CN210002034U - knocking-over and opening gear adjusting mechanism of warp knitting machine - Google Patents

Abstract

The utility model relates to an tricot machine knockover and shift adjustment mechanism, which comprises a frame, pendulum shaft , pendulum shaft two, 0 knockover support, the second knockover support, 1 knockover plate, the second knockover plate, 2 pivot, the second pivot, drive assembly, the second drive assembly, the adjusting shaft, the second adjusting shaft, third adjusting shaft and fourth adjusting shaft, pendulum shaft passes through shaft coupling with the adjusting shaft, pendulum shaft two passes through the second coupling with the second adjusting shaft and is connected, the third adjusting shaft passes through the third shaft coupling with the fourth adjusting shaft and is connected, be equipped with bevel gear on the third adjusting shaft, be equipped with on the third adjusting shaft with bevel gear complex third bevel gear, be equipped with the second bevel gear on the second adjusting shaft, be equipped with second bevel gear complex fourth bevel gear on the fourth adjusting shaft, be equipped with adjustment shaft or fourth adjusting shaft and adjust the structure, the operation is convenient, can carry out the knockover plate.

Description

knocking-over and opening gear adjusting mechanism of warp knitting machine

Technical Field

The utility model relates to an tricot machine knockover open shelves adjustment mechanism.

Background

Because the varieties of the warp knitting products are frequently changed and the number of machine tables in a workshop is limited, the opening of the machine tables is adjusted (the position of the knockover plate is adjusted) after times of knitting of the varieties of the warp knitting products are finished, and the machine tables are flattened again for production.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide simple and easy, the convenient operation of structure, can carry out the tricot machine knockover opening gear adjustment mechanism that debugs to the knockover plate.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A knocking-over and opening-gear adjusting mechanism for warp knitting machines includes a frame, a swing shaft disposed on the frame, a swing shaft second disposed on the frame, a 0 knocking-over support, a second knocking-over support, a knocking-over plate disposed on the 1 knocking-over support, a second knocking-over plate disposed on the second knocking-over support, a rotating shaft disposed on the knocking-over support, a second rotating shaft disposed on the second knocking-over support, a driving assembly for driving the 5 knocking-over support to swing up and down, a second driving assembly for driving the second knocking-over support to swing up and down, a adjusting shaft, a second adjusting shaft, a third adjusting shaft, and a fourth adjusting shaft, the swing shaft is connected to the adjusting shaft through a coupling, the swing shaft second and the second adjusting shaft are connected through the second coupling, the third adjusting shaft is connected to the fourth adjusting shaft through the third coupling, the third adjusting shaft is disposed on the third adjusting shaft, the fourth adjusting shaft is disposed on the third adjusting shaft, and the fourth adjusting shaft is disposed on the fourth adjusting shaft, and the fourth adjusting shaft is disposed on the hand wheel.

As the utility model discloses an preferred modes, drive assembly establishes including the cover establish the eccentric wheel on balance staff , establish the axostylus axostyle of establishing outside the eccentric wheel the axle sleeve and setting on the axle sleeve, the axostylus axostyle with it is articulated to have a ring support to take off at , second drive assembly establishes including the cover second eccentric wheel on the balance staff second, establish the second axle sleeve outside the second eccentric wheel and form the second axostylus axostyle on the second axle sleeve, the second axostylus axostyle with the second is taken off the ring support and is articulated.

As preferred modes of the utility model, the balance staff rotationally sets up in the frame, balance staff two rotationally sets up in the frame, the th adjustment axle sets up through the bearing frame in the frame, the second adjustment axle sets up through the second bearing frame in the frame.

Adopt the technical scheme of the utility model afterwards, the bevel gear that adopts two pairs of symmetries to place transmits, convert the rotation of directions into the rotation of directions in addition, and rotate in a flexible way, the load is less, through control balance and balance two towards opposite direction rotary motion, and drive through drive assembly and second drive assembly respectively and take off circle support and second and take off circle support up-and-down motion, and then control knockover board and second and take off the circle board and move to opposite direction respectively, realize the regulation of knockover board, when only needing to adjust the knockover board of side, can loosen the third shaft coupling ware, carry out the independent control to the side that needs to adjust, this the utility model discloses can adjust knockover board and second and take off the circle board alone, also can synchronous control, accelerate the speed to the flat-knitting machine, it has important meaning to improve warp knitting production efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the middle, front and back needle bed transmission mechanism of the present invention

FIG. 3 is a schematic view of the partial three-dimensional structure of the middle, front and back needle bed transmission mechanism of the present invention

FIG. 4 is a schematic view of the front and rear sinking portions of the present invention (FIG. 4 is a view of the sinking sub-arm removed from the th swing axis in an imaginary manner);

FIG. 5 is a schematic structural view of an upper swing transmission mechanism of a middle guide bar cradle according to the present invention;

FIG. 6 is a schematic structural view of a lower hem transmission mechanism of a middle guide bar cradle according to the present invention;

FIG. 7 is a schematic view of the cam cooperating with the roller frame of the present invention;

fig. 8 is a schematic diagram of the cam of the present invention;

fig. 9 is a schematic structural view of a curling mechanism of the present invention;

fig. 10 is a top view of the curling mechanism of the present invention (the cloth roller is not shown);

FIG. 11 is an enlarged view taken at A in FIG. 10;

FIG. 12 is a schematic structural view of the middle knockover shift-open adjusting mechanism of the present invention;

fig. 13 is a schematic structural view of the knocking-over open shift adjusting mechanism of the present invention (the oil tank baffle is not shown);

in the figure:

1-frame 10-guide bar device

11-guide bar cradle 12-guide bar

13-oil tank 14-baffle

15-plate 16-machine foot

101- guide bar upper swing link assembly 102-guide bar upper swing and lower swing arm

103-second guide bar upper swing link assembly 104-guide bar upper swing arm

105- guide bar lower swing link assembly 106-guide bar lower swing arm

107-guide bar lower swing upper swing arm 108-second guide bar lower swing connecting rod assembly

20-front knockover portion 300-rear knockover portion

40-front needle bed section 500-rear needle bed section

60-front settling section 700-rear settling section 700

201-knockover support 2011- knockover support

2022-second knockover support 202-knockover plate

2021- th knockdown plate 2022-second knockdown plate

203-guide sleeve 204-knocking-over connecting rod component

205-support seat 50-servo motor

51- th cloth roller 52-second cloth roller

53-third cloth-passing roller 54-driving roller

55-the th driven roller 56-the second driven roller

57-cloth roller 58-guide plate

59-cloth 510-chain

521-sprocket 522-bearing

523-guide frame 524-guide groove

525- th guide wall 526-second guide wall

527-drive chain 601-Settlement connecting rod Assembly

602- th settlement link 603-second settlement link

604-Settlement Main arm 605-Settlement sub arm

606-sinker bed 607-sinker needle

608-sedimentation disengaging swing arm 609-sedimentation swing plate

610-sinking pull rod 611-sinking swing tight ring

612-settlement disengaging rail seat 613-chute

614-handle 700-rear sink portion

701-pendulum shaft 702-pendulum shaft II

703- th adjustment axis 704-second adjustment axis

705-third adjustment axis 706-fourth adjustment axis

707- th coupling 708-second coupling

710- th bevel gear 711-second bevel gear

712-third bevel gear 713-fourth bevel gear

714- th bearing seat 715-second bearing seat

716-adjusting handwheel 717- th shaft sleeve

718- th eccentric 719- shaft

720-second eccentric 721-second shaft sleeve

722-second shaft 800-cam

801-roller frame 802-push rod

803-lower roller 804-upper roller

805-shaft hole 806-annular flange

807-needle bed connecting rod component 808-needle bed bracket

809-tongue needle bed 8091-needle bed base

8092 needle bed comb seat 8093 presser plate

810-latch needle 811-guide column

812-tight ring block 813-balancing weight

814-weight ports 815-adjustment notches

816-adjusting bolt 817-adjusting sink table

818-fastening ring hole 81- driving shaft

82-second driving shaft 83- swing shaft

84-second pendulum shaft 85-third pendulum shaft

86-fourth pendulum shaft 87-heaven shaft

Detailed Description

In order to further explain the technical solution of the present invention, the following embodiments are described in detail.

With reference to fig. 1 to 13, double-needle-bed warp knitting machine comprises a frame 1, a knitting device, a guide bar device 10 and a transmission device, wherein the frame 1 is used as a carrier for mounting various related mechanisms and components, and the knitting device comprises symmetrical front and rear knockover portions (namely a front knockover portion 20 and a rear knockover portion 300, in the embodiment, the structures of the front and rear knockover portions are the same, and only the front knockover portion 20 is described), symmetrical front and rear needle bed portions (namely a front needle bed portion 40 and a rear needle bed portion 500, in the embodiment, the structures of the front and rear needle bed portions are the same, and only the front and rear sinking portions (namely a front sinking portion 60 and a rear sinking portion 700, in the embodiment, the structures of the front and rear sinking portions are the same, and only the front sinking portion 60 is described).

In the utility model, the transmission device comprises a front needle bed transmission mechanism and a back needle bed transmission mechanism which are symmetrically arranged (namely, the front needle bed transmission mechanism and the back needle bed transmission mechanism, in the embodiment, the structures of the front needle bed transmission mechanism and the back needle bed transmission mechanism are the same, and only the front needle bed transmission mechanism is described), a front settlement transmission mechanism and a back settlement transmission mechanism which are symmetrically arranged (namely, the structures of the front settlement transmission mechanism and the back settlement transmission mechanism are the same, in the embodiment, only the front settlement transmission mechanism is described), a guide bar cradle top swing transmission mechanism and a guide bar cradle bottom swing transmission mechanism; the front and rear knockover portions each include a knockover support 201 connected to the frame 1 and a knockover plate 202 connected to the knockover support 201, and the front and rear needle bed portions each include a latch needle bed 809 engaged with the knockover support 201, (in the embodiment, the latch needle bed 809 is provided on a needle bed holder 808, the latch needle bed 809 includes a needle bed base 8091 provided on the needle bed holder 808, a needle bed comb 8092 provided on the needle bed base 8091, and a presser plate 8093 provided on the needle bed comb 8092, and the latch needle 810 is provided on the needle bed comb 8092.

The utility model discloses in, sley bar device 10 includes sley bar cradle 11 and installs the sley bar 12 on the cradle, the utility model discloses well sley bar 12 can adopt merchant card sley bar or ordinary sley bar, preceding needle bed drive mechanism preceding subside drive mechanism with swing drive mechanism on the sley bar cradle provides power by # driving shaft 81, back needle bed drive mechanism the back subside drive mechanism with sley bar cradle lower hem drive mechanism provides power by No. two driving shafts 82, the utility model discloses in, preceding, back needle bed drive mechanism respectively have cam 800, set the roller frame 801 on cam 800, set up push rod 802 on roller frame 801, connect the needle bed link assembly 807 on push rod 802, the utility model discloses in, roller frame 801 can articulate on frame 1, the upper end and the tongue needle bed 809 of bracket link assembly 807 are connected, specifically are connected with needle bed 808, are equipped with the guider who is used for guiding tongue 809 reciprocating on the knockover support 201, are equipped with roller frame 801 and lower roller wheel 803, are equipped with the annular wheel 803 on the roller wheel 803, and the flange 806 is located the lower flange 806 on the annular wheel 806 of flange 806, and the annular wheel 806 is located the lower flange 806 on the needle bed 806.

As the preferred modes of the utility model, the guider is including setting up guide pillar 811 on the tongue needle bar 809 and setting up the knockover support 201 guide pin bushing 203, guide pillar 811 activity sets in guide pin bushing 203, leads tongue needle bar 809 through guide pin bushing 203 and reciprocates.

The front and rear settlement parts comprise a front and rear settlement transmission mechanism and a settlement needle 607, the front and rear settlement transmission mechanism comprises a settlement connecting rod assembly 601, a driving mechanism for driving the settlement connecting rod assembly 601 to move up and down, a settlement connecting rod 602, a second settlement connecting rod 603, a swinging shaft, a second swinging shaft, a settlement main arm 604, a settlement sub arm 605, a sinker bed 606, a settlement disengaging swinging arm 608, a settlement swinging plate 609 and a settlement disengaging rail seat 612, the settlement main arm 604 and the settlement sub arm 605 are both fixed on a 0 swinging shaft 83, the sinker bed 606 is installed on the settlement main arm 604 and the settlement sub arm 605, a end of the settlement connecting rod 602 of the 1 is hinged with the settlement connecting rod assembly 601, another end is hinged with the settlement main arm 604, a end of the second settlement connecting rod 603 is hinged with the settlement connecting rod assembly 601, another 4 end is hinged with a end of the settlement disengaging swinging arm 608, another end of the settlement disengaging swinging arm 608 is fixed on the second swinging shaft 84, an end end of the settlement plate is fixed on the second swinging shaft 84, a disengaging swinging seat 613 is provided with a settlement sliding chute 613 and a settlement sliding chute 612 capable of positioning and positioning chute 610 capable of driving the settlement connecting rod 610.

As the preferred modes of the present invention, the second swing axle 84 is sleeved with a sinking swing tight ring 611, and the sinking pull rod 610 is connected to the sinking swing tight ring 611.

The utility model provides a preceding, back subside drive mechanism do not restrict the tricot machine that is used in this embodiment, do the utility model discloses an preferred modes, actuating mechanism includes the main shaft, installs cam 800, roller frame 801 on main shaft ( driving shaft 81 or No. two driving shafts 82 promptly) and connects the push rod 802 on roller frame 801, push rod 802 with subside link assembly 601's lower extreme and connect, be equipped with last gyro wheel 804 and lower gyro wheel 803 on roller frame 801, be equipped with annular flange 806 on cam 800, annular flange 806 presss from both sides and establishes between last gyro wheel 804 and lower gyro wheel 803, and lower gyro wheel 803 is located the inboard of annular flange 806, and last gyro wheel 804 is located the outside of annular flange 806.

As another preferred modes of the present invention, the driving mechanism includes a main shaft, an eccentric wheel assembly mounted on the main shaft, and a push rod 802 mounted on the eccentric wheel assembly, the push rod 802 is connected to the lower end of the settling connecting rod assembly 601.

As preferred modes of the present invention, the slide positioning mechanism includes a bolt and a handle screwed on the bolt, the settlement is separated from the rail seat 612 and the settlement swing plate 609 is disposed between the handle and the bolt head of the bolt.

Adopt the technical scheme of the utility model afterwards, form stable support to sinker bed 606 through subsiding main arm 604 and subsiding secondary arm 605, the long time stable work of sinker has been guaranteed, when slide positioning mechanism transfers the pine, promote and subside pull rod 610, can drive and subside swinging plate 609 and subside and throw off the swing arm 608 swing, make sinker bed 606 keep away from or be close to the center of equipment, make things convenient for the operation of overhaul of the equipments, when the platform is opened, promote and subside pull rod 610, make relevant part return, and fix a position through slide positioning mechanism, make subside swinging plate 609 and subside and throw off swing arm 608 fixedly.

As preferred modes of the utility model, the end of the knockover support 201 is sleeved on the pendulum shaft 83, the other end of the knockover support 201 is hinged on the supporting seat 205 through the knockover connecting rod component 204, and the supporting seat 205 is fixed on the frame 1.

As the preferred mode of the inventions, the swing mechanism on the guide bar cradle includes swing arm 104 on the guide bar, swing link assembly 101 on the guide bar, third swing shaft 85, swing arm 102 on the guide bar, swing link assembly 103 on the second guide bar, cam 800 and roller frame 801, last gyro wheel 804 and lower gyro wheel 803 are equipped with on roller frame 801, be equipped with annular flange 806 on cam 800, annular flange 806 presss from both sides and establishes between last gyro wheel 804 and lower gyro wheel 803, lower gyro wheel 803 is located the inboard of annular flange 806, it is located the outside of annular flange 806 to go up gyro wheel 804, be equipped with push rod 802 on roller frame 801, push rod 802 is connected with swing link assembly 101 on the guide bar, swing link assembly 101 is articulated with swing arm 102 on the guide bar on the guide bar, swing arm 102 is articulated on the guide bar on the swing arm 85, the lower extreme of swing link assembly 103 is articulated on swing arm 102 on the guide bar, swing link assembly 103 is articulated on swing arm 104 on the guide bar frame 103, swing link assembly 87 is articulated on the guide bar frame, swing link assembly is articulated on the guide bar frame 104, swing link assembly 87 is articulated on the guide bar frame, swing link assembly 1.

As the utility model discloses a preferred modes, the swing arm drive mechanism under the sley bar cradle includes swing arm 107 under the sley bar, sley bar lower swing link assembly 105, fourth pendulum shaft 86, sley bar lower swing arm 106, second sley bar lower swing link assembly 108, cam 800 and roller frame 801, is equipped with last gyro wheel 804 and lower gyro wheel 803 on the roller frame 801, is equipped with annular flange 806 on the cam 800, and annular flange 806 presss from both sides and establishes between last gyro wheel 804 and lower gyro wheel 803, and lower gyro wheel 803 is located the inboard of annular flange 806, goes up gyro wheel 804 and is located the outside of annular flange 806, is equipped with push rod 802 on the roller frame 801, and push rod 802 is connected with sley bar lower swing link assembly 105, and sley bar lower swing arm assembly 105 is articulated with sley bar lower swing arm 106, and sley bar lower swing arm 106 all fix on fourth pendulum shaft 86 with sley bar lower swing arm 107, swing arm 107 and second sley bar lower swing arm 108, and swing arm assembly are articulated with sley bar lower swing arm 108, and the swing arm assembly is connected on the swing arm 11, the swing arm assembly is articulated with the swing arm assembly 11, the swing arm 87 is articulated with sley bar lower swing arm 11, the swing arm is connected with the swing arm assembly 11 on the sley bar lower swing arm 11, the swing arm.

The utility model discloses modified cam structures have still been proposed, including the cam body, be equipped with shaft hole 805 on the cam body, be equipped with on the cam body and be used for the adjustment balancing weight 813 of the focus position of cam body.

As preferred modes of the present invention, the weight 813 is locked on the cam body by a screw or a bolt.

As preferred modes of the present invention, the cam body is provided with a tight loop block 812, the tight loop block 812 is provided with a tight loop hole 818 coaxially disposed with the shaft hole 805, and the tight loop block 812 is provided with a weight hole 814.

The present invention is preferable modes, the weight holes 814 are plural (not is plural, and may be 1), and plural weight holes 814 are annularly provided on the tight loop hole 818, as the present invention is preferable modes, the weight block 813 is provided around the tight loop block of the tight loop block.

As preferred modes of the utility model, be equipped with on the tight circle piece and adjust breach 815, adjust breach 815 follow the outer wall of tight circle piece runs through to the inner wall, adjusts breach 815 follow the axial end of tight circle piece extends to end in addition, the position that the tight circle piece corresponds to adjust breach 815 is equipped with adjusts heavy platform 817 and adjusting bolt 816, adjusts heavy platform 817 with form the regulation clearance between the cam body.

As preferred modes of the utility model, balancing weight 813 is set up the cam body is along axial end, the cam body is equipped with annular flange 806 along axial end in addition, still include roller frame 801, be equipped with last gyro wheel 804 and lower gyro wheel 803 on the roller frame 801, annular flange 806 presss from both sides and establishes between last gyro wheel 804 and lower gyro wheel 803, forms the guide face that is used for guiding roller frame 801 to reciprocate on annular flange 806, when the cam body rotates, realizes the guide to roller frame 801 through the fluctuation of guide face, drives roller frame 801 and reciprocates, and lower gyro wheel 803 is located the inboard of annular flange 806, and last gyro wheel 804 is located the outside of annular flange 806.

Adopt the technical scheme of the utility model afterwards, install balancing weight 813 on the cam body, balancing weight 813 can be decided according to cam 800's weight condition to reduce cam 800 in high-speed operation, because the eccentric inertia that focus and main shaft decentraction arouse leads to vibrations and the noise of equipment in the operation, promote cam 800's life and operation stationarity.

The utility model discloses because the board operates steadily, the undercarriage of board can adopt dull and stereotyped 15 to support, specifically sets up the constant head tank on dull and stereotyped 15, installs set screw as the undercarriage in the bottom of frame 1, and set screw supports and pushes up in the constant head tank. The utility model discloses it is complicated not need to adopt the structure again, and the undercarriage spring structure of cost height and easy loss supports, and two about the undercarriage spring of traditional board is supported by a plurality of springs is dull and stereotyped, and the centre also has hydraulic spring to support, and in long-time board vibration operation in-process, the sealing washer in the hydraulic spring is impaired easily, and the hydraulic oil of inside storage can leak out, causes the whole shock attenuation effect of undercarriage spring to worsen, and pollutes ground. The flat plate 15 is used for supporting, so that the manufacturing cost and the later maintenance cost of the machine table can be greatly reduced.

The utility model also provides kinds of servo control's crimping mechanism, including frame 1, cross cloth roller 51, the second is crossed cloth roller 52, the third is crossed cloth roller 53, drive roller 54, carry out cloth roller 57 and the drive roller 54 pivoted servo motor 50 of rolling cloth with the cooperation of drive roller 54, cross cloth roller 51, the third is crossed cloth roller 53 and drive roller 54 and rotationally installs in frame 1, the second is crossed cloth roller 52 and is set up in frame 1 with the mode that can follow frame 1 and reciprocate, be equipped with the guiding mechanism that is used for guiding the second to cross cloth roller 52 and reciprocates on frame 1, the second is crossed cloth roller 52 and is erect on cloth 59 to apply definite effort to cloth 59.

The preferred modes of the present invention are that the two guiding mechanisms are respectively arranged at two ends of the second cloth roller 52, each guiding mechanism comprises a guiding frame 523, a chain wheel 521 arranged on the second cloth roller 52 and a bearing 522 arranged on the second cloth roller 52, a guiding groove 524 along the vertical direction is arranged on the guiding frame 523, the bearing 522 is arranged in the guiding groove 524 in a rolling manner, a chain 510 along the vertical direction is arranged on the guiding frame 523, the chain wheel 521 is arranged in the chain 510, the second cloth roller 52 is limited by the chain 510 and the bearing 522, and the second cloth roller 52 is guided to move up and down stably.

As preferred modes of the present invention, the guiding grooves 524 each include a guiding wall 525 and a second guiding wall 526 arranged along the vertical direction, and the guiding wall 525 is arranged in parallel with the second guiding wall 526.

The preferred modes of the utility model, still include the driven roller 55 and the second driven roller 56, the driven roller 55 and the second driven roller 56 are rotationally installed in frame 1, the driven roller 55 and the second driven roller 56 all through drive chain 527 with drive roller 54 transmission connection.

In the present invention, the th cloth passing roller 51, the second cloth passing roller 52, the third cloth passing roller 53, the driving roller 54, the th driven roller 55 and the second driven roller 56 are all disposed along the horizontal direction and are disposed in parallel.

In the preferred embodiments of the present invention, the cloth roller 57 is mounted on the driven roller 55 and the driving roller 54, and the cloth roller 57 is disposed between the driven roller 55 and the driving roller 54.

In the preferred embodiments of the present invention, a guide plate 58 for guiding the rotation of the cloth roller 57 is provided on the frame 1.

Adopt the technical scheme of the utility model afterwards, adopt servo motor 50 can be better with the traction mechanism cooperation of preceding process for curled cloth and tractive cloth speed send, cross cloth roller 52 through the second that can reciprocate simultaneously and can exert pressure to the cloth, make the cloth be in and be in the tensioning state at the knitting in-process, in the cloth roller 57 of income better, promote the batching quality.

The utility model discloses in, can realize the adjustment of knocking over support 201 through the adjustment of knocking over link assembly 204, realize knocking over and open shelves manual regulation, the utility model discloses still provide another kinds of open shelves adjustment mechanism, this tricot machine knocking over and opening shelves adjustment mechanism, including frame 1, set up on frame 1 (specifically on oil tank 13, still be equipped with baffle 14 on the oil tank 13) pendulum shaft , set up on frame 1 pendulum shaft second 702, third knocking over support 2011, second knocking over support 2022, set up on fourth 1 knocking over support 2011 fourth knocking over board 2021, set up on second knocking over support 2022 second knocking over plate 2022, set up on knocking over support 2011 584 pivot 705 (namely 5 pivot shaft 83), set up on second knocking over support 2022 second pivot 705 (namely, another 2 root 6 the third adjustment shaft 5967,703,705 for driving fourth adjustment support 2011 705 (namely , the fourth adjustment shaft 705 is used for driving adjustment shaft 703,703 and fourth adjustment shaft 703,706, the adjustment shaft 702 is used for driving the adjustment shaft 703 and the adjustment shaft 703, the adjustment shaft 706 and the adjustment shaft 702, the adjustment shaft 706 is used for driving the third adjustment shaft 703, the adjustment shaft 702, the adjustment shaft 704, the adjustment shaft 703 is used for driving adjustment shaft 702, the adjustment shaft 704, the adjustment shaft 706 is used for driving adjustment shaft 704, the adjustment shaft 706 and the adjustment shaft 704, the adjustment shaft 706 is used for driving adjustment shaft 702 and the adjustment shaft 704, the adjustment shaft 706 is connected with the adjustment shaft 706 through the adjustment shaft 702, the adjustment shaft 704, the adjustment shaft 706 and the adjustment shaft 704, the adjustment shaft 703 and the adjustment shaft 704, the adjustment shaft 706 and the adjustment shaft 702, the adjustment shaft 704, the adjustment shaft 706, the adjustment shaft 704 of the adjustment shaft 706, the adjustment shaft 706 and the adjustment shaft 706, the adjustment shaft 704 of the adjustment shaft 702, the adjustment shaft of the adjustment shaft.

As preferred modes of the present invention, the driving component includes a eccentric 718 sleeved on the swing shaft 701, a shaft sleeve 717 sleeved outside the eccentric 718, and a shaft 719 arranged on the shaft sleeve 717, the shaft 719 is hinged to the knockover bracket 2011, the second driving component includes a second eccentric 720 sleeved on the second swing shaft 702, a second shaft sleeve 721 sleeved outside the second eccentric 720, and a second shaft 722 formed on the second shaft sleeve 721, and the second shaft 722 is hinged to the second knockover bracket 2022.

As preferred modes of the present invention, the swing shaft 701 is rotatably disposed on the frame 1, the second swing shaft 702 is rotatably disposed on the frame 1, the th adjusting shaft 703 is disposed on the frame 1 through the th bearing seat 714, and the second adjusting shaft 704 is disposed on the frame 1 through the second bearing seat 715.

Adopt the technical scheme of the utility model afterwards, the bevel gear that adopts two pairs of symmetries to place transmits, convert the rotation of directions into the rotation of in addition directions, and rotate in a flexible way, load is less, through control pendulum shaft 701 and pendulum shaft two 702 towards opposite direction rotary motion, and drive through drive assembly and second drive assembly respectively and doff support 2011 and second and doff support 2022 up-and-down motion, and then control knockover board 2021 and second knockover board 2022 and move to opposite direction respectively, realize the regulation of knockover board, when only needing to adjust the knockover board of side, can loosen third shaft coupling 713, carry out the independent control to the side that needs to adjust, this the utility model discloses can adjust alone that the flat-bed machine knockover board 2021 and second knockover board 2022, also can synchronous control emphatically, to accelerate speed, improve warp knitting production efficiency and have important meaning.

The product form of the present invention is not limited to the embodiment of the present invention, and any person can properly change or modify the product form of the present invention without departing from the scope of the present invention.

Claims (3)

1. The knocking-over and opening adjusting mechanism for the warp knitting machine is characterized by comprising a rack, a swing shaft arranged on the rack, a swing shaft second arranged on the rack, a 0 knocking-over support, a second knocking-over support, a 2 knocking-over plate arranged on a 1 knocking-over support, a second knocking-over plate arranged on the second knocking-over support, a rotating shaft arranged on a knocking-over support, a second rotating shaft arranged on the second knocking-over support, a driving component for driving the knocking-over support to vertically swing, a second driving component for driving the second knocking-over support to vertically swing, a adjusting shaft, a second adjusting shaft, a third adjusting shaft and a fourth adjusting shaft, wherein the swing shaft is connected with the adjusting shaft through a coupling, the swing shaft second is connected with the second coupling through the second coupling, the third adjusting shaft is connected with the fourth coupling, a is arranged on the swing shaft, the swing shaft is matched with the fourth adjusting shaft, and is arranged on the hand wheel adjusting shaft.
2. 2. The mechanism of warp knitting machine knocking-over and opening gear adjustment for warp knitting machine as claimed in claim 1, wherein the driving component includes a eccentric wheel sleeved on the swing shaft , a shaft sleeve sleeved on the eccentric wheel and a shaft rod disposed on the shaft sleeve, the shaft rod is hinged to the knocking-over bracket, the second driving component includes a second eccentric wheel sleeved on the second swing shaft, a second shaft sleeve sleeved on the second eccentric wheel and a second shaft rod formed on the second shaft sleeve, the second shaft rod is hinged to the second knocking-over bracket.
3. 3. The warp knitting machine knockover and unseating adjustment mechanism of claim 2, wherein the swing shaft is rotatably mounted on the frame, the second swing shaft is rotatably mounted on the frame, the th adjustment shaft is mounted on the frame via a th bearing seat, and the second adjustment shaft is mounted on the frame via a second bearing seat.

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