 85, a rocking wheel 86, a positioning hole 87, a positioning column 88 and a guide sleeve 89.

Detailed Description

The embodiment of the invention provides an intelligent stepped adjusting device for multi-group yarn output tension, which comprises a rack 1, a plurality of yarn cylinder groups, a plurality of yarn guide frames 3 and a wind-up roller 4, as shown in figures 1-8.

A plurality of guide frames 3, wind-up roll 4 are arranged along the line direction of walking of yarn 6, and each group's yarn section of thick bamboo is constituteed by a plurality of yarn section of thick bamboo of vertical arranging, and a plurality of yarn section of thick bamboo group, a plurality of guide frames 3 are one by one side, set up the yarn guide hole that can supply yarn 6 to pass through on every guide frame 3, and the yarn in a plurality of yarn section of thick bamboo groups is degressive from the back forward in proper order through the quantity of guide frame 3, and the guide frame 3 that is close to wind-up roll 4 derives all yarns 6. The yarn outlet position of the yarn 6 of each group of the yarn cylinder group is provided with a tension mechanism 4, and the yarn outlet tension of the yarn 6 is adjusted by the tension mechanism 4.

The frame 1 is provided with a step adjusting mechanism 5, and the step adjusting mechanism 5 can simultaneously adjust the tension mechanisms 4 on a plurality of groups of yarn cylinder groups in a step mode to enable all yarns 6 outgoing from the last yarn guide frame 2 to have the same tension.

As shown in fig. 1, in the present embodiment, four sets of the bobbin group and the creel 2 are provided, the four sets of the bobbin group are respectively a bobbin group one 11, a bobbin group two 12, a bobbin group three 13, and a bobbin group four 14, the yarn 6 on the bobbin group four 14 passes through the four creels 2, the yarn 6 on the bobbin group three 13 passes through the three creels 2, the yarn 6 on the bobbin group two 12 passes through the two creels 2, and the yarn 6 on the bobbin group one 11 passes through one creel 2. Since the number of the thread guides 2 through which the first, second, third and fourth sets of bobbins 11, 12, 13 and 14 pass is different, the frictional force of the thread 6 guided out by the corresponding bobbins passing through the thread guides 2 is different, that is, the frictional force applied to the thread 6 on the first, second, third and fourth sets of bobbins 11, 12, 13 and 14 is sequentially increased, which results in that the tension required for guiding out the thread 6 on the fourth set of bobbins 14 is the minimum.

As shown in fig. 2-3, a tension mechanism 4 is provided at the outlet of each yarn 6, the tension mechanism 4 includes a tension wheel 41, a front top wheel 42, a rear top wheel 43, a hydraulic sleeve 44, and a piston plate 45 fitted in the hydraulic sleeve 44, the front top wheel 42 and the rear top wheel 43 are fixed on the frame 1 through a wheel frame and are respectively located at the front and the rear of the tension wheel 41, the front top wheel 42, the tension wheel 41, and the rear top wheel 43 are arranged in a V-shape, and the tension wheel 41 is used to jack up the yarn 6 upwards, so that the yarn 6 has a tension force. The hydraulic sleeve 44 is vertically arranged on the frame 1, the wheel carrier of the tension wheel 41 is connected with the piston plate 45, and the step adjusting mechanism 5 can provide sequentially decreasing hydraulic pressure or air pressure for the hydraulic sleeves 44 corresponding to the first yarn cylinder group 11, the second yarn cylinder group 12, the third yarn cylinder group 13 and the fourth yarn cylinder group 14. The piston plate 45 is lifted up or lowered down by the pressure in the hydraulic sleeve 44, thereby adjusting the height of the tension pulley 41.

The device controls the tension of the yarn 6 in a hydraulic or pneumatic mode, and simultaneously adjusts the hydraulic pressure in the corresponding hydraulic sleeves 44 on a plurality of groups of yarn barrel groups in a stepped mode by utilizing the step adjusting mechanism 5, so that the winding tension of the yarn barrels at different positions is gradually increased from far to near, and finally all the yarn 6 outgoing from the last yarn guide frame 2 have the same tension, thereby effectively preventing the yarn 6 from wrinkling, loosening and the like during winding.

As shown in fig. 3 to 5, the step adjustment mechanism 5 includes a support plate 51, a driving gear 52, four driven gears 53, a hydraulic cylinder 54, a piston slider 55 slidably fitted in the hydraulic cylinder 54, and a screw 56, wherein the driving gear 52 and the four driven gears 53 are rotatably connected to the support plate 51, the four driven gears 53 are engaged with the driving gear 52, the number of teeth of the four driven gears 53 is sequentially decreased in an equal amount, the driving gear 52 drives the four driven gears 53 to rotate synchronously when rotating, the four driven gears 53 have different rotation amplitudes, and the four driven gears 53 from large to small correspond to the four yarn bobbin groups 14, the three yarn bobbin groups 13, the two yarn bobbin groups 12, and the one yarn bobbin group 11, respectively. The support plate 51 is provided with a motor 57 connected with the driving gear 52, and the forward and reverse rotation of the driving gear 52 is controlled by the forward and reverse rotation of the motor 57. Four hydraulic cylinder body 54 are arranged along driven gear 53's pivot length direction, and connect supporting plate 51 through the support frame, four screw rods 56 one by one with four driven gear 53 coaxial coupling, threaded groove has been seted up along its length direction on the piston slider 55, the one end that driven gear 53 was kept away from to screw rod 56 is connected with the threaded groove screw thread on the piston slider 55, be hydraulic pressure chamber 58 in the hydraulic cylinder body 54, when driven gear 53 rotates, drive screw rod 56 and rotate, the rotation of screw rod 56 drives piston slider 55 and is linear motion in hydraulic cylinder body 54, thereby extrude the hydraulic pressure body in the hydraulic pressure chamber 58. Liquid outlets 59 of the four hydraulic cavities 58 at the bottom end of the hydraulic cylinder 54 are respectively connected with the corresponding hydraulic sleeves 44 on the first yarn cylinder group 11, the second yarn cylinder group 12, the third yarn cylinder group 13 and the fourth yarn cylinder group 14 through the guide pipes 7. Only one motor is required to achieve hydraulic adjustment in the hydraulic sleeve 44 at different positions.

In order to prevent the reverse flow of the hydraulic oil, a flow direction adjusting unit 8 for adjusting the flow direction is provided in the hydraulic chamber 58.

As shown in fig. 6-7, the flow direction adjusting assembly 8 includes a circular sliding sleeve 81 with two through ends, a circular sliding block 82, and a rocking wheel 86, the circular sliding sleeve 81 is disposed in the hydraulic chamber 81, the circular sliding sleeve 81 except for two through openings is hermetically connected to the wall of the hydraulic chamber 81, the circular sliding block 82 is pivotally connected in the circular sliding sleeve 81, a channel 83 communicating with the circular sliding sleeve 81 is disposed on the circular sliding block 82, a check valve 84 is disposed in the channel 83, and the number of the check valves 84 is two. The rocking wheel 86 is arranged outside the hydraulic cylinder body 54 and connected with the circular sliding block 82 through the rotating shaft 85, two positioning holes 87 which are separated by 180 degrees are formed in the rocking wheel 86, a guide sleeve 89 is vertically arranged on the hydraulic cylinder body 54, a positioning column 88 is vertically matched on the guide sleeve 89 in a sliding mode, a spring is arranged between the bottom end of the positioning column 88 and the bottom of the guide sleeve 89, the top end of the positioning column 88 corresponds to the positioning holes 87, and when the positioning column 88 is clamped into the positioning holes 87, two ends of the channel 83 correspond to openings at two ends of the circular sliding sleeve 81.

When the pressure is required to be adjusted to the pressurization state, the circular slider 82 is rotated by the rocking wheel 86, so that the check valve 84 in the passage 83 faces the liquid outlet 59. And the positioning posts 88 are used to clamp the corresponding positioning holes 87.

When the pressure reduction state needs to be adjusted, the circular slide block 82 is rotated by the rocking wheel 86, so that the check valve 84 in the passage 83 faces away from the liquid outlet 59. And the positioning posts 88 are used to clamp the corresponding positioning holes 87.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a cascaded adjusting device of multiunit yarn output tension intelligence, which comprises a frame (1), a plurality of yarn section of thick bamboo group, a plurality of guide (3), wind-up roll (4) are arranged along the line direction of walking of yarn (6), each group yarn section of thick bamboo group comprises a plurality of yarn section of thick bamboo of vertical arranging, a plurality of yarn section of thick bamboo group, a plurality of guide (3) are one by one side, set up the yarn guide hole that can supply yarn (6) to pass through on every guide (3), the yarn in a plurality of yarn section of thick bamboo group is followed backward and is progressively reduced in proper order through the quantity of guide (3), its characterized in that: the yarn outlet positions of the yarns (6) of each group of yarn barrel groups are provided with tension mechanisms (4), the rack (1) is provided with a step adjusting mechanism (5), and the step adjusting mechanism (5) can simultaneously adjust the tension mechanisms (4) on the plurality of groups of yarn barrel groups in a step mode, so that all the yarns (6) which are outlet from the last yarn guide frame (2) have the same tension.

2. The intelligent stepped adjusting device for the output tension of multiple groups of yarns as claimed in claim 1, wherein: a plurality of the bobbin group is bobbin group one (11), bobbin group two (12), bobbin group three (13), bobbin group four (14), the quantity of guide creel (2) is four, yarn (6) on bobbin group four (14) are through four guide creels (2), yarn (6) on bobbin group three (13) are through three guide creel (2), yarn (6) on bobbin group two (12) are through two guide creels (2), yarn (6) on bobbin group one (11) are through one guide creel (2).

3. The intelligent stepped adjusting device for the output tensions of multiple groups of yarns according to claim 2, characterized in that: tension mechanism (4) include tension pulley (41), preceding top wheel (42), back top wheel (43), hydraulic sleeve (44) and piston plate (45) of adaptation in hydraulic sleeve (44), preceding top wheel (42), back top wheel (43) are fixed on frame (1) through the wheel carrier, and are located the front and back of tension pulley (41) respectively, preceding top wheel (42), tension pulley (41), back top wheel (43) are the V font and arrange, hydraulic sleeve (44) vertical setting is on frame (1), piston plate (45) are connected to the wheel carrier of tension pulley (41), ladder adjustment mechanism (5) can provide progressively reduced hydraulic pressure or atmospheric pressure in corresponding hydraulic sleeve (44) on for yarn section of thick bamboo group one (11), yarn section of thick bamboo group two (12), yarn section of thick bamboo group three (13), yarn section of thick bamboo group four (14).

4. The intelligent stepped adjusting device for the multi-group yarn output tension as claimed in claim 3, wherein: the step adjusting mechanism (5) comprises a support plate (51), a driving gear (52), four groups of driven gears (53), a hydraulic cylinder body (54), a piston slider (55) and screws (56) which are slidably matched in the hydraulic cylinder body (54), wherein the driving gear (52) and the four driven gears (53) are rotatably connected to the support plate (51), the four driven gears (53) are engaged with the driving gear (52), the number of teeth of the four driven gears (53) is sequentially reduced in an equal amount, a motor (57) connected with the driving gear (52) is arranged on the support plate (51), the four hydraulic cylinder bodies (54) are arranged along the length direction of a rotating shaft of each driven gear (53) and are connected with the support plate (51) through a support frame, the four screws (56) are coaxially connected with the four driven gears (53) one by one, thread grooves are formed in the piston slider (55) along the length direction of the piston slider, one end of the screw rod (56) far away from the driven gear (53) is in threaded connection with a threaded groove on the piston sliding block (55), hydraulic cavities (58) are formed in the hydraulic cylinder body (54), and the four hydraulic cavities (58) are respectively connected with corresponding hydraulic sleeves (44) on the first yarn cylinder group (11), the second yarn cylinder group (12), the third yarn cylinder group (13) and the fourth yarn cylinder group (14) through guide pipes (7).

5. The intelligent stepped adjusting device for the output tensions of multiple groups of yarns according to claim 4, wherein: and a flow direction adjusting assembly (8) for adjusting the flow direction is arranged in the hydraulic cavity (58).

6. The intelligent stepped adjusting device for the output tensions of multiple groups of yarns according to claim 5, wherein: the flow direction adjusting assembly (8) comprises a circular sliding sleeve (81) with two through ends, a circular sliding block (82) and a rocking wheel (86), the circular sliding sleeve (81) is arranged in a hydraulic cavity (81), the circular sliding sleeve (81) is connected with the wall of the hydraulic cavity (81) in a sealing manner except for the through opening of the two ends, the circular sliding sleeve (81) is pivoted in the circular sliding sleeve (81), a channel (83) communicated with the circular sliding sleeve (81) is formed in the circular sliding block (82), a one-way valve (84) is arranged in the channel (83), the rocking wheel (86) is arranged outside a hydraulic cylinder body (54) and is connected with the circular sliding block (82) through a rotating shaft (85), two positioning holes (87) which are separated by 180 degrees are formed in the rocking wheel (86), a guide sleeve (89) is vertically arranged on the hydraulic cylinder body (54), and a positioning column (88) is adapted to the vertical sliding on the guide sleeve (89), be provided with the spring between the bottom of reference column (88) and the bottom of uide bushing (89), the top of reference column (88) is corresponding with locating hole (87), and when locating column (88) card was gone into locating hole (87), the both ends of passageway (83) and the both ends opening of circular sliding sleeve (81) were corresponding.

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