CN219157160U - Flanging mechanism for processing automotive interior fabric - Google Patents

Abstract

The utility model discloses a flanging mechanism for processing automotive interior fabric, which belongs to the field of automotive interior fabric processing, and comprises the following components: the support plate is symmetrically and slidingly connected with two sliding blocks; the sliding plate and the sliding block are fixedly arranged; the sliding plate is fixedly provided with an air suction pipe; compared with the prior art, the flanging mechanism for processing the automotive interior fabric is characterized in that the flanging mechanism is used for sucking scraps on the surface of the support plate through the air suction pipe, the pipeline and the hose by the dust suction device, meanwhile, the motor drives the poking shaft and the rotary cylinder to rotate, the elastic poking plate is contacted with the support plate, the elastic poking plate can pick up the scraps which are not sucked away on the support plate, and the scraps are sucked into the dust suction device through the air suction pipe; therefore, the mechanism can clean up scraps after the fabric treatment on the supporting plate, and the subsequent fabric processing is prevented from being influenced.

Description

Flanging mechanism for processing automotive interior fabric

Technical Field

The utility model relates to the field of automotive interior fabric processing, in particular to a flanging mechanism for automotive interior fabric processing.

Background

The interior of the automobile is provided with a plurality of inner decorations made of fabric, such as an automobile cushion, a foot pad and the like, and the inner decorations need to be turned to the inner side by using a flanging mechanism in the manufacturing process, so that the step of cutting burrs is omitted, the attractiveness is improved, and the strength of the periphery of the fabric is enhanced; the application number is CN2020226611522. X provides an automatic flanging mechanism for knitting clothing processing, which is characterized in that a bottom plate, a supporting leg, a fixed plate, a rotating rod, a transverse plate, a first motor, a first conical gear, a second conical gear, a connecting plate, a pressing groove, a sewing groove, a flanging plate, a lower needle hole, an L-shaped plate, a threaded pipe, a threaded rod, a long plate, a vertical plate, a second motor, a third conical gear and a fourth conical gear are matched to carry out flanging treatment; however, the phenomenon that scraps generated by sewing of a sewing machine and scraps on the wool side of the fabric are adhered to the bottom plate in the flanging treatment process is not considered, so that a large amount of scraps are adhered to the surface of the fabric during processing, and the tabletop is cleaned manually after the fabric is processed; aiming at the situation, a flanging mechanism for processing the automotive interior fabric is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a flanging mechanism for processing automotive interior fabric, which is used for cleaning the residual scraps after the fabric is processed.

The aim of the utility model can be achieved by the following technical scheme:

a flanging mechanism for processing automotive interior fabric comprises:

the support plate is symmetrically and slidingly connected with two sliding blocks, and the sliding blocks are in sliding connection with the support plate through sliding rails arranged on the support plate; the sliding holes are formed in the supporting plate, and the sliding blocks are connected with the sliding holes in a sliding manner, so that the sliding blocks are connected with the supporting plate in a sliding manner; the supporting plate is provided with supporting legs which are connected with the supporting plate into a whole in a welding or screw mode; the support plate is provided with an edge covering mechanism, the common mode is that flanging is performed manually and then stitching is performed through a sewing machine, and the mechanism in the mode can be also called an edge covering sewing machine; the flanging and hemming can also be carried out by a machine through a set program;

the sliding plate and the sliding block are fixedly arranged; the sliding plate is fixedly provided with an air suction pipe; a pipeline is arranged in the sliding plate; one end of the pipeline is communicated with the air suction pipe; a hose is fixedly arranged at the other end of the pipeline; the hose is connected with an external dust collection device, such as a dust collector; the dust collection device sucks the scraps on the supporting plate through a hose, a pipeline and an air suction pipe;

a dial shaft disposed between the support plate and the slide plate; the stirring shaft is rotationally connected with the sliding block; elastic poking sheets are uniformly distributed on the circumference of the poking shaft; the elastic plectrum is a plectrum prepared from elastic materials such as rubber, silica gel, EVA, etc.;

the first motor is in belt transmission with the poking shaft; belt drives are a type of mechanical drive that utilize a flexible belt that is tensioned over a pulley for movement or power transmission. According to the different driving principles, there are friction belt driving driven by friction force between the belt and the belt wheel, and synchronous belt driving driven by the belt and the teeth on the belt wheel engaged with each other. Such as synchronous belts and wheels, PU belts and wheels, etc.; of course the belt drive in this application may be replaced by a chain drive, i.e. by a pair of sprocket chains;

the linear driving component is used for driving the sliding block to linearly move; the linear driving part refers to a mechanism or a device for driving the connecting piece to perform linear movement, such as an electric push rod, a pneumatic push rod, a hydraulic push rod, a screw rod/screw rod driving mechanism and the like;

in the use process, placing the fabric on a supporting plate, making flanging by a manual or machine through a flanging mechanism, and taking the fabric away by a machine such as a robot arm or a manual after the flanging treatment is finished; then starting the air pump, the motor I and the linear driving mechanism; the linear driving mechanism drives the sliding block, the sliding plate, the air suction pipe, the hose, the shifting shaft, the rotary drum and the elastic shifting piece to move; in the moving process, the dust collection device sucks the scraps on the surface of the support plate through the air suction pipe, the pipeline and the hose, meanwhile, the motor drives the poking shaft and the rotary cylinder to rotate, the elastic poking piece is contacted with the support plate, the elastic poking piece can pick up the scraps which are not sucked on the support plate, and the scraps are sucked into the dust collection device through the air suction pipe; therefore, the mechanism can clean up scraps after the fabric treatment on the supporting plate, and the subsequent fabric processing is prevented from being influenced.

The noun, conjunctive or adjective parts referred to in the above technical solutions are explained as follows:

the term fixedly connected in this application refers to a connection without any relative movement after the parts or components are installed; the common parts are fixed together by using screws, splines, wedge pins and the like, and the connecting mode can be detached during maintenance and cannot damage the parts; in addition, the parts and components can not be used secondarily in such a way as welding, riveting, tenon passing and matching and the like, and the parts and components can not be disassembled in the way of forging, sawing or oxygen cutting during maintenance or replacement. The rotating connection in the application is a connection that after parts or components are installed, the parts generate relative rotation motion relative to a fixing piece, and the common form is that the bearings are installed on the fixing piece, the parts are installed on the inner ring or the outer ring of the bearings, and the bearings are utilized to complete the rotation motion. The sliding connection in the present application is a connection in which a part or a component can be moved on a fixing member after the part or the component is mounted.

In some embodiments, the linear drive member comprises a screw, a first intermediate shaft, a second intermediate shaft, a first drive shaft, and a second drive shaft; the support plate is fixedly provided with a first middle seat, a second middle seat and two screw seats; the screw rod seats are respectively connected with a screw rod in a rotating way; the screw is driven by a belt; the screws are respectively in threaded connection with one sliding block; the first intermediate shaft is rotatably connected with the intermediate seat; the second intermediate seat is rotationally connected with a second intermediate shaft; the first intermediate shaft and one screw rod are driven by a belt; the second intermediate shaft and the first intermediate shaft are driven by a bevel gear; the supporting plate is fixedly provided with a transmission seat; the transmission seat is rotationally connected with a transmission shaft I; the transmission seat is symmetrically and rotationally connected with a transmission shaft II by taking the transmission shaft I as a center; the intermediate shaft II and the transmission shaft I are transmitted through a belt; the first transmission shaft is fixedly provided with a first spur gear; the second transmission shafts are fixedly provided with second spur gears; the two spur gears are meshed with each other; the second spur gears are fixedly provided with arc racks; said spur gear one is selectively engaged with one of said arcuate racks; and one transmission shaft II is driven by a motor II.

In some embodiments, a rotating seat is fixedly arranged on one side, close to the screw rod, of the supporting plate; the rotating seat is rotationally connected with a rotating pipe; the hose is communicated with the inside of the rotary pipe; one side of the rotating pipe is closed, and the other side of the rotating pipe is provided with a through hole.

In some embodiments, the support plate is also fixedly mounted with a drive seat; the driving seat is rotationally connected with a driving shaft; the driving shaft and one screw rod are driven by a bevel gear; the driving shaft and the rotating pipe are driven by a belt.

In some embodiments, the swivel tube is fixedly mounted with a swivel joint at the through hole.

In some embodiments, the elastic pulling piece is made of one or more of rubber, silica gel and EVA.

In some embodiments, the support plate is fixedly mounted with an illumination lamp.

In some embodiments, the support plate has a storage box fixedly mounted thereto.

The utility model has the beneficial effects that:

according to the flanging mechanism for processing the automotive interior fabric, the dust collection device sucks the scraps on the surface of the supporting plate through the air suction pipe, the pipeline and the hose, meanwhile, the motor drives the poking shaft and the rotary cylinder to rotate, the elastic poking piece is contacted with the supporting plate, the elastic poking piece can pick up the scraps which are not sucked on the supporting plate, and the scraps are sucked into the dust collection device through the air suction pipe; therefore, the mechanism can clean up scraps after the fabric treatment on the supporting plate, and the subsequent fabric processing is prevented from being influenced.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic view of a portion of a slide plate of the present application;

FIG. 3 is a schematic view of the bottom structure of the present application;

fig. 4 is an enlarged schematic view at a of the present application.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present utility model and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, 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 present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1 to 4, a flanging mechanism for processing an automotive interior fabric includes:

the support plate 1 is symmetrically and slidingly connected with two sliding blocks 2, and the sliding blocks 2 are in sliding connection with the support plate 1 by arranging sliding rails on the support plate 1, wherein the sliding blocks 2 are in sliding connection with the sliding rails, so that the sliding blocks 2 are in sliding connection with the support plate 1; the sliding holes are formed in the supporting plate 1, the sliding blocks 2 are connected with the sliding holes in a sliding mode, and then the sliding blocks 2 are connected with the supporting plate 1 in a sliding mode; the support plate 1 is provided with support legs which are connected with the support plate 1 into a whole by welding or screws and the like; the support plate 1 is provided with an edge covering mechanism, and the common mode is that flanging is performed manually and then stitching is performed through a sewing machine, and the mechanism in the mode can be also called an edge covering sewing machine; the flanging and hemming can also be carried out by a machine through a set program;

the sliding plate 3, the sliding plate 3 and the sliding block 2 are fixedly installed; the sliding plate 3 is fixedly provided with an air suction pipe 4; the sliding plate 3 is internally provided with a pipeline; one end of the pipeline is communicated with the air suction pipe 4; the other end of the pipeline is fixedly provided with a hose 5; the hose 5 is connected to an external suction device, such as a vacuum cleaner; the dust collection device sucks the scraps on the supporting plate 1 through a hose 5, a pipeline and an air suction pipe 4;

a poking shaft 6, the poking shaft 6 being arranged between the support plate 1 and the sliding plate 3; the shifting shaft 6 is rotationally connected with the sliding block 2; elastic poking sheets 7 are uniformly distributed on the circumference of the poking shaft 6; the elastic poking piece 7 is a poking piece prepared from elastic materials, such as rubber, silica gel, EVA and the like;

the motor I8 is in belt transmission with the poking shaft 6; belt drives are a type of mechanical drive that utilize a flexible belt that is tensioned over a pulley for movement or power transmission. According to the different driving principles, there are friction belt driving driven by friction force between the belt and the belt wheel, and synchronous belt driving driven by the belt and the teeth on the belt wheel engaged with each other. Such as synchronous belts and wheels, PU belts and wheels, etc.; of course the belt drive in this application may be replaced by a chain drive, i.e. by a pair of sprocket chains;

a linear driving part for driving the slider 2 to perform linear movement; the linear driving part refers to a mechanism or a device for driving the connecting piece to perform linear movement, such as an electric push rod, a pneumatic push rod, a hydraulic push rod, a screw rod/screw rod 9 driving mechanism and the like;

in the using process, the fabric is placed on the supporting plate 1, flanging is made by a manual or machine through the edge wrapping mechanism, and after the flanging treatment is finished, the fabric is taken away by a machine such as a robot arm or a manual; then starting the air pump, the first motor 8 and the linear driving mechanism; the linear driving mechanism drives the sliding block 2, the sliding plate 3, the air suction pipe 4, the hose 5, the poking shaft 6, the rotating cylinder and the elastic poking piece 7 to move; in the moving process, the dust collection device sucks the scraps on the surface of the support plate 1 through the air suction pipe 4, the pipeline and the hose 5, meanwhile, the motor I8 drives the poking shaft 6 and the rotary cylinder to rotate, the elastic poking piece 7 is in contact with the support plate 1, the elastic poking piece 7 can pick up the scraps which are not sucked on the support plate 1, and the scraps are sucked into the dust collection device through the air suction pipe 4; the mechanism can clean the scraps on the supporting plate 1 after the fabric is processed, so that the subsequent fabric processing is prevented from being influenced.

In some embodiments, the linear drive member includes a screw 9, a first intermediate shaft 10, a second intermediate shaft 11, a first drive shaft 12, and a second drive shaft 13; the support plate 1 is fixedly provided with a first middle seat, a second middle seat and two screw seats; the screw bases are respectively connected with a screw 9 in a rotating way; the screw 9 is driven by a belt; the screw rods 9 are respectively in threaded connection with one sliding block 2; the intermediate seat is rotatably connected with an intermediate shaft I10; the second intermediate seat is rotationally connected with a second intermediate shaft 11; the first intermediate shaft 10 and one screw 9 are driven by a belt; the intermediate shaft II 11 and the intermediate shaft I10 are driven by bevel gears, namely by a pair of meshed bevel gears; the supporting plate 1 is fixedly provided with a transmission seat; the transmission seat is rotationally connected with a transmission shaft I12; the transmission seat is symmetrically and rotationally connected with a transmission shaft II 13 by taking the transmission shaft I12 as a center; the intermediate shaft II 11 and the transmission shaft I12 are driven by a belt; the first transmission shaft 12 is fixedly provided with a first spur gear 15; the transmission shafts II 13 are fixedly provided with spur gears II 14; the spur gears II 14 are meshed with each other; the second spur gears 14 are fixedly provided with arc racks 16; the first spur gear 15 is optionally meshed with one arc-shaped rack 16, and when the first spur gear 15 is meshed with one arc-shaped rack 16, the first spur gear is meshed with the other arc-shaped rack 16; one transmission shaft II 13 is driven by a motor II; the second motor is installed according to actual conditions, for example, the second motor is installed on the supporting plate 1 through a bracket;

when the linear driving part is used, the motor II is started firstly, and drives the transmission shafts II 13 to rotate, and the two transmission shafts II 13 are driven by the pair of meshed spur gears II 14; the two transmission shafts II 13 rotate reversely, so that the two arc racks 16 turn reversely, and when one arc rack 16 is meshed with the first spur gear 15, the other arc rack 16 drives the first spur gear 15 to rotate; the first spur gear 15 drives the first transmission shaft 12 to reciprocate, the first transmission shaft 12 drives the second intermediate shaft 11 to rotate through belt transmission, the second intermediate shaft 11 drives the first intermediate shaft 10 to rotate through a bevel gear, the first intermediate shaft 10 drives the screw rod 9 to rotate through belt transmission, and finally the screw rod 9 drives the slide block 2 to drive the slide block 2, the slide plate 3, the air suction pipe 4, the hose 5, the poking shaft 6, the rotary cylinder and the elastic poking piece 7 to automatically reciprocate.

In some embodiments, a rotating seat is fixedly arranged on one side of the supporting plate 1 close to the screw 9; the rotating seat is rotatably connected with a rotating pipe 18; the hose 5 communicates with the inside of the swivel tube 18; one side of the rotary pipe 18 is closed, and the other side of the rotary pipe 18 is provided with a through hole; before use, the dust suction device is connected with the through hole, and the dust suction direction of the dust suction device sucks the scraps on the surface of the supporting plate 1 from the air suction pipe 4, the pipeline, the hose 5, the rotary pipe 18 and the through hole; the rotary tube 18 can be driven to rotate by a motor III, and the hose 5 is retracted by forward and reverse rotation when the slider 2 moves.

In some embodiments, the support plate 1 is also fixedly mounted with a drive seat; the driving seat is rotationally connected with a driving shaft 19; the driving shaft 19 and one screw 9 are driven by bevel gears; the driving shaft 19 and the rotating tube 18 are driven by a belt; with the above mechanism, without installing a motor III, the screw 9 drives the driving shaft 19 to rotate through the bevel gear, and the driving shaft 19 drives the rotary pipe 18 to rotate through the belt transmission, so that the rotary pipe 18 automatically retracts the hose 5 according to the rotation of the screw 9.

In some embodiments, swivel tube 18 is fixedly mounted with a swivel at the through hole, the swivel being a tubing connection device, and the connected tubing being relatively rotatable; it is possible to prevent the connection pipe of the dust suction device from twisting off due to the rotation of the rotation pipe 18.

In some embodiments, the support plate 1 is fixedly provided with an illuminating lamp, and the desk top is illuminated in an auxiliary manner.

In some embodiments, the support plate 1 is fixedly provided with a storage box for placing tools, and is convenient to take.

The flanging mechanism for processing the automotive interior fabric provided by the utility model is further described below with reference to the accompanying drawings and the embodiment.

A flanging mechanism for processing automotive interior fabric comprises:

the support plate 1 is symmetrically and slidably connected with two sliding blocks 2; by arranging the sliding holes in the support plate 1, the sliding blocks 2 are in sliding connection with the sliding holes, so that the sliding blocks 2 are in sliding connection with the support plate 1;

the sliding plate 3, the sliding plate 3 and the sliding block 2 are fixedly installed; the sliding plate 3 is fixedly provided with an air suction pipe 4; the sliding plate 3 is internally provided with a pipeline; one end of the pipeline is communicated with the air suction pipe 4; the other end of the pipeline is fixedly provided with a hose 5; hose 5 and external vacuum cleaner; the dust collector sucks the scraps on the supporting plate 1 through a hose 5, a pipeline and an air suction pipe 4;

a poking shaft 6, the poking shaft 6 being arranged between the support plate 1 and the sliding plate 3; the shifting shaft 6 is rotationally connected with the sliding block 2; the shifting shaft 6 is fixedly provided with a rotary drum; elastic poking sheets 7 are uniformly distributed on the circumference of the rotary cylinder; the elastic poking piece 7 is a poking piece prepared from elastic materials, such as rubber, silica gel, EVA and the like;

the motor I8 is in belt transmission with the toggle shaft 6, namely, is in synchronous belt and synchronous wheel transmission;

the linear driving part comprises a screw rod 9, a first intermediate shaft 10, a second intermediate shaft 11, a first transmission shaft 12 and a second transmission shaft 13; the support plate 1 is fixedly provided with a first middle seat, a second middle seat and two screw seats; the screw bases are respectively connected with a screw 9 in a rotating way; the screw 9 is driven by a belt; the screw rods 9 are respectively in threaded connection with one sliding block 2; the intermediate seat is rotatably connected with an intermediate shaft I10; the second intermediate seat is rotationally connected with a second intermediate shaft 11; the first intermediate shaft 10 and one screw 9 are driven by a belt; the intermediate shaft II 11 and the intermediate shaft I10 are driven by bevel gears, namely by a pair of meshed bevel gears; the supporting plate 1 is fixedly provided with a transmission seat; the transmission seat is rotationally connected with a transmission shaft I12; the transmission seat is symmetrically and rotationally connected with a transmission shaft II 13 by taking the transmission shaft I12 as a center; the intermediate shaft II 11 and the transmission shaft I12 are driven by a belt; the first transmission shaft 12 is fixedly provided with a first spur gear 15; the transmission shafts II 13 are fixedly provided with spur gears II 14; the spur gears II 14 are meshed with each other; the second spur gears 14 are fixedly provided with arc racks 16; the first spur gear 15 is optionally meshed with one arc-shaped rack 16, and when the first spur gear 15 is meshed with one arc-shaped rack 16, the first spur gear is meshed with the other arc-shaped rack 16; one transmission shaft II 13 is driven by a motor II; the second motor is installed according to actual conditions, for example, the second motor is installed on the supporting plate 1 through a bracket;

when the linear driving part is used, the motor II is started firstly, and drives the transmission shafts II 13 to rotate, and the two transmission shafts II 13 are driven by the pair of meshed spur gears II 14; the two transmission shafts II 13 rotate reversely, so that the two arc racks 16 turn reversely, and when one arc rack 16 is meshed with the first spur gear 15, the other arc rack 16 drives the first spur gear 15 to rotate; the straight gear I15 drives the transmission shaft I12 to do reciprocating rotation, the transmission shaft I12 drives the intermediate shaft II 11 to rotate through belt transmission, the intermediate shaft II 11 drives the intermediate shaft I10 to rotate through a bevel gear, the intermediate shaft I10 drives the screw rod 9 to rotate through belt transmission, and finally the screw rod 9 drives the slide block 2 to drive the slide block 2, the slide plate 3, the air suction pipe 4, the hose 5, the poking shaft 6, the rotary cylinder and the elastic poking piece 7 to automatically reciprocate;

a rotating seat is fixedly arranged on one side of the supporting plate 1, which is close to the screw 9; the rotating seat is rotatably connected with a rotating pipe 18; the hose 5 communicates with the inside of the swivel tube 18; one side of the rotary pipe 18 is closed, and the other side of the rotary pipe 18 is provided with a through hole; before use, the dust suction device is connected with the through hole, and the dust suction direction of the dust suction device sucks the scraps on the surface of the supporting plate 1 from the air suction pipe 4, the pipeline, the hose 5, the rotary pipe 18 and the through hole; the supporting plate 1 is also fixedly provided with a driving seat; the driving seat is rotationally connected with a driving shaft 19; the driving shaft 19 and one screw 9 are driven by bevel gears; the driving shaft 19 and the rotating tube 18 are driven by a belt; with the above mechanism, without installing a motor III, the screw 9 drives the driving shaft 19 to rotate through the bevel gear, and the driving shaft 19 drives the rotary pipe 18 to rotate through the belt transmission, so that the rotary pipe 18 automatically retracts the hose 5 according to the rotation of the screw 9.

In the using process, the fabric is placed on the supporting plate 1, flanging is made by a manual or machine through the edge wrapping mechanism, and after the flanging treatment is finished, the fabric is taken away by a machine such as a robot arm or a manual; then starting the air pump, the first motor 8 and the linear driving mechanism; the linear driving mechanism drives the sliding block 2, the sliding plate 3, the air suction pipe 4, the hose 5, the poking shaft 6, the rotating cylinder and the elastic poking piece 7 to move; in the moving process, the dust collection device sucks the scraps on the surface of the support plate 1 through the air suction pipe 4, the pipeline and the hose 5, meanwhile, the motor I8 drives the poking shaft 6 and the rotary cylinder to rotate, the elastic poking piece 7 is in contact with the support plate 1, the elastic poking piece 7 can pick up the scraps which are not sucked on the support plate 1, and the scraps are sucked into the dust collection device through the air suction pipe 4; the mechanism can clean the scraps on the supporting plate 1 after the fabric is processed, so that the subsequent fabric processing is prevented from being influenced.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (8)

1. Flanging mechanism for processing automotive interior fabric, which is characterized by comprising:

the support plate (1), the symmetrical sliding connection of said support plate (1) has two slide blocks (2) that can move linearly;

the sliding plate (3), the sliding plate (3) and the sliding block (2) are fixedly installed; the sliding plate (3) is fixedly provided with an air suction pipe (4); a pipeline is arranged in the sliding plate (3); one end of the pipeline is communicated with the air suction pipe (4); a hose (5) is fixedly arranged at the other end of the pipeline;

the stirring shaft (6) is rotationally connected with the sliding block (2); elastic poking sheets (7) are uniformly distributed on the circumference of the poking shaft;

and the motor I (8) and the stirring shaft (6) are in belt transmission.

2. The flanging mechanism for processing the automotive interior material according to claim 1, wherein the slider (2) is driven by a linear driving member; the wire driving component comprises a screw (9), a first intermediate shaft (10), a second intermediate shaft (11), a first transmission shaft (12) and a second transmission shaft (13); the support plate (1) is fixedly provided with a first middle seat, a second middle seat and two screw seats; the screw rod seats are respectively connected with a screw rod (9) in a rotating way; the screw (9) is driven by a belt; the screw rods (9) are respectively in threaded connection with one sliding block (2); the intermediate seat is rotatably connected with an intermediate shaft I (10); the second intermediate seat is rotationally connected with a second intermediate shaft (11); the first intermediate shaft (10) and one screw (9) are driven by a belt; the intermediate shaft II (11) and the intermediate shaft I (10) are driven by a bevel gear; the supporting plate (1) is fixedly provided with a transmission seat; the transmission seat is rotationally connected with a transmission shaft I (12); the transmission seat is symmetrically and rotationally connected with a transmission shaft II (13) by taking the transmission shaft I (12) as a center; the intermediate shaft II (11) and the transmission shaft I (12) are driven by a belt; the first transmission shaft (12) is fixedly provided with a first spur gear (15); the transmission shafts II (13) are fixedly provided with spur gears II (14); the second spur gear (14) is meshed with each other; the second spur gears (14) are fixedly provided with arc racks (16); said spur gear one (15) being selectively engageable with one of said arcuate racks (16); one transmission shaft II (13) is driven by a motor II.

3. The flanging mechanism for processing the automotive interior fabric according to claim 2, wherein a rotating seat is fixedly arranged on one side of the supporting plate (1) close to the screw (9); the rotating seat is rotationally connected with a rotating pipe (18); -said hose (5) is in communication with the interior of said swivel tube (18); one side of the rotary pipe (18) is closed, and the other side of the rotary pipe (18) is provided with a through hole.

4. The flanging mechanism for processing automotive interior fabric according to claim 3, wherein the support plate (1) is also fixedly provided with a driving seat; the driving seat is rotationally connected with a driving shaft (19); the driving shaft (19) and one screw (9) are driven by a bevel gear; the drive shaft (19) is belt-driven with the rotary tube (18).

5. The flanging mechanism for processing the automotive interior material according to claim 3, wherein the rotary pipe (18) is fixedly provided with a rotary joint at the through hole.

6. The flanging mechanism for processing the automotive interior fabric according to claim 3, wherein the elastic poking sheet (7) is made of one or more of rubber, silica gel and EVA.

7. The flanging mechanism for processing the automotive interior fabric according to claim 4, wherein the support plate (1) is fixedly provided with an illuminating lamp.

8. The flanging mechanism for processing automotive interior material according to claim 4, wherein the support plate (1) is fixedly provided with a storage box.

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