CN217513090U - Automatic non-woven fabric sticking device - Google Patents

Abstract

The utility model relates to the technical field of automobile parts, in particular to an automatic non-woven cloth pasting device, which comprises a frame body and a feeding device; a supporting table is arranged corresponding to the discharge end of the feeding device, and the discharge end of the feeding device can output the non-woven fabric to the supporting table; a cutting device is arranged between the support table and the feeding device, and the cutting end face of the cutting device faces the non-woven fabric and can cut the non-woven fabric into bonding units; a longitudinal placing plate is arranged on the outer side of the corresponding supporting platform, and a plurality of profiling clamps are arranged on the placing plate at intervals and used for clamping workpieces; a longitudinal movement control structure is arranged between the placing plate and the frame body and can drive the placing plate to longitudinally move so that the profiling fixtures are correspondingly positioned on the cloth pasting stations outside the supporting table one by one; the frame body is also provided with a clamping mechanism. The utility model has the characteristics of degree of automation is high, improvement efficiency that can be better, can effectively prevent leaking the subsides more.

Description

Automatic non-woven cloth pasting device

Technical Field

The utility model relates to an automobile parts technical field especially relates to an automatic paste non-woven device.

Background

In the automobile parts industry, in order to better prevent the automobile parts from generating abnormal sound due to friction with other parts in the loading process, the back of an automobile parts product is generally required to be pasted with non-woven cloth to solve the problem. The non-woven fabric is also called non-woven fabric, is produced by adopting polyester fiber and polyester fiber (PET for short) material through a needling process, and can be made into fabrics with different thicknesses, handfeel, hardness and the like.

In the existing production process, the attachment of the non-woven fabric is usually carried out in a manual attachment operation mode, the production mode easily causes the generation of an attachment missing phenomenon due to the fatigue phenomenon of personnel, and the production efficiency is low and the labor cost is high.

Therefore, those skilled in the art have made an effort to develop an automatic non-woven fabric sticking device which has a high degree of automation, can improve efficiency, and can prevent sticking omission more effectively, and the technical problem to be solved by those skilled in the art is to be solved.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that how to provide an automation degree height, raises the efficiency that can be better, can effectively prevent to leak the automatic unwoven cloth device that pastes of pasting more.

In order to realize the aim, the utility model provides an automatic non-woven cloth pasting device, which comprises a frame body and a feeding device; the device is characterized in that a supporting table is arranged corresponding to the discharge end of the feeding device, and the discharge end of the feeding device can output the non-woven fabric to the supporting table; a cutting device is arranged between the supporting table and the feeding device, and the cutting end surface of the cutting device faces the non-woven fabric and can cut the non-woven fabric into a bonding unit; a longitudinal placing plate is arranged on the outer side of the corresponding supporting platform, and a plurality of profiling clamps are arranged on the placing plate at intervals and used for clamping workpieces; a longitudinal movement control structure is arranged between the placing plate and the frame body and can drive the placing plate to move longitudinally so that the profiling clamps are correspondingly positioned at cloth sticking stations outside the supporting table one by one; the frame body is further provided with a clamping mechanism, a clamping end of the clamping mechanism can clamp the pasting unit on the supporting table and horizontally and outwards translate the pasting unit to the upper side of the cloth pasting station, a pushing structure is arranged on the frame body corresponding to the cloth pasting station, and a pushing end of the pushing structure can drive the pasting unit above the cloth pasting station to move downwards and paste on a workpiece.

Thus, when the automatic non-woven fabric sticking device with the structure works, the discharge end of the feeding device can output the non-woven fabric onto the supporting table, then the cutting device can cut the non-woven fabric into sticking units, and the sticking units are supported and placed on the supporting table. Then, the longitudinal movement control structure can drive the placing plate to move longitudinally so that the profiling fixtures arranged above the placing plate are correspondingly positioned at the cloth pasting station positions outside the supporting table one by one; the clamping end of the clamping mechanism clamps the pasting unit on the supporting table and horizontally and outwards translates the pasting unit to the upper side of the cloth pasting station, the material pushing end of the material pushing structure drives the pasting unit to move downwards and paste on the workpiece, the non-woven cloth pasting of the workpiece is completed, and then the non-woven cloth pasting of the next workpiece is carried out. The device adopts equipment to replace manual operation, can improve the working efficiency, is more stable in the quality of the non-woven fabric and can more effectively prevent the non-woven fabric from being missed.

Furthermore, the longitudinal movement control structure adopts a guide rail and a guide groove to be matched and guided, and then adopts a lead screw and a nut to be matched with a driving motor to complete driving.

As optimization, a horizontal connection plate is connected and arranged at the discharge end of the feeding device, and the support table is connected and arranged at the outer side of the connection plate; the cutting device comprises a laser cutting head arranged between the connecting plate and the supporting platform through a support, and the laser cutting head is positioned above the connecting plate; and the working end of the laser cutting head is arranged downwards.

Like this, adopt the laser cutting head to cut for cutting quality is better, and the incision is more neat. And is also more convenient to use.

Furthermore, the feeding device comprises a roller, a plurality of guide rods and a plurality of guide rods, wherein the roller is wound with non-woven fabrics, and the output ends of the non-woven fabrics are wound on the guide rods; the non-woven fabric is generally composed of two layers, namely a non-woven fabric layer and a release paper layer, and the receiving cylinder is used for collecting the release paper layer so that the release paper layer is wound on the receiving cylinder; a driving structure is arranged corresponding to the material receiving barrel to drive the material receiving barrel to rotate; the far end of the non-woven fabric bypasses the outer side of the connecting plate, the material receiving cylinder has traction pulling force on the release paper layer, the non-woven fabric layer and the release paper layer can be separated, and the non-woven fabric layer moves forwards and is erected and connected on the supporting table. Like this, loading attachment structure is simpler, and the design is more reasonable.

As optimization, a smoke exhaust hood is arranged on the connecting plate, an input port is arranged on the smoke exhaust hood corresponding to the discharge end of the feeding device and used for inputting non-woven fabrics, and one side of the smoke exhaust hood, which is far away from the feeding device, is arranged in an open manner; a position-giving opening is formed in the smoke exhaust cover, which is opposite to the working end of the laser cutting head, so that cutting laser emitted by the laser cutting head can pass through the position-giving opening and is in contact with the non-woven fabric to complete cutting; the smoke exhaust hood is also provided with a smoke exhaust port, a smoke exhaust pipe is arranged on the smoke exhaust port, and the upper end of the smoke exhaust pipe is obliquely arranged towards the direction of the feeding device.

Like this, through setting up the enclosure, can be better collect the smog that produces, and make smog discharge to the one side of keeping away from the workman and operate, it is safe healthy more.

Preferably, the support comprises two vertical support rods, a horizontally arranged fixing plate is connected to the upper ends of the two support rods, a first driving cylinder is longitudinally arranged on the fixing plate, and the laser cutting head is arranged at the end of a piston rod of the first driving cylinder.

Like this, through setting up first drive cylinder, install the laser cutting head at first drive cylinder, first drive cylinder can drive the laser cutting head along support body longitudinal movement for its scope that can cut is bigger.

Preferably, the clamping mechanism comprises a vertically arranged mounting plate, a second driving cylinder which is transversely arranged is arranged in the middle of the mounting plate, a vertically arranged middle plate is fixedly connected to the piston rod end of the second driving cylinder, clamping cylinders which are longitudinally arranged along the frame body are respectively arranged at two ends of the middle plate, each clamping cylinder is provided with two piston rods, and a first clamping block and a second clamping block are respectively arranged on the two piston rods; and the two piston rods can respectively drive the first clamping block and the second clamping block to move oppositely and clamp the two ends of the pasting unit.

Like this, press from both sides the structure of getting the mechanism simpler, press from both sides that can be better and get and paste the unit and move it to cloth pasting station top.

Furthermore, be equipped with vertical backup pad on the support body, the backup pad upper end middle part upwards protrudes and forms a supporting bench, and when pasting the unit and placing on a supporting bench, pastes the unsettled setting in unit both ends. The clamping mechanism can be matched better to complete clamping.

Preferably, the material pushing structure comprises a material pushing cylinder which is arranged at the upper end of the mounting plate and is vertically arranged, the lower end of the material pushing cylinder is connected with a material pushing block, and the material pushing cylinder can drive the material pushing block to move downwards and separate from the two clamping blocks through the pushing and pasting unit and paste the material pushing block on the workpiece.

Therefore, the material pushing structure is simpler, and the non-woven fabric can be better attached.

As an optimization, the profiling fixture comprises a profiling block, wherein the profiling block is provided with a profiling surface and is matched with the matching surface of the workpiece; the profiling block is further provided with a vertical upward-arranged rotary cylinder, the piston rod end of the rotary cylinder is connected with a clamping rod, and the rotary cylinder can drive the clamping rod to horizontally rotate to the position above the workpiece and then drive the clamping rod to vertically move downwards to clamp the workpiece.

Like this, the profile modeling anchor clamps are simpler, can be better carry out the clamping to the work piece.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of the structure of fig. 1 without the housing cover.

Fig. 3 is a partially enlarged schematic view of a position a in fig. 2.

Fig. 4 is a schematic view of the structure of fig. 2 after rotating by an angle.

Fig. 5 is a partially enlarged schematic view of a B position in fig. 4.

Fig. 6 is a schematic view of the structure of fig. 2 rotated by another angle.

Fig. 7 is a partially enlarged schematic view of the position C in fig. 6.

Fig. 8 is a front view of fig. 2.

Fig. 9 is a left side view of fig. 2.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, wherein it is noted that, in the description of the invention, the terms "upper", "lower", "left", "right", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular manner, and therefore should not be construed as limiting the present invention. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 9, an automatic non-woven fabric pasting device comprises a frame body 1 and a feeding device 2; a supporting table 3 is arranged corresponding to the discharge end of the feeding device, and the discharge end of the feeding device can output the non-woven fabric to the supporting table; a cutting device 4 is arranged between the supporting table and the feeding device, and the cutting end surface of the cutting device faces the non-woven fabric and can cut the non-woven fabric into a bonding unit 5; a longitudinal placing plate 6 is arranged on the outer side of the corresponding supporting platform, and a plurality of profiling clamps 7 are arranged on the placing plate at intervals and used for clamping workpieces 8; a longitudinal movement control structure is arranged between the placing plate and the frame body and can drive the placing plate to move longitudinally so that the profiling clamps are correspondingly positioned at cloth sticking stations outside the supporting table one by one; the frame body is further provided with a clamping mechanism 9, the clamping end of the clamping mechanism can clamp the pasting unit on the supporting table and horizontally and outwards translate to the upper side of the cloth pasting station, the frame body is provided with a material pushing structure 10 corresponding to the cloth pasting station, and the material pushing end of the material pushing structure can drive the pasting unit above the cloth pasting station to move downwards and paste on a workpiece.

Thus, when the automatic non-woven fabric sticking device with the structure works, the discharge end of the feeding device can output the non-woven fabric onto the supporting table, then the cutting device can cut the non-woven fabric into sticking units, and the sticking units are supported and placed on the supporting table. Then, the longitudinal movement control structure can drive the placing plate to move longitudinally so that the profiling fixtures arranged above the placing plate can correspondingly position the cloth pasting stations outside the supporting platform one by one; the clamping end of the clamping mechanism clamps the pasting unit on the supporting table and horizontally and outwards translates the pasting unit to the upper side of the cloth pasting station, the material pushing end of the material pushing structure drives the pasting unit to move downwards and paste on the workpiece, the non-woven cloth pasting of the workpiece is completed, and then the non-woven cloth pasting of the next workpiece is carried out. The device adopts equipment to replace manual operation, can improve the working efficiency, is more stable in the quality of the non-woven fabric and can more effectively prevent the non-woven fabric from being missed.

Furthermore, the longitudinal movement control structure adopts a guide rail and a guide groove to be matched and guided, and then adopts a lead screw and a nut to be matched with a driving motor to complete driving.

In the specific embodiment, a horizontal connecting plate 11 is connected and arranged at the discharge end of the feeding device, and the support platform is connected and arranged at the outer side of the connecting plate; the cutting device comprises a laser cutting head 12 which is arranged between the connecting plate and the supporting platform through a bracket, and the laser cutting head is positioned above the connecting plate; and the working end of the laser cutting head is arranged downwards.

Like this, adopt the laser cutting head to cut for cutting quality is better, and the incision is more neat. And is also more convenient to use.

Further, the feeding device comprises a roller 13, non-woven fabrics are wound on the roller, and the feeding device also comprises a plurality of guide rods, and the output ends of the non-woven fabrics are wound on the guide rods; a material receiving barrel 14 is also arranged, the non-woven fabric generally comprises two layers, namely a non-woven fabric layer and a release paper layer, and the material receiving barrel is used for collecting the release paper layer so that the release paper layer is wound on the material receiving barrel; a driving structure is arranged corresponding to the material receiving barrel to drive the material receiving barrel to rotate; the far end of the non-woven fabric bypasses the outer side of the connecting plate, the material receiving cylinder has traction pulling force on the release paper layer, the non-woven fabric layer and the release paper layer can be separated, and the non-woven fabric layer moves forwards and is connected to the supporting table in an erected mode. Like this, loading attachment structure is simpler, and the design is more reasonable.

In the specific embodiment, a smoke exhaust hood 15 is arranged on the connecting plate, an input port is arranged on the smoke exhaust hood corresponding to the discharge end of the feeding device and used for inputting non-woven fabrics, and one side of the smoke exhaust hood, which is far away from the feeding device, is open; a position-giving opening is formed in the smoke exhaust cover, which is opposite to the working end of the laser cutting head, so that cutting laser emitted by the laser cutting head can pass through the position-giving opening and is in contact with the non-woven fabric to complete cutting; the smoke exhaust hood is also provided with a smoke exhaust port, the smoke exhaust port is provided with a smoke exhaust pipe 16, and the upper end of the smoke exhaust pipe is obliquely arranged towards the direction of the feeding device.

Like this, through setting up the enclosure, the smog to the production that can be better is collected, and makes smog discharge to the one side of keeping away from the workman and operate, and is safe healthy more.

In this embodiment, the support includes two vertical support rods 17, a fixing plate 18 horizontally disposed is connected to upper ends of the two support rods, a first driving cylinder 19 longitudinally disposed is disposed on the fixing plate, and the laser cutting head is mounted on a piston rod end of the first driving cylinder.

Like this, through setting up first drive cylinder, install the laser cutting head at first drive cylinder, first drive cylinder can drive the laser cutting head along support body longitudinal movement for its scope that can cut is bigger.

In this embodiment, the clamping mechanism includes a vertically disposed mounting plate 20, a second driving cylinder 21 disposed transversely is disposed in the middle of the mounting plate, a vertically disposed middle plate 22 is connected and fixed to the piston rod end of the second driving cylinder, clamping cylinders 23 disposed longitudinally along the frame body are disposed at the two ends of the middle plate, each clamping cylinder has two piston rods, and a first clamping block 24 and a second clamping block 25 are mounted on each piston rod; and the two piston rods can respectively drive the first clamping block and the second clamping block to move oppositely and clamp the two ends of the pasting unit.

Like this, press from both sides the structure of getting the mechanism simpler, press from both sides that can be better and get and paste the unit and move it to cloth pasting station top.

Further, be equipped with vertical backup pad 26 on the support body, the backup pad upper end middle part upwards protrudes and forms a supporting bench, and when pasting the unit and placing on a supporting bench, pastes the unsettled setting in unit both ends. The clamping mechanism can be matched better to complete clamping.

In this embodiment, the material pushing structure includes a material pushing cylinder 27 vertically disposed and installed at the upper end of the installation plate, the lower end of the material pushing cylinder is connected with a material pushing block 28, and the material pushing cylinder can drive the material pushing block to move downwards and separate from the two clamping blocks through the pushing and pasting unit and paste the two clamping blocks on the workpiece.

Therefore, the material pushing structure is simpler, and the non-woven fabric can be better attached.

In the specific embodiment, the profiling fixture comprises a profiling block 29, wherein the profiling block is provided with a profiling surface and is matched with the workpiece matching surface; the profiling block is also provided with a vertical upward rotary cylinder 30, the piston rod end of the rotary cylinder is connected with a clamping rod 31, and the rotary cylinder can drive the clamping rod to horizontally rotate to the position above the workpiece and then drive the clamping rod to vertically move downwards to clamp the workpiece.

Like this, the profile modeling anchor clamps are simpler, can be better carry out the clamping to the work piece.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (7)

1. An automatic non-woven fabric sticking device comprises a frame body and a feeding device; the device is characterized in that a supporting table is arranged corresponding to the discharge end of the feeding device, and the discharge end of the feeding device can output the non-woven fabric onto the supporting table; a cutting device is arranged between the supporting table and the feeding device, and the cutting end surface of the cutting device faces the non-woven fabric and can cut the non-woven fabric into a bonding unit; a longitudinal placing plate is arranged on the outer side of the corresponding supporting platform, and a plurality of profiling clamps are arranged on the placing plate at intervals and used for clamping workpieces; a longitudinal movement control structure is arranged between the placing plate and the frame body and can drive the placing plate to move longitudinally so that the profiling clamps are correspondingly positioned at cloth sticking stations outside the supporting table one by one; the frame body is further provided with a clamping mechanism, a clamping end of the clamping mechanism can clamp the pasting unit on the supporting table and horizontally and outwards translate the pasting unit to the upper side of the cloth pasting station, a pushing structure is arranged on the frame body corresponding to the cloth pasting station, and a pushing end of the pushing structure can drive the pasting unit above the cloth pasting station to move downwards and paste on a workpiece.

2. The automatic non-woven fabric sticking device according to claim 1, wherein: a horizontal connecting plate is connected and arranged at the discharge end of the feeding device, and the supporting table is connected and arranged at the outer side of the connecting plate; the cutting device comprises a laser cutting head arranged between the connecting plate and the supporting platform through a support, and the laser cutting head is positioned above the connecting plate; and the working end of the laser cutting head is arranged downwards.

3. The automatic non-woven fabric sticking device according to claim 2, wherein: a smoke exhaust hood is arranged on the connecting plate, an input port is arranged on the smoke exhaust hood corresponding to the discharge end of the feeding device and used for inputting non-woven fabrics, and one side of the smoke exhaust hood, which is far away from the feeding device, is open; a position-giving opening is formed in the smoke exhaust cover, which is opposite to the working end of the laser cutting head, so that cutting laser emitted by the laser cutting head can pass through the position-giving opening and is in contact with the non-woven fabric to complete cutting; the smoke exhaust hood is also provided with a smoke exhaust port, a smoke exhaust pipe is arranged on the smoke exhaust port, and the upper end of the smoke exhaust pipe is obliquely arranged towards the direction of the feeding device.

4. The automatic non-woven fabric sticking device according to claim 2, wherein: the support comprises two vertical supporting rods, a fixing plate horizontally arranged is connected to the upper ends of the two supporting rods, a first driving cylinder longitudinally arranged is arranged on the fixing plate, and the end of a piston rod of the first driving cylinder is provided with the laser cutting head.

5. The automatic non-woven fabric sticking device according to claim 1, wherein: the clamping mechanism comprises a vertically arranged mounting plate, a second driving cylinder which is transversely arranged is arranged in the middle of the mounting plate, a vertically arranged middle plate is fixedly connected to the piston rod end of the second driving cylinder, clamping cylinders which are longitudinally arranged along the frame body are respectively arranged at two ends of the middle plate, the clamping cylinders are respectively provided with two piston rods, and a first clamping block and a second clamping block are respectively arranged on the two piston rods; and the two piston rods can respectively drive the first clamping block and the second clamping block to move oppositely and clamp the two ends of the pasting unit.

6. The apparatus for automatically pasting nonwoven fabric according to claim 5, wherein: the material pushing structure comprises a material pushing cylinder which is arranged at the upper end of the mounting plate and is vertically arranged, the lower end of the material pushing cylinder is connected with a material pushing block, and the material pushing cylinder can drive the material pushing block to move downwards and separate from the two clamping blocks through the pushing and pasting unit and paste the material pushing block on a workpiece.

7. The apparatus for automatically pasting nonwoven fabric according to claim 1, wherein: the profiling fixture comprises a profiling block, wherein the profiling block is provided with a profiling surface and is matched with the matching surface of the workpiece; still be equipped with the vertical rotatory cylinder that upwards sets up on the shape-imitating piece, rotatory cylinder tailpiece of the piston rod end is connected with the supporting rod, and rotatory cylinder can drive behind the supporting rod horizontal rotation to the work piece top, drives the vertical downstream of supporting rod again in order to press from both sides tight work piece.

Images