CN111318346A

CN111318346A - Waste textile fabric recovery device

Info

Publication number: CN111318346A
Application number: CN202010237185.3A
Authority: CN
Inventors: 马赞波
Original assignee: Qingdao Longtaike Garment Co ltd
Current assignee: Changshu Golden Rabbit Non Woven Products Co ltd
Priority date: 2020-03-30
Filing date: 2020-03-30
Publication date: 2020-06-23
Anticipated expiration: 2040-03-30
Also published as: CN111318346B

Abstract

The invention discloses a waste textile fabric recovery device which comprises a machine body, wherein a cutting mechanism is arranged in the machine body, the cutting mechanism comprises a trigger cavity positioned at the front end in the machine body, cams are symmetrically arranged in the trigger cavity in a left-right mode, arc-shaped blocks are symmetrically arranged between the cams, the arc-shaped blocks are connected through a first spring, the rear end of the trigger cavity is communicated with an open slot, the rear end of the open slot is communicated with a cutting cavity, fixed columns are fixed on the upper end wall and the lower end wall in the cutting cavity, textile fabric is bumped, sewage flows away, finally the sewage is discharged, a box body borne by the opening device is pulled by the opening device, and the textile fabric is taken out and transported to obtain clean textile fabric, so that the burden of subsequent processing is reduced.

Description

Waste textile fabric recovery device

Technical Field

The invention relates to the technical field of textile correlation, in particular to a waste textile fabric recovery device.

Background

The weaving original meaning is a general name taken from spinning and weaving, but with the continuous development and perfection of a weaving knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the fabrics for clothing, industry and decoration produced by the traditional hand spinning and weaving, non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-net technology and the like are not only produced, so the modern weaving refers to a multi-scale structure processing technology of fibers or fiber aggregates, ancient weaving and printing and dyeing technology in China has a very long history, ancient weaving and printing technologies in the original society period, ancient people have understood to use local materials for adapting to the change of climate, natural resources are used as raw materials for weaving and printing and dyeing, and simple hand weaving tools are manufactured, and clothing, safety airbags and curtain carpets in daily life are all products of the weaving and printing and dyeing technology, the worn and old textile clothes can be generated along with the updating of the wearing, so that the waste textile clothes need to be recovered, the existing recovery device mainly uses the crushing, and the recovered textile clothes are collected and transported after being crushed once, so that the transportation consumption is reduced, the complex condition can be generated in the subsequent processing, and meanwhile, the environment can be polluted by transporting the uncleaned clothes for a long time.

Disclosure of Invention

Aiming at the technical defects, the invention provides a waste textile fabric recovery device which can overcome the defects.

The invention relates to a waste textile fabric recovery device, which comprises a machine body, wherein a cutting mechanism is arranged in the machine body, the cutting mechanism comprises a trigger cavity positioned at the front end in the machine body, cams are symmetrically arranged in the trigger cavity in the left and right directions, arc-surface blocks are symmetrically arranged between the cams, the arc-surface blocks are connected through a first spring, the rear end of the trigger cavity is communicated with an open slot, the rear end of the open slot is communicated with a cutting cavity, fixed columns are fixed on the upper end wall and the lower end wall in the cutting cavity, two crossed cutters are vertically arranged and rotatably installed in the middle of the fixed columns, the rear ends of the cutters extend into the trigger cavity through the open slot and are fixedly connected with the arc-surface blocks, the upper end of the cutting cavity is communicated with a through hole groove with an upward opening and communicated with the outside of the machine body, a rotating cavity is arranged at the front, extend to behind the connecting shaft connect the intracavity with cam fixed connection, the left side the connecting axle extends to forward rotate intracavity and fixed mounting have first belt pulley, the right side the connecting axle extends to forward rotate intracavity and fixed mounting have the second belt pulley, first belt pulley with the second belt pulley is connected through first belt cross winding power, second belt pulley rear end is equipped with fixes on the right side connect epaxial third belt pulley, it has broken chamber to tailor chamber lower extreme intercommunication, broken intracavity is equipped with broken mechanism, broken chamber lower extreme and intercommunication have the chamber of jolting, it is equipped with the mechanism of jolting to jolting the intracavity, it is equipped with the aqua storage tank to jolt the chamber left and right sides both ends symmetry, be equipped with clean mechanism in the aqua storage tank.

Preferably, the crushing mechanism comprises a roller which is rotatably installed in the crushing cavity and is bilaterally symmetrical, crushing knives which are mutually meshed are fixed on the roller, a driving cavity is arranged at the front end of the crushing cavity, a power shaft which is arranged between the driving cavity and the crushing cavity and is bilaterally symmetrical and rotatably installed with a front shaft and a rear shaft, the power shaft is axially extended to the rear end of the crushing cavity and is fixedly connected with the roller, the power shaft is forwardly extended to the driving cavity and is fixedly installed with gears which are meshed with each other, the front end of the gear at the left side is provided with a motor which is fixed on the front end wall of the driving cavity and is in power connection with the power shaft, the front end of the gear at the right side is provided with a fourth belt pulley which is fixed on the power shaft at the right side, the front end of the fourth belt pulley is provided with a fifth belt pulley which is fixed on the power, a first groove for the second belt to pass through is arranged between the driving cavity and the rotating cavity.

Preferably, the bumping mechanism comprises fixed blocks which are fixedly arranged on the lower end wall of the bumping cavity and are bilaterally symmetrical, a sliding groove with an opening upwards communicated with the bumping cavity is arranged in each fixed block, a second spring is fixed on the lower end wall of the sliding groove, a sliding block in sliding fit with the end wall of the sliding groove is fixed at the upper end of the second spring, a sliding rail is fixed at the upper end of the sliding block, the sliding rails are all slidably arranged at the bottom of the bearing block, a storage groove with an opening upwards communicated with the bumping cavity is arranged in the bearing block, the communication positions of the storage groove, the bumping cavity and the crushing cavity are as large as each other, so that crushed waste textile cloth can fall off conveniently, through holes for water flowing are arranged on the bearing block, partial gears can be meshed at the outer ends of the sliding blocks, a driven cavity is arranged at the front end of the bumping cavity, and a rotating shaft which extends, extend to behind the rotation axis the intracavity with partial gear fixed connection, the left side the slave drive chamber extends to forward slave drive intracavity and fixed mounting have a sixth belt pulley, the right side the slave drive chamber extends to forward slave drive intracavity and fixed mounting have a seventh belt pulley, the seventh belt pulley with the fourth belt pulley passes through third belt power and connects, the drive chamber with be equipped with the confession between the slave drive chamber the second recess that the third belt passed, seventh belt pulley front end is equipped with fixes on the right side epaxial eighth belt pulley of rotation, the eighth belt pulley with the sixth belt pulley passes through fourth belt cross winding power and connects, it is equipped with the eduction gear who is used for discharging sewage to pitch intracavity rear end.

Preferably, the cleaning mechanism comprises a rubber plug which is slidably installed at the outer end of the water storage tank and used for sealing, a water pipe is arranged in the water storage tank, the upper end of the water pipe is connected with a water pumping device which is fixed on the upper end wall of the water storage tank, and the inner side of the water pumping device is connected with a spray head which extends into the bumping cavity.

The beneficial effects are that: the waste textile fabric cutting device is simple in structure, waste textile fabrics are cut by the flying shears which work intermittently during working, burden is reduced for subsequent processing, the waste textile fabrics are crushed by the cutters which are staggered with each other subsequently to achieve fine textile fabrics, then the waste textile fabrics are cleaned, and then the waste textile fabrics are lifted and fall freely to enable the springs to jump repeatedly and bump the textile fabrics, so that sewage flows away, finally the sewage is discharged, the box body which is loaded is pulled by the opening device, and the clean textile fabrics are obtained after being taken out and transported, so that burden is reduced for the subsequent processing, and the waste textile fabrics are more convenient.

Drawings

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

FIG. 1 is a schematic structural diagram of a recycling apparatus for waste textiles according to the present invention;

FIG. 2 is a schematic structural view taken at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 1 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The waste textile fabric recovery device comprises a machine body 10, wherein a cutting mechanism for cutting waste textile fabric into sections is arranged in the machine body 10, the cutting mechanism comprises a trigger cavity 12 positioned at the front end inside the machine body 10, cams 11 are symmetrically arranged in the trigger cavity 12 in a left-right mode, arc-shaped blocks 13 are symmetrically arranged between the cams 11, the arc-shaped blocks 13 are connected through a first spring 14, the rear end of the trigger cavity 12 is communicated with an open slot 33, the rear end of the open slot 33 is communicated with a cutting cavity 31, fixed columns 32 are fixed on the upper end wall and the lower end wall inside the cutting cavity 31, two crossed cutters 30 are rotatably arranged in the middle of the fixed columns 32 in an up-and-down mode, the rear ends of the cutters 30 penetrate through the open slot 33 and extend into the trigger cavity 12 to be fixedly connected with the arc-shaped blocks 13, the upper end of the cutting cavity 31 is communicated with a through hole slot 15 with the outside the machine body 10, the front end of the trigger cavity 12 is provided with a rotating cavity 39, the left side and the right side of the trigger cavity 12 are symmetrically rotated and provided with a connecting shaft 40 extending forwards and backwards, the connecting shaft 40 extends backwards into the trigger cavity 12 and is fixedly connected with the cam 11, the left side of the trigger cavity is provided with a first belt pulley 38 extending forwards into the rotating cavity 39 and is fixedly provided with a second belt pulley 35, the right side of the trigger cavity 40 extends forwards into the rotating cavity 39 and is fixedly provided with a second belt pulley 35, the first belt pulley 38 and the second belt pulley 35 are connected through a first belt 37 in a cross winding power mode, the rear end of the second belt pulley 35 is provided with a third belt pulley 36 fixed on the right side of the connecting shaft 40, the lower end of the cutting cavity 31 is communicated with a crushing cavity 17, a crushing mechanism used for crushing textile fabric into fine fabric shapes is arranged in the crushing cavity 17, and the lower end of the crushing cavity 17 is communicated with, the waste textile fabric cleaning device is characterized in that a bumping mechanism for bumping and crushing waste textile fabrics is arranged in the bumping cavity 57, water storage tanks 19 are symmetrically arranged at the left end and the right end of the bumping cavity 57, and cleaning mechanisms for spraying cleaning water are arranged in the water storage tanks 19.

Advantageously, the crushing mechanism comprises a roller 55 which is rotatably mounted in the crushing cavity 17 and is bilaterally symmetrical, crushing blades 56 which are mutually engaged are fixed on the roller 55, a driving cavity 48 is arranged at the front end of the crushing cavity 17, a power shaft 54 which extends forwards and backwards is rotatably mounted between the driving cavity 48 and the crushing cavity 17 in a bilaterally symmetrical mode, the power shaft 54 extends backwards into the crushing cavity 17 and is fixedly connected with the roller 55, the power shaft 54 extends forwards into the driving cavity 48 and is fixedly provided with a gear 52 which is mutually engaged, a motor 53 which is fixed on the front end wall of the driving cavity 48 and is in power connection with the power shaft 54 is arranged at the front end of the gear 52 at the left side, a fourth belt pulley 50 which is fixed on the power shaft 54 at the right side is arranged at the front end of the gear 52 at the right side, a fifth belt pulley 51 which is fixed on the power shaft 54 at the right side is arranged at, the fifth belt pulley 51 is in power connection with the third belt pulley 36 through the second belt 34, and a first groove for the second belt 34 to pass through is arranged between the driving cavity 48 and the rotating cavity 39.

Beneficially, the bumping mechanism comprises fixed blocks 46 which are fixedly mounted on the lower end wall of the bumping cavity 57 and are bilaterally symmetrical, a sliding groove 25 with an opening upwards communicated with the bumping cavity 57 is arranged in each fixed block 46, a second spring 22 is fixed on the lower end wall of each sliding groove 25, a sliding block 24 which is in sliding fit with the end wall of each sliding groove 25 is fixed at the upper end of each second spring 22, a sliding rail 23 is fixed at the upper end of each sliding block 24, the sliding rails 23 are all slidably mounted at the bottom of a bearing block 21, a storage groove 20 with an opening upwards communicated with the bumping cavity 57 is arranged in each bearing block 21, the communicated part of each storage groove 20, the bumping cavity 57 and the crushing cavity 17 is as large as one another, accordingly, broken waste textile fabrics fall off conveniently, through holes for water flowing are formed in each bearing block 21, partial gears 26 can be meshed at the outer ends of the sliding blocks 24, a driven cavity 42, the left and right symmetrical rotation between the driven cavity 42 and the bumping cavity 57 is provided with a rotation shaft 41 extending forwards and backwards, the rotation shaft 41 extends backwards to the inside of the bumping cavity 57 and is fixedly connected with a part of the gears 26, the left side of the driven cavity 42 extends forwards to the inside of the driven cavity 42 and is fixedly provided with a sixth belt pulley 16, the right side of the driven cavity 42 extends forwards to the inside of the driven cavity 42 and is fixedly provided with a seventh belt pulley 44, the seventh belt pulley 44 and the fourth belt pulley 50 are in power connection through a third belt 49, a second groove for the third belt 49 to pass through is arranged between the driving cavity 48 and the driven cavity 42, the front end of the seventh belt pulley 44 is provided with an eighth belt pulley 45 fixed on the right side of the rotation shaft 41, and the eighth belt pulley 45 and the sixth belt pulley 16 are in cross winding power connection through a fourth belt 43, a discharge device 47 for discharging sewage is provided at the rear end in the bumping chamber 57.

Advantageously, the cleaning mechanism comprises a rubber plug 18 slidably mounted at the outer end of the water storage tank 19 for sealing, a water pipe 28 is arranged in the water storage tank 19, the upper end of the water pipe 28 is connected with a water pumping device 29 fixed at the upper end wall of the water storage tank 19, and a spray head 27 extending into the bumping cavity 57 is connected to the inner side of the water pumping device 29.

In the initial state, the cam 11 does not contact the arc surface block 13, the first spring 14 is compressed, the second spring 22 is stretched, the sliding block 24 is positioned at the lower end of the sliding groove 25, and part of the gear 26 is not meshed with the sliding block 24;

when the cutting machine starts to work, the motor 53 is started, the left power shaft 54 drives the right gear 52 to rotate through the left gear 52, so that the right power shaft 54 rotates, the fifth belt pulley 51 drives the third belt pulley 36 to rotate through the second belt 34, the third belt pulley 36 drives the right connecting shaft 40 to rotate, so that the second belt pulley 35 drives the first belt pulley 38 to rotate through the first belt 37, so that the left connecting shaft 40 rotates, the cam 11 starts to contact with the cambered surface block 13, the cambered surface block 13 is pushed to compress the first spring 14, the cutter 30 rotates inwards around the fixed column 32, so that cutting is performed, the cut waste placing cloth enters the crushing cavity 17, the roller 55 drives the crushing cutter 56 to rotate due to the rotation of the power shaft 54, so that the waste cloth is crushed and enters the storage groove 20, because the power shaft 54 rotates, the fourth belt pulley 50 drives the seventh belt pulley 44 to rotate through the third belt 49, thereby the right side axis of rotation 41 rotates, make eighth belt pulley 45 drive the rotation of sixth belt pulley 16 through fourth belt 43, thereby left side axis of rotation 41 rotates, make axis of rotation 41 drive partial gear 26 meshing, thereby sliding block 24 stretches second spring 22 and drives slide rail 23 and upwards shift, slide rail 23 bears the weight of the carrier block 21 and shifts up, after partial gear 26 breaks away from sliding block 24, second spring 22 resets and drives slide block 24 and move down, thereby slide rail 23 drives carrier block 21 and moves down, make broken textile fabric take place to jolt, thereby wash, open pouring into of water in 18 injected water of plug to the aqua storage tank 19 through pumping device 29, from shower nozzle 27 is spouted, thereby provide clean water, the sewage that produces is discharged outside organism 10 by eduction gear 47.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a waste textile fabric recovery unit, includes the organism, its characterized in that: the cutting mechanism is arranged in the machine body and comprises a trigger cavity positioned at the front end in the machine body, cams are symmetrically arranged in the trigger cavity in the left-right direction, arc blocks are symmetrically arranged between the cams and connected through a first spring, the rear end of the trigger cavity is communicated with an open slot, the rear end of the open slot is communicated with a cutting cavity, fixed columns are fixed on the upper end wall and the lower end wall in the cutting cavity, two crossed cutters are arranged and rotatably installed in the middle of the fixed columns in the up-down direction, the rear ends of the cutters penetrate through the open slot and extend into the trigger cavity to be fixedly connected with the arc blocks, the upper end of the cutting cavity is communicated with a through hole groove with an opening upwards communicated with the outside of the machine body, a rotating cavity is arranged at the front end of the trigger cavity, connecting shafts extending forwards and backwards are rotatably installed between the trigger cavity in the left-right direction and the trigger, the left side the connecting axle extends forward rotate intracavity and fixed mounting have first belt pulley, the right side the connecting axle extends forward rotate intracavity and fixed mounting have the second belt pulley, first belt pulley with the second belt pulley is connected through first belt cross winding power, the second belt pulley rear end is equipped with fixes the right side connect epaxial third belt pulley, it has broken chamber to tailor chamber lower extreme intercommunication, broken intracavity is equipped with broken mechanism, broken chamber lower extreme and intercommunication have the chamber of jolting, it is equipped with the mechanism of jolting to jolt the intracavity, it is equipped with the aqua storage tank to jolt the chamber left and right sides both ends symmetry, be equipped with clean mechanism in the aqua storage tank.

2. The recycling device for waste textiles according to claim 1, characterized in that: the crushing mechanism comprises rollers which are rotatably installed in the crushing cavity and are bilaterally symmetrical, crushing cutters which are mutually meshed are fixed on the rollers, a driving cavity is arranged at the front end of the crushing cavity, a power shaft which extends from front to back is rotatably installed between the driving cavity and the crushing cavity in a bilaterally symmetrical manner, the power shaft extends backwards into the crushing cavity and is fixedly connected with the rollers, the power shaft extends forwards into the driving cavity and is fixedly provided with gears which are meshed with each other, the front end of the gear at the left side is provided with a motor which is fixed on the front end wall of the driving cavity and is in power connection with the power shaft, the front end of the gear at the right side is provided with a fourth belt pulley which is fixed on the power shaft at the right side, the front end of the fourth belt pulley is provided with a fifth belt pulley which is fixed on the power shaft at the right side, and the fifth belt, a first groove for the second belt to pass through is arranged between the driving cavity and the rotating cavity.

3. The recycling device for waste textiles according to claim 2, characterized in that: the jolting mechanism comprises fixed blocks which are fixedly arranged on the lower end wall of the jolting cavity and are bilaterally symmetrical, a sliding groove with an opening upwards communicated with the jolting cavity is arranged in each fixed block, a second spring is fixed on the lower end wall of each sliding groove, a sliding block which is in sliding fit with the end wall of each sliding groove is fixed at the upper end of each second spring, a sliding rail is fixed at the upper end of each sliding block, the sliding rails are all slidably arranged at the bottom of a bearing block, a storage groove with an opening upwards communicated with the jolting cavity is arranged in each bearing block, the communication positions of the storage groove, the jolting cavity and the crushing cavity are equal in size, so that crushed waste textile cloth can conveniently fall off, through holes for water flowing are formed in each bearing block, partial gears can be meshed at the outer end of each sliding block, a driven cavity is arranged at the front end of the jolting cavity, extend to behind the rotation axis the intracavity with partial gear fixed connection, the left side the slave drive chamber extends to forward slave drive intracavity and fixed mounting have a sixth belt pulley, the right side the slave drive chamber extends to forward slave drive intracavity and fixed mounting have a seventh belt pulley, the seventh belt pulley with the fourth belt pulley passes through third belt power and connects, the drive chamber with be equipped with the confession between the slave drive chamber the second recess that the third belt passed, seventh belt pulley front end is equipped with fixes on the right side epaxial eighth belt pulley of rotation, the eighth belt pulley with the sixth belt pulley passes through fourth belt cross winding power and connects, it is equipped with the eduction gear who is used for discharging sewage to pitch intracavity rear end.

4. The recycling device for waste textiles according to claim 3, characterized in that: the cleaning mechanism comprises a rubber plug which is slidably installed at the outer end of the water storage tank and used for sealing, a water pipe is arranged in the water storage tank, the upper end of the water pipe is connected with a water pumping device which is fixed on the upper end wall of the water storage tank, and the inner side of the water pumping device is connected with a spray head which extends to the bumping cavity.