CN218436139U - Warp knitting machine with cloth anti-deviation function - Google Patents

Abstract

The utility model relates to a tricot machine technical field specifically is a tricot machine of skew is prevented to cloth, including establishment mechanism shell, establishment mechanism shell bottom is fixed with damping device, the welding of damping device below has the bottom plate, establishment mechanism shell advances to be fixed with through the mouth and leads the warp support, it leads the warp limiting plate to be fixed with on the support to lead, establishment mechanism shell discharge gate is fixed with the guide support, the top side of stock guide is inlayed and is equipped with the skew sensor, install on the guide support and prevent the skew subassembly, at the cloth weaving process, can send the braided wire into establishment in the mechanism and weave, whether finished product cloth detects the skew through the skew sensor along the guide support, sets up through the symmetry of preventing skew sensor and gyro wheel, has realized that the cloth prevents the skew, has solved and has prevented that the skew device can't be accurate to the cloth direction to the problem that the cloth caused destruction to exist, has guaranteed the qualification rate of cloth production.

Description

Warp knitting machine with cloth anti-deviation function

Technical Field

The utility model relates to a tricot machine technical field specifically is a tricot machine of skew is prevented to cloth.

Background

The cloth is characterized in that one group or a plurality of groups of parallel arranged textile threads are used for forming knitted fabrics on all working needles of a warp feeding machine in a looping mode, the knitting mode can be divided into two types of woven fabrics and knitted fabrics, the warp knitting machine for production in the cloth production process is complex in working environment, the cloth can be deviated, the quality of the cloth is affected, and therefore the position of the cloth can be corrected through an anti-deviation device generally, and the collection operation of the subsequent cloth is facilitated.

The existing deviation prevention device guides the cloth through the guide plates in the device, and after the cloth is produced, the guide positioning of the cloth is realized through the conveying shafts in the guide process of the guide plates on two sides.

However, due to the special material of the cloth, the current anti-shifting device cannot accurately guide the cloth, the cloth is damaged, the production efficiency is also affected by the vibration generated by the rapid operation of the warp knitting machine in the production process, and the normal guide of the cloth is also easily affected, so that the warp knitting machine for preventing the cloth from shifting is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

In order to compensate prior art's not enough, current prevent that excursion device can't be accurate to the cloth direction to there is the condition that causes the destruction to the cloth, and the normal direction that also can influence the cloth of vibrations that the tricot machine rapid operation produced, also very easily influences production efficiency's problem, the utility model provides a tricot machine that squints is prevented to the cloth.

The utility model provides a technical scheme that its technical problem adopted is: a warp knitting machine that skew is prevented to cloth, including establishment mechanism's shell, establishment mechanism's shell bottom is fixed with damping device, the welding of damping device below has the bottom plate, establishment mechanism's shell advances to be fixed with through the mouth and leads the warp support, it is fixed with on the warp support and leads the warp limiting plate, establishment mechanism's shell discharge gate is fixed with the guide support, the top side of stock guide inlays and is equipped with the skew sensor, install on the guide support and prevent the skew subassembly, prevent that skew subassembly top installs fixed stop, fixed stop installs the top at the guide support through baffle support cooperation, fixed stop's bottom side rigid coupling has a spring, the bottom mounting of a spring has lower baffle, the mounting hole has been seted up to the inside of guide support, install the gyro wheel through the pivot cooperation in the mounting hole, the bottom port department of mounting hole is provided with the roller bearing support respectively, install the roller bearing through the bearing cooperation in the roller support, one of them roller bearing outside is connected on micro motor's output shaft through the belt cover and is established the rotation, lower baffle sets up in the top of gyro wheel, the inside of gyro wheel is provided with the gyro wheel, and the relative small set of gyro wheel 120 and is favorable to the skew percentage of production of cloth, and takes place the qualified rate.

Preferably, the rotating motors are respectively installed on the upper inner wall and the lower inner wall of the weaving mechanism shell, a first supporting plate is arranged in a top chamber cavity of the weaving mechanism shell, a first sliding groove is formed in the first supporting plate, a first sliding support is arranged on the first sliding groove in a sliding clamping mode, a warp knitting machine groove needle is fixed on the first sliding support, a second supporting plate is arranged in a bottom chamber cavity of the weaving mechanism shell, a second sliding groove is formed in the inner wall of the second supporting plate, a second sliding support is arranged on the second sliding groove in a sliding clamping mode, a warp knitting machine groove hook is fixed on the second sliding support, and the weaving mechanism is arranged in a crossed mode, so that stable production of cloth is facilitated.

Preferably, be equipped with movable assembly between the top inner wall of a backup pad and establishment mechanism shell, be equipped with movable assembly between the bottom inner wall of No. two backup pads and establishment mechanism shell, movable assembly includes the rotating electrical machines, the output shaft on install the rotary disk, rotate through the pivot cooperation on the rotary disk and install a connecting rod, establishment mechanism shell top movable assembly is movable assembly No. one, establishment mechanism shell bottom movable assembly is movable assembly No. two, the rotating electrical machines among the movable assembly is fixed on the top inner wall of establishment mechanism shell, a connecting rod among the movable assembly passes through the dead lever cooperation and is connected with a sliding bracket rotation, the rotating electrical machines among the movable assembly No. two is fixed on the bottom inner wall of establishment mechanism shell, a connecting rod among the movable assembly No. two passes through the dead lever cooperation and is connected with sliding bracket rotation No. two. The power of the warp knitting machine is the same, which is beneficial to the stable production of cloth.

Preferably, a bottom plate is fixed below the shell of the weaving mechanism, a damping device is welded above the bottom plate and comprises a supporting base, a supporting top plate is fixed above the supporting base, the supporting base is fixedly connected with the supporting top plate through a second spring, the second spring is limited between the supporting base and the supporting top plate through a limiting seat, and the damping device is arranged below the warp knitting machine, so that the influence of vibration on production in the production process is reduced, the normal production of equipment is facilitated, and the deviation of cloth is avoided.

Preferably, the welding of bottom plate top has No. two baffles, no. two baffle fixedly connected with buffering cylinder bodies, the inside No. three baffles that are provided with of buffering cylinder body, the buffering mouth has been seted up on No. three baffles, the bottom plate top is fixed with the chute board, the slider has been equipped with to the sliding lock on the chute board, no. three baffles are connected with the slider through No. two connecting rods, it is connected with the connecting piece to rotate on the slider, the top and the backup pad of connecting piece rotate to be connected, the backup pad is fixed to be set up on the periphery of roof support, and damping device utilizes buffering cylinder body and spring to cushion the shock attenuation, and the influence that vibrations produced has been alleviated greatly in combination of the two, is favorable to the stable function of organism, has avoided the skew of cloth, has guaranteed the qualification nature of cloth.

Preferably, set up the support column on the bottom plate, the support column top is fixed with spacing post, spacing post welding is in the bottom outside of establishment shell, support column and spacing post are through No. three spring fixed connection, and the stability of establishment machine organism has been guaranteed to the support column, and No. three springs more are favorable to the stability in the production operation process.

The utility model discloses an useful part lies in:

the utility model discloses a symmetrical structure design of deviation prevention device skew sensor and gyro wheel, in the cloth weaving process, can send the braided wire into and weave in the establishment mechanism, whether the skew is detected through the skew sensor along the guide support after the cloth is made in the establishment, if there is the skew, the skew sensor passes through the start of signal of telecommunication control micro motor, micro motor's output connection roller bearing, carry out the cover through the belt between two roller bearings and establish the rotation, the belt drives the gyro wheel rotation and leads to the restoration at the lower surface of cloth through frictional force after rotating, micro motor closes after the skew sensor response does not have the skew, deviation prevention process ends, deviation prevention device has realized that the cloth prevents the skew, the unable accurate cloth direction of preventing the deviation device has been solved, and there is the problem that causes the destruction to the cloth, the qualification rate of cloth production has been improved.

The utility model discloses a structural design of three damping device's of group coordination installation, in the cloth weaving process, carry out shock attenuation processing to establishment, can guarantee the production efficiency of cloth production, the tricot machine below is fixed with damping device, when supporting the roof downstream, connect the connecting piece through the pivot and drive the slider, the slider slides on the spout board, be fixed with the connecting rod No. two on the slider, be fixed with the baffle No. three on the connecting rod No. two, be provided with the buffering mouth on No. three baffles, when No. three baffles slide in the cushion cylinder body, liquid can make a round trip to pass through the buffering mouth, realize the shock attenuation through the resistance of water, simultaneously under the cooperation of spring No. two and spring No. three, the shock attenuation processing of tricot machine has been realized, the production efficiency that the vibrations that the tricot machine fast operation produced influence the cloth is solved, and also very easily influence the problem of the normal direction of cloth, the production efficiency of cloth production is improved and the normal direction of cloth has been guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic perspective view of a first embodiment;

FIG. 2 is a part display structure diagram of a first three-dimensional structure according to a first embodiment;

FIG. 3 is a schematic structural diagram of an anti-shifting assembly according to the first embodiment;

FIG. 4 is a schematic view of a first perspective structure of a braiding mechanism according to the first embodiment;

FIG. 5 is a second perspective view of a braiding mechanism according to the first embodiment;

FIG. 6 is a schematic view of a shock absorbing device according to a first embodiment;

FIG. 7 is a partial sectional view of a shock absorbing device according to a first embodiment;

fig. 8 is a schematic structural diagram of a first perspective structure according to a second embodiment.

In the figure: 1. weaving a mechanism shell; 2. a warp guide bracket; 3. a warp guide limiting plate; 4. a material guiding bracket; 6. a shock-absorbing device; 7. a base plate; 8. an anti-migration component; 9. fixing a baffle plate; 10. a first spring; 11. a lower baffle plate; 12. a baffle bracket; 13. an offset sensor; 14. a rotating electric machine; 15. rotating the disc; 17. a first connecting rod; 18. fixing the rod; 19. a second sliding support; 20. a second support plate; 21. groove needles of a warp knitting machine; 22. a warp knitting machine groove hook; 23. a first sliding support; 24. a first support plate; 401. mounting holes; 601. supporting a top plate; 602. a second spring; 603. a support base; 604. a connecting member; 605. a slider; 606. a chute plate; 607. a buffer cylinder body; 608. a second baffle plate; 609. a limiting seat; 610. a second connecting rod; 611. a third baffle plate; 612. a buffer port; 613. a third support plate; 614. a support column; 615. a third spring; 616. a limiting column; 801. a roller; 802. a micro motor; 804. a belt; 805. a roller support; 806. and (4) rolling shafts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

Referring to fig. 1-7, a warp knitting machine for preventing cloth from shifting comprises a knitting mechanism housing 1, a damping device 6 is fixed at the bottom of the knitting mechanism housing 1, a bottom plate 7 is welded below the damping device 6, a warp guide support 2 is fixed at an inlet of the knitting mechanism housing 1, a warp guide limiting plate 3 is fixed on the warp guide support 2, a guide support 4 is fixed at a discharge port of the knitting mechanism housing 1, a shift sensor 13 is embedded on the top side of the guide plate, a shift prevention assembly 8 is installed on the guide support 4, a fixed baffle 9 is installed above the shift prevention assembly 8, the fixed baffle 9 is installed above the guide support 4 through a baffle support 12 in a matching manner, a first spring 10 is fixedly connected to the bottom side of the fixed baffle 9, a lower baffle 11 is fixed at the bottom end of the first spring 10, a mounting hole 401 is formed in the interior of the guide support 4, a roller 801 is installed in the mounting hole through a rotating shaft in the mounting hole 401, a support 805 is respectively provided with a support 805, a roller 806 is installed in the support 805 through a bearing in a matching manner, two sets of a roller support plate 3, two sets of a roller 3 are installed in a sliding shaft coupling mechanism housing, a sliding shaft 3, two sets of a roller 3 are installed in a sliding shaft coupling mechanism housing 3, a sliding shaft is installed in a sliding shaft 3, two sets corresponding to a sliding shaft 3, a sliding shaft 3 is installed in a sliding mechanism housing 3, two sets corresponding to a sliding shaft coupling mechanism housing 3, a sliding shaft 3 is installed in a sliding mechanism housing 3, two sets corresponding to a sliding shaft 3, a sliding shaft 3 is installed in a sliding mechanism housing 3, the warp knitting machine groove needle 21 is fixed on the first sliding support 23, a second supporting plate 20 is arranged in a bottom chamber cavity of the weaving mechanism shell 1, a second sliding groove is formed in the inner wall of the second supporting plate 20, a second sliding support 19 is arranged in the second sliding groove in a sliding clamping mode, a warp knitting machine groove hook 22 is fixed on the second sliding support 19, a movable assembly is assembled between the first supporting plate 24 and the top inner wall of the weaving mechanism shell 1, a movable assembly is assembled between the second supporting plate 20 and the bottom inner wall of the weaving mechanism shell 1 and comprises a rotating motor 14, a rotating disc 15 is installed on an output shaft of the rotating motor 14, a first connecting rod 17 is installed on the rotating disc 15 in a rotating mode through matching of rotating shafts, the top movable assembly of the weaving mechanism shell 1 is a first movable assembly, the bottom movable assembly of the weaving mechanism shell 1 is a second movable assembly, the rotating motor 14 in the first movable assembly is fixed on the top inner wall of the weaving mechanism shell 1, the first connecting rod 17 in the first movable assembly is connected with the first sliding support 23 in a rotating mode through matching of the fixing rods 18, the bottom movable assembly of the second movable assembly is fixed on the weaving mechanism shell 14, and the rotating support assembly of the second movable assembly is connected with the rotating rods 17 in the rotating mechanism shell 19, and the rotating mechanism shell 18.

When in work, the textile wire is sent into the weaving mechanism to weave in the cloth weaving process, the textile wire is packed after being processed by the imitating deviation device after being woven into cloth, the qualification rate of the produced cloth is ensured, the textile wire required to be processed is placed on the warp guide bracket 2, the spinning thread is pulled to a roller 801 through a spaced warp guide limiting plate 3 by limited movement, and is fixed by a lower baffle 11, after the spinning thread is put, two rotating motors 14 are started, output shafts of the two rotating motors 14 drive a rotating disc 15 to move, the rotating disc 15 is provided with a first connecting rod 17 through a rotating shaft in a matching way, the first connecting rod 17 respectively drives a first sliding support 23 and a second sliding support 19, the first sliding support 23 and the second sliding support 19 slide up and down through a first supporting plate 24 and a second supporting plate 20 which are provided with sliding grooves, and drives the warp knitting machine grooved needle 21 and a warp knitting machine grooved hook 22 to do cross movement, thereby weaving the textile threads into cloth, detecting whether the cloth deviates or not through the deviation sensor 13 along the material guiding support 4, if deviation exists, the deviation sensor 13 controls the micro motor 802 to start through an electric signal, the output end of the micro motor 802 is connected with the rollers 806, the two rollers 806 are sleeved and rotated through the belt 804, the belt 804 drives the roller 801 to rotate to guide and reset on the lower surface of the cloth through friction force after rotating, when the deviation sensor 13 senses no deviation, the micro motor 802 is turned off, the deviation prevention process is finished, the deviation of cloth has been realized through the symmetry setting of deviation prevention device skew sensor 13 and gyro wheel 801, has solved the unable accurate cloth direction of aiming at of deviation prevention device to there is the problem that causes destruction to the cloth, has guaranteed the qualification rate of cloth production.

A bottom plate 7 is fixed below the weaving mechanism shell 1, a damping device 6 is welded above the bottom plate 7, the damping device 6 comprises a supporting base 603, a supporting top plate 601 is fixed above the supporting base 603, the supporting base 603 and the supporting top plate 601 are fixedly connected through a second spring 602, the second spring 602 is limited between the supporting base 603 and the supporting top plate 601 through a limiting seat 609, a second baffle 608 is welded above the bottom plate 7, the second baffle 608 is fixedly connected with a buffer cylinder 607, a third baffle 611 is arranged inside the buffer cylinder 607, a buffer port 612 is formed in the third baffle 611, a sliding groove plate 606 is fixed above the bottom plate 7, a sliding block 605 is slidably and fixedly buckled on the sliding groove plate 606, the third baffle 611 is connected with the sliding block 605 through a second connecting rod 610, a connecting piece 604 is rotatably connected on the sliding block 605, the top end of the connecting piece 604 is rotatably connected with a third supporting plate 613, the third supporting plate 613 is fixedly arranged on the circumferential surface of the supporting base 601, a supporting column 614 is arranged on the bottom plate 614, a limiting column 616 is fixed on the supporting column 616, and the outer side of the weaving mechanism shell 616 is connected with the limiting column 614 through a limiting spring 614. 1 top movable part of establishment mechanism shell is movable part No. one, 1 bottom movable part of establishment mechanism shell is movable part No. two, rotating electrical machines 14 among the movable part is fixed on the top inner wall of establishment mechanism shell 1, a connecting rod 17 among the movable part rotates through dead lever 18 cooperation and sliding support 23 and is connected, rotating electrical machines 14 among the movable part No. two is fixed on the bottom inner wall of establishment mechanism shell 1, a connecting rod 17 among the movable part No. two rotates through dead lever 18 cooperation and sliding support 19 No. two and is connected.

During operation, in the cloth weaving process, the braided wire is sent into the weaving mechanism to be woven quickly, the weaving mechanism is vibrated in the quick weaving process, the weaving mechanism is subjected to shock absorption treatment, the production efficiency of cloth production can be ensured, the rotating motor 14 is started after the braided wire to be processed is placed, the weaving mechanism can vibrate up and down in the quick operation process, three groups of shock absorption mechanisms are fixed below the warp knitting machine, the first group of shock absorption mechanisms are that the vibration can be transmitted to the second spring 602 below through the weaving mechanism shell 1 by the supporting top plate 601, and the second spring 602 absorbs the shock through elastic deformation; the second group of damping mechanisms are that the supporting top plate 601 can move downwards due to vibration, the sliding block 605 is driven by the rotating shaft connecting piece 604, the sliding block 605 slides on the sliding groove plate 606, the second connecting rod 610 is fixed on the sliding block 605, the third baffle 611 is fixed on the second connecting rod 610, the buffer port 612 is arranged on the third baffle 611, when the third baffle 611 slides in the buffer cylinder 607, liquid can pass through the buffer port 612 back and forth, and damping is realized through the resistance of water; the third group of damping mechanisms are that the bottom outside of the shell 1 of the weaving mechanism is symmetrically welded with a limiting column 616, a supporting column 614 is fixedly installed below the limiting column 616, a third spring 615 is fixedly connected between the limiting column 616 and the supporting column 614, damping is carried out through elastic deformation for three times, and the damping treatment of the warp knitting machine is realized through the coordinated installation of the three groups of damping mechanisms, so that the problem that the vibration generated by the rapid operation of the warp knitting machine affects the production efficiency of cloth and the normal guide of the cloth is easily affected is solved, the production efficiency of cloth production is improved, and the normal guide of the cloth is ensured.

Example two

Referring to fig. 8, as another embodiment of the present invention, a wheel 25 is disposed at the bottom of the weaving mechanism housing 1, and a locking buckle 26 is disposed on the wheel 25; during operation, the wheels 25 are arranged at the bottom of the weaving mechanism shell 1, so that flexible transportation of the weaving mechanism shell 1 can be realized, and the locking buckles 26 are arranged on the wheels to clamp the wheels, so that the wheels can be matched with the weaving mechanism shell 1 to be positioned and cleaned.

The working principle is that in the cloth weaving process, the weaving threads are sent into the weaving mechanism to weave, after being woven into cloth, the cloth is processed by an imitation shift device and then packed, the qualification rate of the cloth production is ensured, the textile thread to be processed is placed on the warp guide bracket 2, the spinning thread is pulled to a roller 801 through a spaced warp guide limiting plate 3 by limited movement, and is fixed by a lower baffle 11, after the spinning thread is put, two rotating motors 14 are started, output shafts of the two rotating motors 14 drive a rotating disc 15 to move, the rotating disc 15 is provided with a first connecting rod 17 through a rotating shaft in a matching way, the first connecting rod 17 respectively drives a first sliding support 23 and a second sliding support 19, the first sliding support 23 and the second sliding support 19 slide up and down through a first supporting plate 24 and a second supporting plate 20 which are provided with sliding grooves, and drives the warp knitting machine grooved needle 21 and a warp knitting machine grooved hook 22 to do cross movement, thereby weaving the textile threads into cloth, detecting whether the cloth deviates or not through the deviation sensor 13 along the material guiding support 4, if deviation exists, the deviation sensor 13 controls the micro motor 802 to start through an electric signal, the output end of the micro motor 802 is connected with the rollers 806, the two rollers 806 are sleeved and rotated through the belt 804, the belt 804 drives the roller 801 to rotate to guide and reset on the lower surface of the cloth through friction force after rotating, when the deviation sensor 13 senses no deviation, the micro motor 802 is turned off, the deviation prevention process is finished, the deviation of cloth has been realized through the symmetry setting of deviation prevention device skew sensor 13 and gyro wheel 801, has solved the unable accurate cloth direction of aiming at of deviation prevention device to there is the problem that causes destruction to the cloth, has guaranteed the qualification rate of cloth production.

In the cloth weaving process, the textile wire can be fed into the weaving mechanism to be woven quickly, the weaving mechanism can be vibrated in the quick weaving process, the weaving mechanism is subjected to shock absorption treatment, the production efficiency of cloth production can be ensured, the rotating motor 14 is started after the textile wire to be processed is placed, the weaving mechanism can be subjected to up-and-down vibration in the quick operation process, three groups of shock absorption mechanisms are fixed below the warp knitting machine, the first group of shock absorption mechanisms are that the vibration can be transmitted to the second spring 602 below through the weaving mechanism shell 1 by the supporting top plate 601, and the second spring 602 absorbs the shock through elastic deformation; the second group of damping mechanisms are that the supporting top plate 601 can move downwards due to vibration, the sliding block 605 is driven by the rotating shaft connecting piece 604, the sliding block 605 slides on the sliding groove plate 606, the second connecting rod 610 is fixed on the sliding block 605, the third baffle 611 is fixed on the second connecting rod 610, the buffer port 612 is arranged on the third baffle 611, when the third baffle 611 slides in the buffer cylinder 607, liquid can pass through the buffer port 612 back and forth, and damping is realized through the resistance of water; the third group of damping mechanism is that the bottom outside symmetrical welding of establishment mechanism shell 1 has spacing post 616, and fixed mounting has support column 614 below spacing post 616, no. three springs 615 of fixedly connected with between spacing post 616 and the support column 614, no. three carry out the shock attenuation through elastic deformation, through three damping mechanism's of group coordinate the installation, realized the shock attenuation of tricot machine and handled, solved the production efficiency that the vibrations that the rapid operation of tricot machine produced influence the cloth to and also very easily influence the normal direction problem of cloth, improved the production efficiency of cloth production and guaranteed the normal direction of cloth.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (6)

1. A warp knitting machine with cloth anti-shifting is characterized in that: comprises a weaving mechanism shell (1), a damping device (6) is fixed at the bottom of the weaving mechanism shell (1), a bottom plate (7) is welded below the damping device (6), a warp guide bracket (2) is fixed at the inlet of the weaving mechanism shell (1), a warp guide limit plate (3) is fixed on the warp guide bracket (2), a material guide bracket (4) is fixed at the discharge hole of the weaving mechanism shell (1), an offset sensor (13) is embedded on the top side surface of the material guide plate, an anti-offset component (8) is arranged on the material guide bracket (4), a fixed baffle (9) is arranged above the deviation-preventing component (8), the fixed baffle (9) is arranged above the material guide bracket (4) in a matching way through a baffle bracket (12), a first spring (10) is fixedly connected with the bottom side of the fixed baffle plate (9), a lower baffle (11) is fixed at the bottom end of the first spring (10), the interior of the material guide bracket (4) is provided with a mounting hole (401), a roller (801) is arranged in the mounting hole (401) in a matching way through a rotating shaft, the bottom ports of the mounting holes (401) are respectively provided with a roller bracket (805), a rolling shaft (806) is arranged in the rolling shaft bracket (805) in a matching way through a bearing, the outer side of one roller (806) is connected to an output shaft of the micro motor (802) in a matching way through a coupler; the two rolling shafts (806) are sleeved and rotated through a belt (804);

the lower baffle (11) is arranged above the rollers (801), two groups of rollers (801) are arranged in the material guide support (4), and the relative small included angle of the two groups of rollers (801) is 120 degrees.

2. The warp knitting machine of claim 1, wherein: install rotating electrical machines (14) on two upper and lower inner walls of establishment mechanism shell (1) respectively, the top chamber of establishment mechanism shell (1) is provided with backup pad (24) No. one, set up the spout in backup pad (24), slide the card in the spout and be equipped with sliding support (23) No. one, be fixed with tricot machine groove needle (21) on sliding support (23) the bottom chamber intracavity of establishment mechanism shell (1) is provided with backup pad No. two (20), no. two spouts have been seted up on the inner wall of backup pad No. two (20), slide the card in No. two spouts and be equipped with No. two sliding support (19), be fixed with tricot machine groove hook (22) on No. two sliding support (19).

3. The warp knitting machine of claim 2, wherein: a movable assembly is assembled between the first supporting plate (24) and the inner wall of the top of the weaving mechanism shell (1), a movable assembly is assembled between the second supporting plate (20) and the inner wall of the bottom of the weaving mechanism shell (1), the movable assembly comprises a rotating motor (14), a rotating disc (15) is installed on an output shaft of the rotating motor (14), and a first connecting rod (17) is installed on the rotating disc (15) in a matched and rotating mode through a rotating shaft;

establishment mechanism shell (1) top movable assembly is a movable assembly, establishment mechanism shell (1) bottom movable assembly is No. two movable assemblies, rotating electrical machines (14) in the movable assembly are fixed on the top inner wall of establishment mechanism shell (1), a connecting rod (17) in the movable assembly rotate through dead lever (18) cooperation and sliding bracket (23) and are connected, rotating electrical machines (14) in the movable assembly are fixed on the bottom inner wall of establishment mechanism shell (1), a connecting rod (17) in the movable assembly are connected through dead lever (18) cooperation and sliding bracket (19) rotation No. two.

4. The warp knitting machine of claim 1, wherein: establishment mechanism shell (1) below is fixed with bottom plate (7), bottom plate (7) top welding has damping device (6), damping device (6) contain and support base (603), it is fixed with supporting roof (601) to support base (603) top, support through No. two spring (602) fixed connection between base (603) and supporting roof (601), no. two spring (602) all carry on spacingly through spacing seat (609) between supporting base (603) and supporting roof (601).

5. The warp knitting machine of claim 4, wherein: the utility model discloses a slide groove structure of a motor vehicle, including bottom plate (7), baffle (608), no. two baffle fixedly connected with buffering cylinder body (607), buffering cylinder body (607) inside is provided with No. three baffle (611), buffer port (612) have been seted up on No. three baffle (611), bottom plate (7) top is fixed with chute board (606), slide the lock and be equipped with slider (605) on chute board (606), no. three baffle (611) are connected with slider (605) through No. two connecting rod (610), swing joint has connecting piece (604) on slider (605), the top and No. three backup pad (613) of connecting piece (604) rotate to be connected, backup pad (613) are fixed to be set up on the periphery of supporting roof (601).

6. The warp knitting machine of claim 5, wherein: be provided with support column (614) on bottom plate (7), support column (614) top is fixed with spacing post (616), spacing post (616) welding is in the bottom outside of establishment mechanism shell (1), support column (614) and spacing post (616) are through No. three spring (615) fixed connection.

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