CN111851035B - Automatic cloth turning device of novel cloth turning machine for flame-retardant jacquard cloth - Google Patents

Abstract

The utility model provides an automatic cloth device that turns over of novel cloth turning machine for fire-retardant jacquard weave cloth, is including placing in subaerial frame, the inside fan that is equipped with of frame, and the horizontal fixed mounting in frame top has the pipe of turning over the cloth, and the ejector pin is located the cover and is equipped with the spring on pressing from both sides the periphery of cloth inslot portion, the one end of spring with set up the through-hole add cloth groove lateral wall fixed connection, the other end of spring then with the ejector pin be close to corresponding elastic lug one end fixed connection. The cloth overturning power of the device mainly depends on the driving of the conveying chain plate, the wind power of the air outlet pipe only needs to blow the cloth end into the cloth overturning pipe, therefore, a fan with lower power can be adopted, the noise pollution during the operation of the cloth overturning machine is greatly reduced, meanwhile, because the uncertainty of soft cloth during the actual operation is too much, in case that the cloth conveying is not in order to be carried by workers, the air outlet pipe adopting lower wind pressure can also be greatly reduced, and the device is suitable for being popularized as a novel pipe type cloth overturning machine.

Description

Automatic cloth turning device of novel cloth turning machine for flame-retardant jacquard cloth

Technical Field

The invention belongs to the field of production and processing of flame-retardant jacquard cloth, and particularly relates to a novel automatic cloth turning device of a cloth turning machine for flame-retardant jacquard cloth.

Background

For the cylindrical flame-retardant jacquard cloth, a tubular cloth turning machine is required to be used for turning for multiple times in the dyeing stage, most of the existing tubular cloth turning machines push cloth to enter a cloth turning pipe for turning inside and outside by means of wind power, the wind power of an air outlet pipe can only act on a pipe orifice, most of users can sleeve a plurality of pieces of cloth on the cloth turning pipe at one time in order to improve the efficiency in the actual use process, and after the previous piece of cloth is completely sucked into the cloth turning pipe in the cloth turning process, workers need to manually pull the next piece of cloth to the pipe orifice and send the cloth into the pipe, so that the action is time-consuming and labor-consuming, and certain danger exists under the blowing of high-pressure gas; in addition, the cloth is driven by only depending on the wind pressure, a fan with high power is needed, the noise damage of the cloth turning machine is large, and the problems are urgently needed to be solved.

Disclosure of Invention

The invention provides a novel automatic cloth turning device of a cloth turning machine for flame-retardant jacquard cloth, which is used for solving the defects in the prior art.

The invention is realized by the following technical scheme:

a novel automatic cloth turning device of a cloth turning machine for flame-retardant jacquard cloth comprises a frame placed on the ground, a fan is arranged in the frame, a cloth turning pipe is transversely and fixedly arranged at the top of the frame, the longer end of the cloth turning pipe extending out of the frame is a cloth feeding end, the shorter end of the cloth turning pipe extending out of the frame is a cloth discharging end, the lower part of one side of the frame close to the cloth feeding end is fixedly connected with an air outlet pipe, the air inlet end of the air outlet pipe extends into the frame and is connected with an air outlet pipeline of the fan, an air outlet nozzle of the air outlet pipe faces to an orifice of the cloth feeding end, a plurality of chain wheels are fixedly arranged on two inner sides of the cloth turning pipe through wheel frames respectively, the chain wheels on the two sides are equal in number and correspond to each other in position, a motor is fixedly arranged on each wheel frame respectively, an output shaft of the motor is fixedly connected with a wheel shaft of the corresponding chain wheel respectively, a conveying chain plate is commonly arranged on the two chain wheels corresponding to the position, and a plurality of elastic shifting plates are fixedly arranged on the outer peripheral surface of the conveying chain plate, a first T-shaped chute is transversely arranged on the top surface of the periphery of the cloth feeding end of the cloth turning pipe, a second T-shaped chute is longitudinally arranged on the periphery of one side of the cloth turning pipe close to the pipe orifice of the cloth feeding end, the front end of the second T-shaped chute is communicated with one end of the first T-shaped chute close to the pipe orifice of the cloth feeding end, a plurality of T-shaped sliding blocks are arranged in the first T-shaped chute in a sliding fit manner, a through groove is arranged on the bottom surface of the first T-shaped chute in a groove, the upper end of an elastic shifting sheet positioned above the cloth turning pipe can penetrate through the through groove and is contacted with the bottom surface of the corresponding T-shaped sliding block, cloth clamping grooves are respectively and longitudinally arranged on the top surfaces of the T-shaped sliding blocks, elastic convex blocks are respectively and fixedly arranged on one sides, far away from the pipe orifice of the cloth feeding end, in the cloth clamping grooves, through holes are respectively and transversely arranged on one sides, ejector rods are slidably fitted in the through holes in the peripheries of the cloth clamping grooves, springs are sleeved on the peripheries of the ejector rods, one ends of the springs are fixedly connected with the side walls of the cloth clamping grooves provided with the through holes, the other end of the spring is fixedly connected with one end of the ejector rod close to the corresponding elastic lug.

As above, the novel automatic cloth overturning device of the cloth overturning machine for the flame-retardant jacquard cloth is characterized in that a push rod groove is formed in one side, close to a cloth inlet end pipe orifice, of the first T-shaped sliding groove, a groove is formed in the upper portion of the inner wall of the front side of the first T-shaped sliding groove, and a shifting lever is rotatably connected to the inner wall of the front side of the groove through a torsional spring hinged shaft.

As mentioned above, the automatic cloth turning device of novel cloth turning machine for flame-retardant jacquard cloth, the periphery top fixed mounting that goes out tuber pipe and lean on air outlet one end have supplementary tuber pipe, the one end and the play tuber pipe tube coupling of supplementary tuber pipe, the other end of supplementary tuber pipe is located into cloth end top and the directional cloth end mouth of pipe that advances of opening direction.

According to the novel automatic cloth turning device of the cloth turning machine for the flame-retardant jacquard cloth, the middle of the inner periphery of the cloth turning pipe is fixedly provided with the plurality of chain wheels through the wheel carrier, and the chain wheels are connected with the corresponding conveying chain plates.

The novel automatic cloth turning device of the cloth turning machine for the flame-retardant jacquard cloth is characterized in that the motor is a forward and reverse motor.

According to the novel automatic cloth turning device of the cloth turning machine for the flame-retardant jacquard cloth, the bottom of the periphery of the air outlet pipe is fixedly provided with the plurality of supporting seats, and the bottom surfaces of the supporting seats are in contact with the ground.

The invention has the advantages that: when the cloth is used, a user firstly sequentially sleeves cloth to be turned on a cloth feeding end of a cloth turning pipe, when the sleeving of a first cloth is finished, taking the figure 1 as an example, the user needs to plug the left side part of the cloth into a cloth clamping groove of a rightmost T-shaped slide block, so that a part of the cloth can be clamped in the cloth clamping groove by the ejector rod and the elastic lug, the cloth clamping point needs to be about 20 cm away from the leftmost end of the cloth when the cloth on the left side of the clamping point is pushed to a pipe orifice of the cloth feeding end, the cloth and the T-shaped slide block can hang down from the cloth turning pipe after the clamping point is finished, the user pushes the cloth and the T-shaped slide block to the right side of the cloth feeding end together after the clamping is finished, then the second cloth is sleeved and clamped by the same method, the second cloth and a second T-shaped slide block with the right side are pushed to the left side of the first cloth right side after the sleeving is finished, and the sleeving and the clamping of the cloth of a batch are repeated until the user finishes the sleeving and the clamping work of the cloth, then a user switches on a fan power supply to enable an air outlet pipe to start blowing, simultaneously, all motors are started to drive transmission chain plates to rotate, the uppermost transmission chain plate can stir the leftmost T-shaped sliding block to slide to the pipe orifice of a cloth inlet end leftwards through an elastic shifting piece at the top part according to friction force, other T-shaped sliding blocks can be blocked by cloth at the left side of the uppermost transmission chain plate and cannot slide temporarily, the leftmost T-shaped sliding block can drag clamped cloth to move to the pipe orifice together, the left end of the cloth can not be hung down from the pipe orifice by a clamped part and then is blown into the inside of a cloth overturning pipe by the air outlet pipe, the cloth can be pulled to move to one side of the cloth outlet end by the elastic shifting piece in the pipe after entering the inside of the cloth overturning pipe to finish cloth overturning action, the cloth can also be pulled out from a cloth clamping groove along with the continuous entering of the cloth into the cloth overturning pipe, the T-shaped sliding block which loosens the cloth can slide backwards into a second T-shaped sliding groove so that the next T-shaped sliding block can slide to the pipe orifice, after the cloth on the leftmost side completely enters the cloth overturning pipe, the second T-shaped sliding block on the left side is not blocked by the cloth any more, the second T-shaped sliding block can slide to the left to the opening of the cloth feeding end and release the cloth, the actions are repeated continuously until all the cloth hung on the cloth overturning pipe enters the cloth overturning pipe, after the current cloth overturning work is finished, a user cuts off the power supply of the device, and all the T-shaped sliding blocks are pushed back to the first T-shaped sliding grooves from the second T-shaped sliding grooves again, so that the next batch of cloth can be clamped; this device can realize sending into the automatic function in the batching pipe in proper order of polylith cloth of hanging on the batching pipe, the user no longer need manual propelling movement cloth, the cloth that the in-process workman can concentrate on collecting the arrangement from the end of cloth seeing off at the batching, the batching power of this device relies on conveying link joint drive mainly, the wind-force of play tuber pipe only can with the cloth end blow in the batching pipe can, consequently can adopt the fan that power is littleer, noise pollution when having reduced the batching machine operation greatly, simultaneously because soft cloth is too many when the actual operation uncertainty, in case the cloth appears and carries not in the same direction as needs the workman supplementary when carrying, the play tuber pipe that adopts lower wind pressure also can greatly reduced danger, be fit for promoting as novel tubular batching machine.

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 introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention; FIG. 2 is an enlarged view of the view A of FIG. 1; FIG. 3 is an enlarged view of section I of FIG. 1; FIG. 4 is an enlarged view of the view of FIG. 1 taken along line B; fig. 5 is a schematic view of the release fabric state of fig. 4.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A novel automatic cloth turning device of a cloth turning machine for flame-retardant jacquard cloth is disclosed, as shown in the figure, the device comprises a frame 1 placed on the ground, a fan is arranged inside the frame 1, a cloth turning pipe 2 is transversely and fixedly arranged at the top of the frame 1, the longer end of the cloth turning pipe 2 extending out of the frame 1 is a cloth feeding end, the shorter end of the cloth turning pipe 2 extending out of the frame 1 is a cloth discharging end, the lower part of one side of the frame 1 close to the cloth feeding end is fixedly connected with a wind outlet pipe 6, the wind inlet end of the wind outlet pipe 6 extends into the frame 1 and is connected with a fan wind outlet pipeline, the wind outlet nozzle of the wind outlet pipe 6 faces to a pipe orifice of the cloth feeding end, the main structure and the basic principle of the tubular cloth turning machine are the existing mature technology, the detailed description of the specific connection mode of a circuit part and each component is omitted, a plurality of chain wheels 3 are fixedly arranged on two sides of the inner periphery of the cloth turning pipe 2 respectively through a wheel carrier, the chain wheels 3 on the two sides are equal in number and are in one-to one correspondence, the chain wheels 3 on the same side are uniformly distributed around the inner periphery of the cloth turning pipe 2, a motor 31 is fixedly arranged on each wheel frame, the output shaft of each motor 31 is fixedly connected with the wheel shaft of the corresponding chain wheel 3, the two chain wheels 3 corresponding to the positions are jointly provided with a conveying chain plate 32, a plurality of elastic shifting sheets 33 are fixedly arranged on the outer peripheral surface of each conveying chain plate 32, the elastic shifting sheets 33 are preferably made of silica gel materials, the length of each elastic shifting sheet 33 is slightly longer than the vertical distance from the outer side of each conveying chain plate 32 to the inner wall of the cloth turning pipe 2, the peripheral top surface of the cloth feeding end of the cloth turning pipe 2 is transversely provided with a first T-shaped sliding groove 4, the peripheral outer periphery of the cloth feeding end pipe orifice of the cloth turning pipe 2 is longitudinally provided with a second T-shaped sliding groove 41, the front end of the second T-shaped sliding groove 41 is communicated with one end, close to the cloth feeding end pipe orifice, a plurality of T-shaped sliding blocks 5 are arranged in the first T-shaped sliding fit manner, the top surfaces of the T-shaped sliding blocks 5 are flush with the peripheral top surface of the cloth turning pipe 2, the bottom surface of the first T-shaped chute 4 is provided with a through groove 42, the upper end of an elastic shifting sheet 33 positioned at the upper part in the cloth turning pipe 2 can penetrate through the through groove 42 and is contacted with the bottom surface of a corresponding T-shaped sliding block 5, the top surface of the T-shaped sliding block 5 is respectively and longitudinally provided with a cloth clamping groove 51, one side of the cloth clamping groove 51 far away from a cloth inlet end pipe orifice is respectively and fixedly provided with an elastic lug 52, the elastic lug 52 is preferably made of silica gel material, one side of the clamping plate groove 51 close to the cloth inlet end pipe orifice is respectively and transversely provided with a through hole 53, a top rod 54 is arranged in the through hole 53 in a sliding fit manner, the periphery of the top rod 54 positioned at the inner part of the cloth clamping groove 51 is sleeved with a spring 55, the outer part of the spring 55 is sleeved with a protective sleeve to avoid hooking cloth, in order to show the structure of the spring 55, the protective sleeve is not shown in the figure, one end of the spring 55 is fixedly connected with the side wall of the cloth adding groove 51 provided with the through hole 53, the other end of the spring 55 is fixedly connected with one end of the top rod 54 close to the corresponding elastic lug 52, the plunger 54 is preferably of a plastics material and the spring 55 is capable of imparting a force to the plunger 54 to urge the resilient projection 52. When the cloth turning device is used, a user firstly sequentially sleeves cloth to be turned on the cloth feeding end of the cloth turning pipe 2, when the sleeving of a first cloth is finished, taking the figure 1 as an example, the user needs to plug the left side part of the cloth into the cloth clamping groove 51 of the rightmost T-shaped slide block 5, so that the ejector rod 54 and the elastic lug 52 can clamp part of the cloth in the cloth clamping groove 51, when the cloth is clamped, the clamping point needs to be about 20 cm away from the leftmost end of the cloth, so that the cloth on the left side of the clamping point can hang down from the cloth turning pipe 2 when being pushed to the pipe opening of the cloth feeding end, after the clamping is finished, the user pushes the cloth and the T-shaped slide block 5 to the right side of the cloth feeding end together, then the second cloth is sleeved and clamped by the same method, after the sleeving is finished, the second cloth and the right second T-shaped slide block are pushed to the left side of the first cloth, and the rest is done in sequence until the sleeving and clamping of the cloth of a batch is finished, then, a user switches on a fan power supply to enable the air outlet pipe 6 to start blowing, simultaneously, all the motors 31 are started to drive the transmission chain plates 32 to rotate, the uppermost transmission chain plate 32 can stir the leftmost T-shaped slide block 5 to slide to the opening of the cloth inlet end leftwards through the elastic shifting piece 33 at the top, other T-shaped slide blocks 5 can be blocked by cloth at the left side of the uppermost transmission chain plate and can not slide temporarily, the leftmost T-shaped slide block 5 can drag the clamped cloth to move to the opening of the pipe, the left end of the cloth which is not clamped can hang down from the opening of the pipe, then the cloth is blown into the inside of the cloth overturning pipe 2 through the air outlet pipe 6, the cloth can be pulled to one side of the cloth outlet end by the elastic shifting piece 33 in the pipe after entering the inside of the cloth overturning pipe 2 to complete the cloth overturning action, at the moment, the cloth can also be pulled out from the cloth clamping groove 51 along with the continuous entering of the cloth into the cloth overturning pipe 2, and the T-shaped slide block 5 which loosens the cloth can slide backwards into the second T-shaped chute 41, so that the next T-shaped slide block 5 slides to the pipe orifice, when the leftmost cloth completely enters the cloth turning pipe 2, the second T-shaped slide block 5 on the left side is not blocked by the cloth any more, the second T-shaped slide block 5 can slide to the pipe orifice of the cloth feeding end leftwards and release the cloth, the actions can be repeated until all the cloth hung on the cloth turning pipe 2 enters the cloth turning pipe 2, after the current cloth turning work is finished, a user cuts off the power supply of the device, and the clamping work of the next batch of cloth can be carried out by pushing all the T-shaped slide blocks 5 back to the first T-shaped slide groove 4 from the second T-shaped slide groove 41; this device can realize sending into the automatic function in the fabric overturning pipe 2 in proper order of polylith cloth of hanging on fabric overturning pipe 2, the user no longer need manual propelling movement cloth, the in-process workman can concentrate on collecting the cloth of finishing from the end play of cloth, the fabric overturning power of this device mainly relies on conveying link joint 32 drive, go out wind-force of tuber pipe 6 as long as can blow in the fabric end in fabric overturning pipe 2 can, consequently can adopt the less fan of power, noise pollution when having reduced the fabric overturning machine operation greatly, simultaneously because soft cloth is uncertain too many in the actual operation, in case the cloth appears and carries not in order to need the workman to assist when carrying, the tuber pipe 6 that adopts lower wind pressure also can greatly reduced danger, be fit for promoting as novel tubular fabric overturning machine.

Specifically, as shown in fig. 3, 4, and 5, a push rod groove 43 is formed on one side of the first T-shaped chute 4 close to the fabric inlet end pipe orifice, a shape of an inner cavity of the push rod groove 43 matches a contour of a corresponding end portion of the push rod 54, a groove 44 is formed on an upper portion of a front inner wall of the first T-shaped chute 4, the groove 44 is located on one side close to the fabric inlet end pipe orifice, a top of the groove 44 is also communicated with a top surface of the fabric turning pipe 2, a bottom of the groove 44 is communicated with a lower inner cavity of the first T-shaped chute 4, a hinge point, where a shift lever 45 and the groove 44 are rotatably connected to the front inner wall of the groove 44 through a hinge shaft, is located on one side, far from the fabric inlet end pipe orifice, of the shift lever 45 is provided with a backward rotation spring force by the torsion spring in the hinge shaft, the hinge shaft with the torsion spring is a mature technology, and a detailed structure thereof is not repeated herein. Taking fig. 4 as an example, when one of the T-shaped sliding blocks 5 clamping the cloth slides leftward along the first T-shaped sliding slot 4, the T-shaped sliding block 5 will firstly push the shift lever 45 forward to make it flush with the front side wall of the first T-shaped sliding slot, because a certain thickness of cloth is clamped between the elastic projection 52 and the push rod 54, the push rod 54 will slide leftward along the through hole 53, the left end of the push rod 54 will protrude out of the left opening of the through hole 53, when the T-shaped sliding block 5 slides to the leftmost end of the first T-shaped sliding slot 4, the protruding part of the left end of the push rod 54 will just insert into the push rod groove 43, so that the T-shaped sliding block 5 cannot slide backward, when the cloth is pulled out from the T-shaped sliding block 5, the push rod 54 will slide rightward under the push of the spring 55 to push the elastic projection 53, the left end of the push rod 54 will also exit from the push rod groove 43 to retract into the through hole 53 again, at this time, the shift lever 45 will turn backward under the action of the torsion spring, pushing the T-shaped slide 5 to slide backwards into the second T-shaped chute 41, freeing up the position for the next T-shaped slide 5.

Specifically, as shown in fig. 1, an auxiliary air pipe 61 is fixedly installed at the top of the periphery of the air outlet pipe 6 near one end of the air outlet, one end of the auxiliary air pipe 61 is connected to the air outlet pipe 6 through a pipeline, and the other end of the auxiliary air pipe 61 is located above the cloth feeding end and the opening direction of the auxiliary air pipe points to the mouth of the cloth feeding end. Since the cloth must hang down from the top of the mouth of the cloth feeding end to be blown into the mouth of the cloth feeding end by the air outlet pipe 6, taking fig. 1 as an example, when one of the T-shaped sliders 5 pulls one cloth to the position of the mouth of the cloth feeding end, the auxiliary air pipe 61 can blow the cloth down from the cloth turning pipe 2 to make the cloth naturally hang down at the mouth of the cloth feeding end, which is convenient for the air outlet pipe 6 to blow the cloth into the cloth turning pipe 2.

Further, as shown in fig. 1, the middle part of the inner periphery of the cloth overturning pipe 2 in the embodiment is also fixedly provided with a plurality of chain wheels 3 through a wheel carrier, and the chain wheels 3 are all connected with corresponding conveying chain plates 32. Since each conveying chain plate 32 needs to cross the whole inside of the cloth overturning pipe 2 to ensure cloth conveying, the chain wheel 3 is additionally arranged in each conveying chain plate 32 at a certain distance to enhance the overall strength of the conveying chain plate 32 and avoid deformation.

Further, as shown in fig. 2 and fig. 3, the motor 31 of the present embodiment is a forward and reverse rotating motor. When a user hangs a cloth to be turned over on the cloth turning pipe 2, taking fig. 3 as an example, after the user clamps the cloth by using the T-shaped slider 5, the user can start the motor 31 which is responsible for driving the uppermost conveying chain plate 32 to rotate reversely, so that the uppermost elastic shifting piece 33 moves rightwards, the T-shaped slider 5 which clamps the cloth is driven to push the cloth to slide rightwards, and the structure can assist the user to push the cloth sleeved on the cloth turning pipe 2 towards the rack 1, thereby reducing the labor intensity.

Furthermore, as shown in fig. 1, a plurality of supporting seats 62 are fixedly installed at the bottom of the outer periphery of the air outlet pipe 6, and the bottom surfaces of the supporting seats 62 contact with the ground. This structure can play the supporting role to air-out pipe 6, improves air-out pipe 6's structural strength.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a fire-retardant jacquard weave is with automatic cloth device that turns over of novel cloth machine that turns over, including placing in subaerial frame (1), frame (1) inside is equipped with the fan, frame (1) horizontal fixed mounting in top turns over stringing (2), it is the cloth feeding end to stretch out longer one end in frame (1) to turn over stringing (2), it is the cloth discharging end to stretch out shorter one end in frame (1) to turn over stringing (2), frame (1) lean on cloth feeding end one side lower part fixedly connected with to go out tuber pipe (6), the air inlet end that goes out tuber pipe (6) stretches into frame (1) inside and with fan air outlet tube coupling, the air-out nozzle that goes out tuber pipe (6) advances the cloth feeding end mouth of pipe, its characterized in that: a plurality of chain wheels (3) are fixedly arranged on two sides of the inner periphery of the cloth overturning pipe (2) respectively through wheel carriers, the chain wheels (3) on the two sides are equal in number and correspond to each other in position one by one, a motor (31) is fixedly arranged on each wheel carrier respectively, an output shaft of the motor (31) is fixedly connected with a wheel shaft of the corresponding chain wheel (3) respectively, a conveying chain plate (32) is jointly arranged on the two chain wheels (3) corresponding to the positions, a plurality of elastic shifting sheets (33) are fixedly arranged on the outer peripheral surface of the conveying chain plate (32), a first T-shaped sliding groove (4) is transversely arranged on the top surface of the outer periphery of the cloth inlet end of the cloth overturning pipe (2), a second T-shaped sliding groove (41) is longitudinally arranged on the outer periphery of one side of the cloth inlet end pipe orifice of the cloth overturning pipe (2), the front end of the second T-shaped sliding groove (41) is communicated with one end of the first T-shaped sliding groove (4) close to the cloth inlet end pipe orifice, a plurality of T-shaped sliding blocks (5) are arranged in a sliding fit manner in the first T-shaped sliding groove (4), the in-groove bottom surface of first T type spout (4) has been seted up and has been passed groove (42), elastic plectrum (33) upper end that is located the top in cloth pipe (2) is all can pass through groove (42) and contact with the bottom surface that corresponds T type slider (5), T type slider (5) top surface has vertically seted up respectively and has pressed from both sides cloth groove (51), keep away from cloth end mouth of pipe one side respectively fixed mounting have elastic convex block (52) in pressing from both sides cloth groove (51), be close to cloth end mouth of pipe one side and transversely seted up through-hole (53) respectively in pressing from both sides cloth groove (51), sliding fit installs ejector pin (54) in through-hole (53), the cover is equipped with spring (55) on the periphery that ejector pin (54) are located to press from both sides cloth groove (51) inside, the one end of spring (55) and the cloth groove (51) lateral wall fixed connection of seting up through-hole (53), the other end of spring (55) then is close to corresponding elastic convex block (52) with ejector pin (54) one end fixed connection.

2. The automatic cloth turning device of the novel cloth turning machine for the flame-retardant jacquard cloth, according to claim 1, is characterized in that: a push rod groove (43) is formed in one side, close to a cloth inlet end pipe orifice, of the first T-shaped sliding groove (4), a groove (44) is formed in the upper portion of the inner wall of the front side of the first T-shaped sliding groove (4), and a shifting lever (45) is rotatably connected to the inner wall of the front side of the groove (44) through a torsional spring hinged shaft.

3. The automatic cloth turning device of the novel cloth turning machine for the flame-retardant jacquard cloth, according to claim 1, is characterized in that: go out tuber pipe (6) and lean on the periphery top fixed mounting of air outlet one end to have supplementary tuber pipe (61), the one end and the play tuber pipe (6) tube coupling of supplementary tuber pipe (61), the other end of supplementary tuber pipe (61) is located into cloth end top and the directional cloth end mouth of pipe of feeding of opening direction.

4. The automatic cloth turning device of the novel cloth turning machine for the flame-retardant jacquard cloth, according to claim 1, is characterized in that: the middle part of the inner periphery of the cloth turning pipe (2) is also fixedly provided with a plurality of chain wheels (3) through a wheel carrier, and the chain wheels (3) are all connected with corresponding conveying chain plates (32).

5. The automatic cloth turning device of the novel cloth turning machine for the flame-retardant jacquard cloth, according to claim 1, is characterized in that: the motor (31) is a forward and reverse rotating motor.

6. The automatic cloth turning device of the novel cloth turning machine for the flame-retardant jacquard cloth, according to claim 1, is characterized in that: the bottom of the periphery of the air outlet pipe (6) is fixedly provided with a plurality of supporting seats (62), and the bottom surfaces of the supporting seats (62) are in contact with the ground.

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