CN115352921A - Feeding machine for producing automobile sound-absorbing cotton and using method thereof - Google Patents

Abstract

The invention discloses a feeding machine for producing vehicle sound-absorbing cotton, which comprises a workbench, wherein two symmetrical first grooves are formed in the top of the workbench, and two symmetrical sliding grooves are formed in the front surface of the workbench. According to the invention, the discharging roller can be rapidly replaced under the matching of the first groove, the sliding groove, the cylindrical groove, the sliding block, the limiting block, the third groove, the hydraulic rod, the fourth groove, the third rectangular block, the rectangular groove, the fourth rectangular block and the second clamping block, so that the use effect of the feeding machine is effectively improved, the use efficiency of the feeding machine is effectively improved, the limiting block can be automatically reset under the action of the reset spring, the discharging roller can be driven to stably rotate under the matching of the first rectangular block, the first groove, the second rectangular block, the limiting block and the first servo motor, and the reset spring can be prevented under the matching of the first U-shaped block, the second groove and the first clamping block.

Description

Feeder for producing sound-absorbing cotton for vehicles and using method thereof

Technical Field

The invention relates to the technical field of production of sound-absorbing cotton for vehicles, in particular to a feeder for production of sound-absorbing cotton for vehicles and a using method thereof.

Background

The automobile-used sound cotton of inhaling absorbs the noise that the vehicle travel in-process produced through inhaling the inside fine denier fibre of sound cotton and absorb, reaches the function of inhaling the sound and falling the noise promptly.

The existing automobile-used sound-absorbing cotton is obtained by cutting through large sound-absorbing cotton, the sound-absorbing cotton is conveyed to a cutting area to use a feeder, the using effect of the existing part of the feeder is poor, the main reason is that a feeding roller of the feeder is not convenient to replace quickly, and a boosting structure is not arranged, so that the using effect of the feeder is poor, and the using efficiency of the feeder is reduced.

Therefore, we propose a feeder for producing sound-absorbing cotton for vehicles and a using method thereof, so as to solve the problems mentioned above.

Disclosure of Invention

The invention aims to provide a feeder for producing sound-absorbing cotton for a vehicle and a using method thereof, and aims to solve the problems that the using effect of part of feeders provided by the background technology is poor, the main reasons are that a feeding roller of the feeder is not convenient to replace quickly, and a boosting structure is not arranged, so that the using effect of the feeder is poor, namely the using efficiency of the feeder is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a feeding machine for producing sound-absorbing cotton for vehicles comprises a workbench, wherein two symmetrical first grooves are formed in the top of the workbench, two symmetrical sliding grooves are formed in the front surface of the workbench, the tops of the inner walls of the two sliding grooves are respectively communicated with the bottoms of the inner walls of the two first grooves, cylindrical grooves are formed in the rear surfaces of the inner walls of the two first grooves, return springs are fixedly mounted on the inner walls of the two cylindrical grooves, sliding blocks are connected inside the two sliding grooves in a sliding mode, limiting blocks are arranged inside the two first grooves, the bottoms of the two limiting blocks are respectively fixed to the tops of the two sliding blocks, the same ends of the two return springs are respectively fixedly mounted to the front surfaces of the two limiting blocks, first U-shaped blocks are fixed to the front surfaces of the two limiting blocks, two symmetrical second grooves are formed in the top of the workbench, the bottom of the inner wall of each of the two second grooves is movably provided with a first clamping block, a discharging roller is arranged between the insides of the two first grooves, one side of the workbench is provided with a first servo motor, the output end of the first servo motor is welded with a first rectangular block, the other side of the first rectangular block is movably embedded at one side of the discharging roller, the tops of the two limiting blocks are movably provided with fixed bolt rods, the bottom ends of the two fixed bolt rods are respectively in threaded connection with the bottoms of the inner walls of the two first grooves, the other side of the workbench is provided with a second rectangular block through bolts, the two sides of the workbench are respectively provided with third grooves, the bottoms of the inner walls of the two third grooves are respectively provided with a hydraulic rod, the bottoms of the inner walls of the sliding grooves are respectively provided with fourth grooves, and the insides of the two fourth grooves are respectively provided with a third rectangular block, two symmetrical rectangular grooves are formed in the tops of the two third rectangular blocks, a second clamping block is arranged inside each rectangular groove, the four second clamping blocks are divided into two groups, and fourth rectangular blocks are fixed on the rear surfaces of the two limiting blocks.

Preferably, the telescopic ends of the two hydraulic rods movably penetrate through the tops of the inner walls of the two third grooves, and the telescopic ends of the two hydraulic rods are fixed with the bottoms of the two third rectangular blocks respectively.

Preferably, the guide roller is rotatably connected between two sides of the inner wall of the workbench through a first bearing, the connecting rod is arranged between two sides of the inner wall of the workbench, and two ends of the connecting rod respectively movably penetrate through two sides of the inner wall of the workbench.

Preferably, a second servo motor is mounted on the front surface of the workbench, the output end of the second servo motor is fixed to one end of the connecting rod, seven first cylindrical holes are formed in two sides of the inner wall of the workbench at equal intervals, and a cylindrical block is rotatably connected inside each first cylindrical hole through a second bearing.

Preferably, gears are fixedly sleeved on the outer surface of each cylindrical block and the outer wall of each connecting rod, fourteen gears are divided into two groups, the gears of each group are in transmission connection through a transmission belt, and boosting multi-tooth blocks are fixedly sleeved on the outer surface of each cylindrical block and the outer wall of each connecting rod.

Preferably, two sets of spacing grooves are seted up to the inner wall bottom of workstation, and the quantity of every spacing groove of group is two, the both sides of workstation all activity run through has U type frame, and sliding connection is between the inside of two sets of spacing grooves respectively to one side relative of two U type frames.

Preferably, two the ruler has been all inlayed to the positive surface and the rear surface of U type frame, the thread groove has all been seted up to the both sides of workstation, second U type piece is all installed through the screw in the both sides of workstation, two second cylinder hole has all been seted up to the mutually opposite side one side of second U type piece.

Preferably, the insides of the two second cylindrical holes are rotatably connected with hand-screwed bolt rods through third bearings, and one ends of the two hand-screwed bolt rods are in threaded connection with the insides of the two thread grooves.

Preferably, the tops of the two second U-shaped blocks are fixed with connecting blocks, and the tops of the two connecting blocks are distributed at equal intervals and are fixed with a plurality of limiting plates.

A use method of a feeder for producing sound absorption cotton for vehicles comprises the following steps:

s1, when the discharging roller needs to be replaced, firstly, a first servo motor is closed, then the first servo motor is taken down from a workbench and pressed on the discharging roller, two fixing bolt rods are taken down simultaneously, then two first clamping blocks are taken down, then two limiting blocks are moved under the matching of two sliding grooves and two sliding blocks, at the moment, the moved limiting blocks can drive a first U-shaped block to move, and meanwhile, a reset spring can be compressed and moved back to the inside of a cylindrical groove;

s2, when the two limiting blocks move to proper positions, the first clamping block directly penetrates through the inside of the first U-shaped block until the bottom of the first clamping block is inserted back to the original position, then the discharging roller moves to the proper position, then the two hydraulic rods are started simultaneously, the started hydraulic rods drive the third rectangular blocks to move upwards and move out of the fourth groove, the two third rectangular blocks which move simultaneously drive the two second clamping blocks to move upwards, when the tops of the two third rectangular blocks are contacted with the outer surface of the discharging roller, the discharging roller is just positioned between the two groups of second clamping blocks, then the hydraulic rods continue to drive the third rectangular blocks to move upwards until the tops of the two third rectangular blocks are positioned on the same horizontal plane with the top of the workbench, then the two hydraulic rods are closed, one of the second clamping blocks is pulled out of the two rectangular grooves respectively, and the discharging roller can move from the workbench through the third rectangular blocks, the fourth rectangular blocks and the limiting blocks to be replaced;

s3, when the large sound-absorbing cotton released from the discharging roller is boosted to a cutting area conveniently, the second servo motor is directly started, the started second servo motor drives two gears and two boosting multi-tooth blocks to rotate through connecting rods, the two rotating gears drive the rest gears to rotate under the action of two transmission belts, each rotating rest gear drives each cylindrical block to rotate, each rotating cylindrical block drives each boosting multi-tooth block to rotate, and the large sound-absorbing cotton released from the discharging roller can be boosted to the cutting area under the action of all boosting multi-tooth blocks;

s4, when in order to let the removal of the big sound cotton accuracy of inhaling that gets off from the blowing roller better when tailorring the region, directly according to the size of big sound cotton of inhaling this moment, twist manual screw bolt pole, and twist manual screw bolt pole and can shift out from the inside of the thread groove that corresponds slowly, at this moment, the hand screw bolt pole that the screw thread removed can drive the connecting block through U type frame and take place to remove, and the connecting block that removes can drive the limiting plate that corresponds and remove, at this moment, the cooperation of rethread scale, directly remove suitable position with two connecting blocks, stop the twisting of manual screw bolt pole and move, the cooperation through connecting block and limiting plate promptly, let the accurate removal of big sound cotton of inhaling to tailor the region.

Compared with the prior art, the invention has the beneficial effects that:

1. the material discharging roller can be quickly replaced under the matching of the first groove, the sliding groove, the cylindrical groove, the sliding block, the limiting block, the third groove, the hydraulic rod, the fourth groove, the third rectangular block, the rectangular groove, the fourth rectangular block and the second clamping block, so that the using effect of the material discharging roller is effectively improved, the using efficiency of the material discharging roller is effectively improved, the limiting block can be automatically reset under the action of the reset spring, the material discharging roller can be driven to stably rotate under the matching of the first rectangular block, the first groove, the second rectangular block, the limiting block and the first servo motor, the reset spring can be prevented from driving the limiting block to automatically reset under the matching of the first U-shaped block, the second groove and the first clamping block, and the limiting block can be prevented from moving under the action of the fixed bolt rod;

2. under the coordination of the first cylindrical hole, the connecting rod, the second servo motor, the gear, the cylindrical block, the transmission belt, the guide roller and the boosting multi-tooth block, the large sound-absorbing cotton released from the discharging roller can be boosted to a cutting area for cutting operation, so that the using effect of the feeding machine is further improved;

3. through under the cooperation at spacing groove, U type frame, scale, thread groove, second U type piece, hand are twisted the shank of bolt, connecting block and second cylinder hole, can will greatly inhale accurate the carrying of sound cotton and tailor the region, improved the automobile-used cotton quality of inhaling of tailorring promptly effectively.

Drawings

FIG. 1 is a perspective view of a feeding machine for producing sound-absorbing cotton for vehicles according to the present invention;

fig. 2 is an enlarged perspective view of a part a in fig. 1 of a feeding machine for producing sound-absorbing cotton for vehicles according to the present invention;

FIG. 3 is a top perspective view of a feeding machine for producing sound-absorbing cotton for vehicles according to the present invention;

fig. 4 is an enlarged perspective view of a feeding machine for producing sound-absorbing cotton for vehicles in fig. 3 at B;

fig. 5 is a top perspective view of the feeding machine for producing the sound-absorbing cotton for vehicles according to the present invention;

FIG. 6 is a partial perspective view of the feeder for manufacturing the sound-absorbing cotton for vehicles according to the present invention;

fig. 7 is a schematic three-dimensional structure view of a hydraulic rod, a third rectangular block, a rectangular groove and a second clamping block of the feeding machine for producing the sound-absorbing cotton for the vehicle;

fig. 8 is a schematic three-dimensional structure diagram of a U-shaped frame, a second cylindrical hole and a scale of the feeding machine for producing the sound-absorbing cotton for vehicles according to the present invention.

In the figure:

1. a work table; 2. a limiting plate; 3. a first groove; 4. a chute; 5. a cylindrical groove; 6. a return spring; 7. a slider; 8. a limiting block; 9. a first U-shaped block; 10. a second groove; 11. a first clamping block; 12. a discharge roller; 13. a first servo motor; 14. a first rectangular block; 15. fixing a bolt bar; 16. a second rectangular block; 17. a third groove; 18. a hydraulic rod; 19. a fourth groove; 20. a third rectangular block; 21. a rectangular groove; 22. a second fixture block; 23. a guide roller; 24. a connecting rod; 25. a second servo motor; 26. a gear; 27. a cylindrical block; 28. boosting the multi-tooth block; 29. a limiting groove; 30. a U-shaped frame; 31. a scale; 32. a thread groove; 33. a second U-shaped block; 34. screwing the bolt rod by hand; 35. connecting blocks; 36. a fourth rectangular block; 37. a first cylindrical bore; 38. a second cylindrical bore.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to FIGS. 1-8: a feeding machine for producing sound-absorbing cotton for vehicles comprises a workbench 1, wherein two symmetrical first grooves 3 are formed in the top of the workbench 1, two symmetrical sliding grooves 4 are formed in the front surface of the workbench 1, the tops of the inner walls of the two sliding grooves 4 are respectively communicated with the bottoms of the inner walls of the two first grooves 3, cylindrical grooves 5 are formed in the rear surfaces of the inner walls of the two first grooves 3, return springs 6 are fixedly mounted on the inner walls of the two cylindrical grooves 5, sliding blocks 7 are respectively connected inside the two sliding grooves 4 in a sliding manner, limiting blocks 8 are respectively arranged inside the two first grooves 3, the bottoms of the two limiting blocks 8 are respectively fixed with the tops of the two sliding blocks 7, the same ends of the two return springs 6 are respectively fixedly mounted with the front surfaces of the two limiting blocks 8, first U-shaped blocks 9 are respectively fixed on the front surfaces of the two limiting blocks 8, two symmetrical second grooves 10 are formed in the top of the workbench 1, first fixture blocks 11 are movably arranged at the bottoms of the inner walls of the two second grooves 10 in a penetrating manner, a discharging roller 12 is arranged between the interiors of the two first grooves 3, a first servo motor 13 is arranged at one side of the workbench 1, a first rectangular block 14 is welded at the output end of the first servo motor 13, the other side of the first rectangular block 14 is movably embedded at one side of the discharging roller 12, fixed bolt rods 15 are movably arranged at the tops of the two limit blocks 8 in a penetrating manner, the bottom ends of the two fixed bolt rods 15 are respectively in threaded connection with the bottoms of the inner walls of the two first grooves 3, a second rectangular block 16 is arranged at the other side of the workbench 1 through bolts, third grooves 17 are respectively arranged at the two sides of the workbench 1, hydraulic rods 18 are respectively arranged at the bottoms of the inner walls of the two third grooves 17, fourth grooves 19 are respectively arranged at the bottoms of the inner walls of the sliding grooves 4, third rectangular blocks 20 are respectively arranged in the interiors of the two fourth grooves 19, the tops of the two third rectangular blocks 20 are respectively provided with two symmetrical rectangular grooves 21, a second fixture block 22 is arranged in each rectangular groove 21, the four second fixture blocks 22 are divided into two groups, the rear surfaces of the two limit blocks 8 are respectively fixed with a fourth rectangular block 36, when the discharging roller 12 needs to be replaced, the first servo motor 13 is firstly closed, then the first servo motor 13 is taken down from the workbench 1 and is pressed on the discharging roller 12, meanwhile, the two fixed bolt rods 15 are respectively taken down from the two limit blocks 8, then the two first fixture blocks 11 are respectively taken down from the insides of the two second grooves 10, then the two limit blocks 8 are respectively matched with the two sliding grooves 4 and the two sliding blocks 7 to horizontally move, at the moment, the two moving limit blocks 8 respectively drive the two first U-shaped blocks 9 to move, meanwhile, the two return springs 6 are respectively compressed and moved back to the insides of the two cylindrical grooves 5, when the two limit blocks 8 are moved to proper positions, the two return springs 6 are respectively extruded inside the two cylindrical grooves 5, at this time, the two first fixture blocks 11 are respectively directly penetrated through the insides of the two first U-shaped blocks 9 until the bottoms of the two first fixture blocks 11 are respectively inserted back to the original positions, then, the discharging roller 12 is moved to the direction of the return springs 6 for a proper distance, then, the two hydraulic rods 18 are simultaneously started, at this time, the two simultaneously started hydraulic rods 18 respectively drive the third rectangular blocks 20 to move upwards, at this time, the two moved third rectangular blocks 20 are respectively moved out of the insides of the two fourth grooves 19, and the two moved third rectangular blocks 20 respectively drive the two second fixture blocks 22 to move upwards, when the tops of the two third rectangular blocks 20 are both contacted with the outer surface of the discharging roller 12, at this moment, the discharging roller 12 is just positioned between the two groups of second fixture blocks 22, then the two hydraulic rods 18 are continuously enabled to respectively drive the two third rectangular blocks 20 to move upwards until the tops of the two third rectangular blocks 20 and the top of the workbench 1 are positioned on the same horizontal plane, then the two hydraulic rods 18 are closed, at this moment, one second fixture block 22 of each group is respectively pulled out from the insides of the two rectangular grooves 21, and the discharging roller 12 is pushed to move down from the workbench 1 to be replaced by pushing the third rectangular block 20, the fourth rectangular block 36 and the limiting block 8.

As shown in fig. 3 and fig. 5 to 7, the telescopic ends of the two hydraulic rods 18 both movably penetrate through the tops of the inner walls of the two third grooves 17, and the telescopic ends of the two hydraulic rods 18 are fixed to the bottoms of the two third rectangular blocks 20, so that the third rectangular blocks 20 can be driven to move out of the fourth grooves 19 under the action of the hydraulic rods 18.

As shown in fig. 1-3, 5 and 6, a guide roller 23 is rotatably connected between two sides of the inner wall of the workbench 1 through a first bearing, a connecting rod 24 is arranged between two sides of the inner wall of the workbench 1, and two ends of the connecting rod 24 respectively and movably penetrate through two sides of the inner wall of the workbench 1, so that two gears 26 and two boosting multi-tooth blocks 28 can be driven to rotate under the action of the connecting rod 24.

As shown in fig. 1-3, 5 and 6, a second servo motor 25 is installed on the front surface of the workbench 1, an output end of the second servo motor 25 is fixed to one end of the connecting rod 24, seven first cylindrical holes 37 are formed in two sides of the inner wall of the workbench 1 at equal intervals, a cylindrical block 27 is rotatably connected to the inside of each first cylindrical hole 37 through a second bearing, and all the cylindrical blocks 27 can be conveniently driven to rotate under the matching of the second servo motor 25, the gear 26, the boosting multi-tooth block 28, the transmission belt, the first cylindrical holes 37 and the connecting rod 24.

As shown in fig. 1, 3, 5 and 6, gears 26 are fixedly sleeved on the outer surface of each cylindrical block 27 and the outer wall of the connecting rod 24, fourteen gears 26 are divided into two groups, each group of gears 26 is in transmission connection through a transmission belt, and the outer surface of each cylindrical block 27 and the outer wall of the connecting rod 24 are fixedly sleeved with boosting multi-tooth blocks 28, so that under the cooperation of two gears 26, fourteen cylindrical blocks 27 and two transmission belts, all boosting multi-tooth blocks 28 can be driven to rotate.

As shown in fig. 1-3, fig. 5, fig. 6 and fig. 8, two sets of limiting grooves 29 are provided at the bottom of the inner wall of the workbench 1, and the number of each set of limiting grooves 29 is two, U-shaped frames 30 are movably arranged on both sides of the workbench 1, and the opposite sides of the two U-shaped frames 30 are respectively slidably connected between the insides of the two sets of limiting grooves 29, so that the U-shaped frames 30 can drive the connecting block 35 to horizontally move under the action of the limiting grooves 29.

As shown in fig. 1-3, fig. 5, fig. 6 and fig. 8, two U type frame 30's obverse surface and rear surface all inlay and are equipped with scale 31, thread groove 32 has all been seted up to workstation 1's both sides, second U type piece 33 is all installed through the screw in workstation 1's both sides, second cylinder hole 38 has all been seted up to the back of the body one side of two second U type pieces 33 mutually, the convenience is under the effect of second U type piece 33, can drag the drive belt, prevent that the tooth of drive belt and the tooth of gear 26 from breaking away from mutually, under scale 31's effect, can let U type frame 30 drive connecting block 35 carry out accurate numerical value and remove.

As shown in fig. 1 and 8, hand-threaded bolt rods 34 are rotatably connected to the insides of the two second cylindrical holes 38 through third bearings, and one ends of the two hand-threaded bolt rods 34 are screwed to the insides of the two thread grooves 32, so that the U-shaped frame 30 can be moved horizontally conveniently under the cooperation of the second cylindrical holes 38, the thread grooves 32, the limiting grooves 29 and the hand-threaded bolt rods 34.

As shown in fig. 3, 5 and 6, the top of two second U type blocks 33 all is fixed with connecting block 35, and the equal equidistance in top of two connecting blocks 35 distributes and is fixed with a plurality of limiting plates 2, and the convenience can let greatly inhale the sound cotton and carry out accurate position and remove under connecting block 35 and limiting plate 2's cooperation.

A using method of a feeding machine for producing sound-absorbing cotton for vehicles comprises the following steps:

s1, when a discharging roller 12 needs to be replaced, firstly, a first servo motor 13 is closed, then the first servo motor 13 is taken down from a workbench 1, then the first servo motor is pressed on the discharging roller 12, meanwhile, two fixed bolt rods 15 are taken down, then two first clamping blocks 11 are taken down, then two limiting blocks 8 are moved under the matching of two sliding grooves 4 and two sliding blocks 7, at the moment, the moving limiting blocks 8 can drive a first U-shaped block 9 to move, and meanwhile, a return spring 6 can be compressed and moved back to the inside of a cylindrical groove 5;

s2, when the two limiting blocks 8 move to proper positions, the first fixture block 11 directly penetrates through the first U-shaped block 9 until the bottom of the first fixture block 11 is inserted back to the original position, then the discharging roller 12 moves to the proper position, then the two hydraulic rods 18 are simultaneously started, at this time, the started hydraulic rods 18 drive the third rectangular blocks 20 to move upwards and move out of the fourth groove 19, the two moved third rectangular blocks 20 drive the two second fixture blocks 22 to move upwards, when the tops of the two third rectangular blocks 20 are in contact with the outer surface of the discharging roller 12, the discharging roller 12 is just positioned between the two groups of second fixture blocks 22, then the hydraulic rods 18 continue to drive the third rectangular blocks 20 to move upwards until the tops of the two third rectangular blocks 20 are positioned on the same horizontal plane as the top of the workbench 1, then the two hydraulic rods 18 are closed, at this time, one second fixture block 22 in each group is respectively pulled out of the two grooves 21, the discharging roller 12 can replace the rectangular blocks 20 and the workbench 1 through the fourth rectangular block 36, and the limiting blocks 36 move down from the workbench 1;

s3, when the large sound-absorbing cotton released from the discharging roller 12 is boosted to a cutting area conveniently, the second servo motor 25 is directly started at the moment, the started second servo motor 25 can drive two gears 26 and two boosting multi-tooth blocks 28 to rotate through a connecting rod 24, the two rotating gears 26 can drive the remaining gears 26 to rotate under the action of two transmission belts, each rotating remaining gear 26 can drive each cylindrical block 27 to rotate, each rotating cylindrical block 27 can drive each boosting multi-tooth block 28 to rotate, and at the moment, the large sound-absorbing cotton released from the discharging roller 12 can be boosted to the cutting area under the action of all boosting multi-tooth blocks 28;

s4, when the large sound absorption cotton released from the discharging roller 12 accurately moves to a cutting area, the hand-operated bolt rod 34 is screwed directly according to the size of the large sound absorption cotton, the hand-operated bolt rod 34 can be slowly moved out of the corresponding thread groove 32, the hand-operated bolt rod 34 in threaded movement drives the connecting block 35 to move through the U-shaped frame 30, the moving connecting block 35 can drive the corresponding limiting plate 2 to move, the two connecting blocks 35 are directly moved to proper positions through the cooperation of the scale 31, the screwing of the hand-operated bolt rod 34 is stopped, and the large sound absorption cotton accurately moves to the cutting area through the cooperation of the connecting block 35 and the limiting plate 2.

In the invention, when the discharging roller 12 needs to be replaced, the first servo motor 13 is firstly closed, then the first servo motor 13 is taken down from the workbench 1, the discharging roller 12 is pressed at the same time, the two fixed bolt rods 15 are respectively taken down from the two limit blocks 8, then the two first fixture blocks 11 are respectively taken down from the insides of the two second grooves 10, then the two limit blocks 8 are respectively matched with the two chutes 4 and the two sliding blocks 7 to horizontally move, at the moment, the two movable limit blocks 8 respectively drive the two first U-shaped blocks 9 to move, and simultaneously, the two return springs 6 are respectively compressed and moved back to the insides of the two cylindrical grooves 5, when the two limit blocks 8 are moved to proper positions, the two return springs 6 are respectively extruded into the insides of the two cylindrical grooves 5, at the moment, the two first fixture blocks 11 are directly respectively penetrated through the insides of the two first U-shaped blocks 9, until the bottoms of the two first clamping blocks 11 are respectively inserted back to the original positions, then the discharging roller 12 is moved to the direction of the return spring 6 for a proper distance, then the two hydraulic rods 18 are simultaneously started, at this time, the two hydraulic rods 18 which are simultaneously started can respectively drive the third rectangular blocks 20 to move upwards, at this time, the two third rectangular blocks 20 which are moved can respectively move out of the two fourth grooves 19, the two third rectangular blocks 20 which are moved can respectively drive the two second clamping blocks 22 to move upwards, when the tops of the two third rectangular blocks 20 are both contacted with the outer surface of the discharging roller 12, at this time, the discharging roller 12 is just positioned between the two groups of second clamping blocks 22, then the two hydraulic rods 18 can continuously drive the two third rectangular blocks 20 to move upwards respectively until the tops of the two third rectangular blocks 20 are both positioned on the same horizontal plane with the top of the workbench 1, then the two hydraulic rods 18 are closed, at the same time, one second fixture 22 in each group is respectively drawn out from the interior of two rectangular grooves 21, at the same time, the discharging roller 12 is pushed, namely, the third rectangular block 20, the fourth rectangular block 36 and the limiting block 8 are pushed, the discharging roller 12 is moved from the workbench 1 for replacement, when the large sound-absorbing cotton released from the discharging roller 12 is pushed to the cutting area for convenience, at the same time, the second servo motor 25 is directly started, the started second servo motor 25 drives two gears 26 and two boosting multi-toothed blocks 28 to rotate through the connecting rod 24, the two rotating gears 26 drive the remaining gears 26 to rotate under the action of the two boosting multi-toothed blocks 26, each rotating remaining gear 26 respectively drives each cylindrical block 27 to rotate, at the same time, each rotating cylindrical block 27 drives each boosting multi-toothed block 28 to rotate, at the same time, under the action of all boosting multi-toothed blocks 28, the large sound-absorbing cotton released from the discharging roller 12 can be directly pushed to the position of the discharging area, at the corresponding sound-absorbing cotton is moved to the cutting area through the corresponding screw rod 34, at the corresponding to move the connecting block 34, at the cutting area, at the same time, when the connecting block 35 is moved, the connecting block 35 is moved directly, the connecting block 35 is moved, and the connecting block 35 is moved again, the cutting area, and the connecting block 35 is moved to the cutting area of the cutting area, when the cutting area of the cutting bar is moved by the screw rod 35, and the cutting ruler 35, the cutting ruler for convenience, move another connecting block 35 to suitable position also, through the cooperation of two connecting blocks 35 and a plurality of limiting plate 2, let the big cotton accurate removal of inhaling sound to the area of tailorring.

The first servomotor 13, the hydraulic rod 18, and the second servomotor 25 are all prior art, and will not be explained in detail here.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides a feeder is used in cotton production of automobile-used sound of inhaling, includes workstation (1), its characterized in that: the automatic feeding device is characterized in that two symmetrical first grooves (3) are formed in the top of the workbench (1), two symmetrical sliding grooves (4) are formed in the front surface of the workbench (1), the tops of the inner walls of the two sliding grooves (4) are respectively communicated with the bottoms of the inner walls of the two first grooves (3), cylindrical grooves (5) are formed in the rear surface of the inner walls of the two first grooves (3), reset springs (6) are fixedly installed on the inner walls of the two cylindrical grooves (5), sliding blocks (7) are respectively connected inside the two sliding grooves (4) in a sliding manner, limiting blocks (8) are respectively arranged inside the two first grooves (3), the bottoms of the two limiting blocks (8) are respectively fixed with the tops of the two sliding blocks (7), the same ends of the two reset springs (6) are respectively fixedly installed with the front surfaces of the two limiting blocks (8), first U-shaped blocks (9) are respectively fixed on the front surfaces of the two limiting blocks (8), two symmetrical second grooves (10) are respectively fixedly installed on the same ends of the inner walls of the two limiting blocks (8), a first groove (13) is movably welded between the two first grooves (3), and a first motor (13) is arranged on one side of the first groove (13), and the other side activity of first rectangle piece (14) inlays and establishes one side in blowing roller (12), two the top of stopper (8) is all movable to run through fixed bolt pole (15), two the bottom of fixed bolt pole (15) is threaded connection respectively in the inner wall bottom of two first recesses (3), second rectangle piece (16) are installed through the bolt to the opposite side of workstation (1), third recess (17) have all been seted up to the both sides of workstation (1), two hydraulic stem (18) are all installed to the inner wall bottom of third recess (17), fourth recess (19) have all been seted up to the inner wall bottom of spout (4), two the inside of fourth recess (19) all is provided with third rectangle piece (20), two symmetrical rectangular channels (21) have all been seted up to the top of third rectangle piece (20), every the inside of rectangular channel (21) all is provided with second fixture block (22), four second fixture block (22) divide into two sets altogether, and the rear surface of stopper (8) is fixed with fourth rectangle piece (36).

2. The feeder of claim 1, wherein: the telescopic ends of the two hydraulic rods (18) penetrate through the tops of the inner walls of the two third grooves (17) in a movable mode, and the telescopic ends of the two hydraulic rods (18) are fixed to the bottoms of the two third rectangular blocks (20) respectively.

3. The feeder of claim 1, wherein: the guide roller (23) is rotatably connected between two sides of the inner wall of the workbench (1) through a first bearing, a connecting rod (24) is arranged between two sides of the inner wall of the workbench (1), and two ends of the connecting rod (24) respectively movably penetrate through two sides of the inner wall of the workbench (1).

4. The feeder is used in cotton production of automobile-used sound absorption of claim 3, characterized in that: the front surface of the workbench (1) is provided with a second servo motor (25), the output end of the second servo motor (25) is fixed to one end of the connecting rod (24), seven first cylindrical holes (37) are formed in two sides of the inner wall of the workbench (1) in an equal distance distribution mode, and each first cylindrical hole (37) is connected with a cylindrical block (27) in a rotating mode through a second bearing.

5. The feeder of claim 4, wherein: the outer surface of each cylindrical block (27) and the outer wall of each connecting rod (24) are fixedly sleeved with gears (26), fourteen gears (26) are divided into two groups, each group of gears (26) are in transmission connection through a transmission belt, and the outer surface of each cylindrical block (27) and the outer wall of each connecting rod (24) are fixedly sleeved with boosting multi-tooth blocks (28).

6. The feeder is used in cotton production of automobile-used sound absorption of claim 1, characterized in that: two sets of spacing groove (29) have been seted up to the inner wall bottom of workstation (1), and the quantity of every group spacing groove (29) is two, the both sides equal activity of workstation (1) is run through there are U type frame (30), and sliding connection is between the inside of two sets of spacing groove (29) respectively in one side relatively of two U type frames (30).

7. The feeder of claim 6, wherein: two scale (31) have all been inlayed to the positive surface and the rear surface of U type frame (30), thread groove (32) have all been seted up to the both sides of workstation (1), second U type piece (33), two are all installed through the screw in the both sides of workstation (1) second cylinder hole (38) have all been seted up to the mutually opposite side of second U type piece (33).

8. The feeder of claim 7, wherein: the insides of the two second cylindrical holes (38) are rotatably connected with hand-screwed bolt rods (34) through third bearings, and one ends of the two hand-screwed bolt rods (34) are in threaded connection with the insides of the two thread grooves (32).

9. The feeder of claim 7, wherein: two the top of second U type piece (33) all is fixed with connecting block (35), two the equal equidistance distribution in top of connecting block (35) is fixed with a plurality of limiting plates (2).

10. A method for using a feeder for producing sound-absorbing cotton for a vehicle, which is characterized in that the feeder for producing sound-absorbing cotton for a vehicle of any one of claims 1 to 9 is used, and comprises the following steps:

s1, when a discharging roller (12) needs to be replaced, firstly closing a first servo motor (13), then taking down the first servo motor (13) from a workbench (1), pressing the discharging roller (12) at the same time, simultaneously taking down two fixed bolt rods (15), then taking down two first clamping blocks (11), and then moving two limiting blocks (8) under the matching of two sliding grooves (4) and two sliding blocks (7), wherein the moving limiting blocks (8) can drive a first U-shaped block (9) to move, and meanwhile, a reset spring (6) can be compressed and moved back to the inside of a cylindrical groove (5);

s2, when the two limiting blocks (8) move to proper positions, the first fixture block (11) directly penetrates through the inside of the first U-shaped block (9) until the bottom of the first fixture block (11) is inserted back to the original position, then the discharging roller (12) moves to the proper position, then the two hydraulic rods (18) are started simultaneously, the started hydraulic rods (18) drive the third rectangular block (20) to move upwards and move out of the fourth groove (19), the two moving third rectangular blocks (20) drive the two second fixture blocks (22) to move upwards simultaneously, when the tops of the two third rectangular blocks (20) are in contact with the outer surface of the discharging roller (12), the discharging roller (12) is just positioned between the two groups of second fixture blocks (22), then the hydraulic rods (18) continue to drive the third rectangular blocks (20) to move upwards until the tops of the two third rectangular blocks (20) and the top of the workbench (1) are positioned on the same horizontal plane, then the two hydraulic rods (18) are closed, the two hydraulic rods (18) drive the third rectangular blocks (20) to move upwards and move downwards from the interiors of the rectangular blocks (22) respectively, and the four rectangular blocks (20) are removed from the workbench (1), and the four rectangular grooves (36) can be replaced, and then the four rectangular blocks (18) can be replaced by the rectangular blocks (12);

s3, when the large sound-absorbing cotton released from the discharging roller (12) is boosted to a cutting area conveniently, the second servo motor (25) is directly started at the moment, the started second servo motor (25) can drive two gears (26) and two boosting multi-tooth blocks (28) to rotate through a connecting rod (24), the two rotating gears (26) can drive the rest gears (26) to rotate under the action of two transmission belts, each rotating remaining gear (26) can drive each cylindrical block (27) to rotate, each rotating cylindrical block (27) can drive each boosting multi-tooth block (28) to rotate, and at the moment, the large sound-absorbing cotton released from the discharging roller (12) can be boosted to the cutting area under the action of all boosting multi-tooth blocks (28);

s4, when the large sound-absorbing cotton released from the discharging roller (12) accurately moves to a cutting area, the manual screwing bolt rod (34) is screwed directly according to the size of the large sound-absorbing cotton, the screwed manual screwing bolt rod (34) can be slowly moved out of the corresponding thread groove (32), the manual screwing bolt rod (34) in threaded movement can drive the connecting block (35) to move through the U-shaped frame (30), the moving connecting block (35) can drive the corresponding limiting plate (2) to move, and the two connecting blocks (35) are directly moved to proper positions through the matching of the scale (31), the screwing of the manual screwing bolt rod (34) is stopped, namely the large sound-absorbing cotton is accurately moved to the cutting area through the matching of the connecting block (35) and the limiting plate (2).

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