CN217570120U - Waste recovery device for polyamide fiber material - Google Patents

Waste recovery device for polyamide fiber material Download PDF

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Publication number
CN217570120U
CN217570120U CN202221530185.3U CN202221530185U CN217570120U CN 217570120 U CN217570120 U CN 217570120U CN 202221530185 U CN202221530185 U CN 202221530185U CN 217570120 U CN217570120 U CN 217570120U
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polyamide fiber
electric telescopic
stirring
waste
filter
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CN202221530185.3U
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Chinese (zh)
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王建芳
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Haining Changshun Chemical Fiber Co ltd
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Haining Changshun Chemical Fiber Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

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Abstract

The utility model provides a polyamide fiber material's waste recovery device's sizing apparatus belongs to polyamide fiber production technical field. The method solves the problem that the existing waste polyamide fiber material is not fine enough for crushing because of the incomplete filter pressing. This polyamide fiber material's waste recovery device, the middle part of casing is provided with spacing post, still be provided with the filter-pressing board between spacing post and the rabbling mechanism, the quantity of filter-pressing board has two, the filter-pressing board passes through the hydraulic stem and is connected on the casing with hydraulic drive ware, the middle part of casing still is provided with electric telescopic handle, thereby and electric telescopic handle can support and lean on spacing post to seal casing upper portion, electric telescopic handle still is equipped with the water storage storehouse with shells inner wall's junction, still be provided with under electric telescopic handle and can be to the kibbling rubbing crusher structure of old and useless polyamide fiber. The filter pressing efficiency and the quality of the waste polyamide fiber are improved, and the stability of the crushed waste polyamide fiber is improved.

Description

Waste recovery device for polyamide fiber material
Technical Field
The utility model belongs to the technical field of the polyamide fiber production, a waste recovery device of polyamide fiber material is related to.
Background
The existing polyamide fiber has the advantages of high modulus, high strength, good elasticity, good shape retention property and heat resistance and the like, is one of fiber varieties with the widest application range and the largest use amount, however, when the existing waste polyamide fiber recovery device recovers the waste polyamide fiber, the waste polyamide fiber is not finely crushed due to the fact that the waste polyamide fiber and the waste polyamide fiber are not extruded, the subsequent use of the polyamide fiber is inconvenient, the quality of the polyamide fiber is affected, and the existing working condition is difficult to meet.
Disclosure of Invention
The utility model aims at the above-mentioned problem that prior art exists, provide a compact structure and stable strong high elasticity acid and alkali-resistance dacron fibre, through carrying out the filter-pressing dehydration with old and useless waste material polyamide fibre earlier, smash the operation after filtering to increase the stability of smashing old and useless waste material polyamide fibre.
The purpose of the utility model can be realized by the following technical proposal:
the utility model provides a polyamide fiber material's waste recovery device, includes the casing, its characterized in that still including setting up the rabbling mechanism on casing upper portion, the middle part of casing is provided with spacing post, still be provided with the filter-pressing board between spacing post and the rabbling mechanism, the quantity of filter-pressing board has two, and two filter-pressing board slope symmetries set up inside the casing, the filter-pressing board passes through the hydraulic stem and is connected on the casing with hydraulic drive ware, the middle part of casing still is provided with electric telescopic handle, and electric telescopic handle can support and lean on spacing post thereby sealed casing upper portion, electric telescopic handle still is equipped with the retaining storehouse with shells inner wall's junction, still be provided with under electric telescopic handle and can be to the kibbling rubbing crusher structure of old and useless polyamide fiber.
The upper portion of casing still is equipped with rabbling mechanism, the middle part of casing still is provided with spacing post, the both sides of spacing post still are provided with the filter-pressing board, the filter-pressing board passes through the hydraulic stem and is connected on the casing with hydraulic drive, electric telescopic handle sets up the lower part at the filter-pressing board, and electric telescopic handle can support and lean on spacing post thereby seal casing upper portion filter-pressing board department, can effectually prevent to be located the waste polyamide fibre on casing upper portion and directly drop to the casing lower part, make two filter-pressing board phase limit post departments be close to through hydraulic stem and hydraulic drive, and the lower part of two filter-pressing boards supports and leans on spacing post, thereby form a cavity that is the V-arrangement, waste polyamide fibre carries to two filter-pressing boards after being stirred through casing upper portion rabbling mechanism and is in the cavity that is the V-arrangement, through hydraulic stem and hydraulic drive, can carry out the filter-pressing to waste polyamide fibre in the cavity of V-arrangement, the liquid that is got out by electric telescopic handle, and make the liquid that is got out by the filter-pressing can carry out in the transport to the water storage storehouse, then electric telescopic handle stretches out, make electric telescopic handle keep away from spacing post, two filter-pressing boards break away from each other cavity that two filter-pressing fibre breaks the effect of wet filter-pressing efficiency, make the waste polyamide fibre carry out the crushing effect of crushing and waste polyamide fibre to the effect of crushing, the effect of carrying out the crushing of the effect of crushing of the waste polyamide fibre under the effect of carrying out, the crushing.
In foretell polyamide fiber material's waste recovery device, rubbing crusher constructs including the driver, still inlay on the casing is inside and be equipped with rolling bearing, the lower part of casing still is provided with the dwang, the dwang level sets up, and the one end of dwang is connected with the driver, and in the rolling bearing on the casing was connected to the other end, still be connected with the puddler on the dwang, the puddler sets up perpendicularly on the dwang, and the end connection of puddler has the cutting knife.
Dwang level sets up the lower part at the casing, rolling bearing and dwang on the driver and the shells inner wall are located same axis on-line, dwang one end is connected with the output of driver, the other end inlays to be established on rolling bearing, through the driver drive, can make the dwang rotatory, still be connected with the puddler on the dwang, the end connection of puddler has the cutting knife, the dwang rotation can drive the cutting knife on puddler and the puddler tip, can smash the operation to the old and useless polyamide fibre that the filter-pressing that drops from casing upper portion was accomplished, kibbling quality and kibbling efficiency have been improved.
In foretell polyamide fiber material's waste recovery device, hydraulic drive links firmly the outer wall at the casing, the hydraulic stem includes hydraulic stem one and hydraulic stem two, hydraulic stem one is connected respectively at the both ends of filter-pressing board with the hydraulic stem two, drive unit, hydraulic stem one, two drive unit of hydraulic stem two formation, two all be connected with drive unit on the filter-pressing board, two drive unit synchronous drive filter-pressing boards can make two filter-pressing boards be close to mutually, the upper portion of spacing post still seted up with filter-pressing board assorted confession filter-pressing board lower part support the contact site who leans on, the filter-pressing board is last still to have seted up the local filter-pressing hole of matrix.
The first hydraulic rod and the second hydraulic rod are respectively connected to two ends of the press-filtering plate, the first hydraulic rod and the second hydraulic rod are connected with the hydraulic driver, the first hydraulic rod and the second hydraulic rod can be driven by the hydraulic driver, the first hydraulic rod and the second hydraulic rod are driven by the hydraulic drivers on two sides synchronously, the two inclined press-filtering plates are close to the limiting column synchronously, when the lower portions of the two press-filtering plates abut against a contact portion on the limiting column synchronously, the two press-filtering plates and the limiting column form a V-shaped cavity to be press-filtered, waste polyamide fibers can be added into the press-filtering cavity, after adding is completed, the first hydraulic drivers on two sides drive the first hydraulic rods synchronously, the upper portions of the two press-filtering plates slowly approach, waste polyamide fibers in the press-filtering cavity are press-filtered, liquid in the waste polyamide fibers can be extruded and discharged through press-filtering holes, press-filtering efficiency and quality can be improved, press-filtering stability is improved, and after press-filtering is completed, the first hydraulic rod drives the first hydraulic rods synchronously, the two press-filtering plates are reset to form the V-filtering cavities to be press-filtered, and the first hydraulic rods and the second hydraulic rods are driven synchronously, and enable the two hydraulic rods to move in a same inclination shape.
In foretell polyamide fiber material's waste recovery device, electric telescopic handle's quantity has two, and two electric telescopic handle slope symmetry respectively sets up the both sides at spacing post, the quantity in retaining storehouse also has two to link firmly in shells inner wall's both sides, two electric telescopic handle's tip is connected respectively in corresponding retaining storehouse, electric telescopic handle's cross-section is the U-shaped, and electric telescopic handle is linked together with the retaining storehouse, electric telescopic handle's tip and spacing post's surface phase-match.
The two electric telescopic rods are respectively and symmetrically arranged at two sides of the limiting post in an inclined manner, the end parts of the electric telescopic rods are connected to the bottom of the water storage bin, the cross section of each electric telescopic rod is U-shaped, the electric telescopic rods are communicated with the water storage bin and can be used for conveniently receiving and taking liquid coming out from filter pressing plates for filter pressing of waste polyamide fibers, the electric telescopic rods are arranged in an inclined manner and can play a role in guiding flow, the liquid brought out by filter pressing can be conveyed into the water storage bin conveniently, meanwhile, the electric telescopic rods can be driven by a driver arranged in the water storage bin to stretch along the length direction of the electric telescopic rods, when the electric telescopic rods stretch out, the electric telescopic rods can abut against the limiting post and play a role in cutting off the upper part and the lower part of the shell, the waste polyamide fibers which are not subjected to filter pressing and are positioned at the upper part can be effectively prevented from directly falling to a crushing mechanism at the lower part of the shell, when the electric telescopic rods stretch back into the water storage tank, so that the upper part and the lower part of the shell are opened, the waste polyamide fibers after filter pressing can pass through the crushing mechanism and are conveyed to the lower part of the shell to be discharged, the end parts of the electric telescopic rods are matched with the surface of the limiting column, when the end parts of the two electric telescopic rods abut against the surface of the limiting column, the upper parts of the two electric telescopic rods are in face contact with the surface of the limiting column, the lower part of the electric telescopic rod positioned on one side is in face contact with the lower part of the electric telescopic rod positioned on the other side, the contact stability between the two electric telescopic rods is improved, meanwhile, the sealing performance can be improved, the liquid after filter pressing is effectively prevented from overflowing between the electric telescopic rods and the limiting column, the electric telescopic rods can guide the liquid after filter pressing, the shell can be also divided into an upper part and a lower part, the dehydration and filter pressing of the waste polyamide fibers are facilitated, the waste polyamide fibers are crushed, and meanwhile, a pipeline communicated with the outside is also connected to the water storage bin, the liquid in the water storage bin can be discharged, and the situation that the whole water storage bin is filled with the liquid discharged from the filter-pressing waste polyamide fiber is effectively avoided.
In foretell polyamide fiber material's waste recovery device, rabbling mechanism includes stirring shell, stirring shell's top still is provided with agitator motor, stirring shell's inside is provided with the stirring roller, still be connected with on the stirring roller and be spiral helicine stirring vane, the stirring roller links together with agitator motor, the feed inlet has still been seted up at stirring shell's top, and stirring shell's bottom still is provided with the valve that can open and close.
Waste polyamide fiber can enter into inside the stirring shell through the feed inlet, through stirring roller and the stirring vane inside the stirring shell, can stir into the waste polyamide fiber piece that the size is all with the waste polyamide fiber piece of bulk, thereby be convenient for the filter-pressing of pressure filter plate and rubbing crusher construct the crushing to waste polyamide fiber piece, the opening part of valve is just to the filter-pressing cavity of treating of V-arrangement, the valve that is located stirring shell bottom is airtight, thereby add waste polyamide fiber, after the stirring is accomplished, open the valve of stirring shell bottom, the waste polyamide fiber that is located stirring shell inside can drop to being the filter-pressing cavity of treating of V-arrangement, and then can be by the filter-pressing.
In the waste recovery device for the polyamide fiber material, the number of the stirring rods is a plurality, the stirring rods are uniformly distributed in an annular manner along the length direction of the rotating rod, and the number of the cutting knives corresponds to the number of the stirring rods one by one.
Many puddlers are along setting up on the length direction annular equipartition along the dwang, and all install the cutting knife on the every puddler, and the driver can drive the dwang rotatory, and the puddler of connection on the dwang can smash the cutting to the old and useless polyamide fibre after the filter-pressing with the cutting knife, and the efficiency is smashed in the improvement cutting that a plurality of cutting knives and the setting of puddler can be further.
In the waste recovery device for polyamide fiber materials, a filtering sieve plate is arranged between the two water storage bins.
The filtering sieve plate arranged between the two water storage bins can filter the waste polyamide fibers finished by filter pressing, and can effectively prevent overlarge waste polyamide fibers from entering the crushing mechanism at the lower part of the shell.
In the waste recovery device for polyamide fiber materials, the lower part of the shell crushing mechanism is also provided with a material storage cavity which can temporarily store crushed waste polyamide fibers.
The material storage cavity is arranged at the bottom of the shell through drying, the upper end of the material storage cavity is opposite to the lower part of the crushing mechanism, and crushed waste polyamide fibers can be conveniently accessed and stored.
In the waste recovery device for polyamide fiber materials, a filter screen is arranged between the material storage cavity and the crushing device.
The filter screen can filter the waste polyamide fibers after being crushed, so that the crushed fine waste polyamide fibers are discharged into the material storage cavity after being filtered, and a filtering effect is achieved.
In the waste recovery device for polyamide fiber materials, the side of the storage cavity is also provided with a discharge port capable of discharging crushed waste polyamide fibers.
The crushed waste polyamide fibers can be discharged through the discharge opening.
Compared with the prior art, the waste recovery device for the polyamide fiber material extends out through electric expansion and supports on the limiting column, so that the effect of the upper portion and the lower portion of the shell is cut off, meanwhile, the two inclined pressure filter plates are synchronously close to the limiting column, when the lower portions of the two pressure filter plates synchronously support against the contact portion on the limiting column, the two pressure filter plates and the limiting column form a V-shaped cavity to be subjected to pressure filtration, waste polyamide fibers located inside the stirring shell can be conveyed to the inside of the V-shaped cavity to be subjected to pressure filtration, the waste polyamide fibers inside the pressure filter cavity can be subjected to pressure filtration under the driving of the first hydraulic rod and the second hydraulic rod, liquid subjected to pressure filtration can be taken by the inclined electric expansion rod and flows into the water storage bins on two sides connected with the electric expansion rod, after the pressure filtration is completed, the liquid subjected to pressure filtration flows into the water storage bins, the electric expansion rod expands, the two pressure filter plates are driven and then kept away from each other, so that the cavity to be subjected to pressure filtration is opened, the waste polyamide fibers can be crushed and crushed by the crushing mechanism, the waste polyamide fibers can be crushed, the wet pressure filtration efficiency and the wet pressure filtration efficiency can be greatly improved, and the wet pressure filtration efficiency of the waste polyamide fibers can be greatly increased.
Drawings
FIG. 1 is a schematic view of the structure of the waste recovery apparatus for polyamide fiber material.
In the figure, 1, a housing; 1a, a rotating bearing; 2. a limiting column; 3. pressing the filter plate; 4. a hydraulic drive; 5. an electric telescopic rod; 6. a water storage bin; 7. rotating the rod; 8. a driver; 9. a stirring rod; 10. a cutting knife; 11. a first hydraulic rod; 12. a second hydraulic rod; 13. stirring the shell; 14. a stirring motor; 15. a stirring roller; 16. a stirring blade; 17. a feed inlet; 18. a valve; 19. filtering the sieve plate; 20. a filter screen; 21. a material storage cavity.
Detailed Description
As shown in fig. 1, this waste recovery device of polyamide fiber material, including casing 1, still including setting up the rabbling mechanism on casing 1 upper portion, the middle part of casing 1 is provided with spacing post 2, still be provided with pressure filter plate 3 between spacing post 2 and the rabbling mechanism, the quantity of pressure filter plate 3 has two, and two 3 slope symmetries of pressure filter plate set up inside casing 1, pressure filter plate 3 passes through the hydraulic stem and is connected on casing 1 with hydraulic drive 4, the middle part of casing 1 still is provided with electric telescopic handle 5, and thereby electric telescopic handle 5 can support and lean on spacing post 2 sealed casing 1 upper portion, electric telescopic handle 5 still is equipped with water storage bin 6 with the junction of casing 1 inner wall, still be provided with under electric telescopic handle 5 and can be to the kibbling rubbing crusher structure of old and useless polyamide fibre.
Rubbing crusher constructs including driver 8, still inlay on 1 inside of casing and be equipped with rolling bearing 1a, the lower part of casing 1 still is provided with dwang 7, dwang 7 level sets up, and the one end of dwang 7 is connected with driver 8, and in the rolling bearing 1a on casing 1 was connected to the other end, still be connected with puddler 9 on the dwang 7, puddler 9 sets up perpendicularly on dwang 7, and the end connection of puddler 9 has cutting knife 10.
Hydraulic drive 4 links firmly the outer wall at casing 1, the hydraulic stem includes hydraulic stem one 11 and two 12 of hydraulic stem, the both ends at filter-pressing board 3 are connected respectively to hydraulic stem one 11 and two 12 of hydraulic stem, hydraulic drive 4, hydraulic stem one 11, two 12 of hydraulic stem form a drive unit, two all be connected with drive unit on the filter-pressing board 3, two drive unit synchronous drive filter-pressing board 3 can make two filter-pressing boards 3 be close to mutually, the contact site that supports and lean on with 3 assorted confession filter-pressing board 3 lower parts of filter-pressing board is still seted up on the upper portion of spacing post 2, the filter-pressing hole of matrix local has still been seted up on the filter-pressing board 3.
The quantity of electric telescopic handle 5 has two, and two electric telescopic handle 5 inclines the symmetry respectively and sets up in the both sides of spacing post 2, the quantity of retaining storehouse 6 also has two to link firmly in the both sides of 1 inner wall of casing, two electric telescopic handle 5's tip is connected respectively in corresponding retaining storehouse 6, electric telescopic handle 5's cross-section is the U-shaped, and electric telescopic handle 5 is linked together with retaining storehouse 6, electric telescopic handle 5's tip and spacing post 2's surface phase-match.
Rabbling mechanism includes agitator housing 13, agitator housing 13's top still is provided with agitator motor 14, agitator housing 13's inside is provided with stirring roller 15, still be connected with on the stirring roller 15 and be spiral helicine stirring vane 16, stirring roller 15 is connected together with agitator motor 14, feed inlet 17 has still been seted up at agitator housing 13's top, and agitator housing 13's bottom still is provided with the valve 18 that can open and close.
A plurality of roots of puddler 9, a plurality of puddlers 9 set up along the length direction annular equipartition of dwang 7, the quantity of cutting knife 10 and the quantity one-to-one of puddler 9.
A filtering sieve plate 19 is also arranged between the two water storage bins 6.
The lower part of the crushing mechanism of the shell 1 is also provided with a material storage cavity 21 which can temporarily store crushed waste polyamide fibers.
A filter screen 20 is also arranged between the material storage cavity 21 and the crushing device.
And the side part of the material storage cavity 21 is also provided with a material discharging port capable of discharging the crushed waste polyamide fibers.
When the device works, waste polyamide fibers firstly enter the stirring shell 13 through the feed inlet 17, the waste polyamide fibers in a lump shape can be stirred into waste polyamide fiber blocks with uniform sizes through the stirring roller 15 and the stirring blade 16 in the stirring shell 13, in the stirring process, the hydraulic rod I11 and the hydraulic rod II 12 are synchronously driven by the hydraulic drivers 4 at two sides, so that the two inclined filter pressing plates 3 are synchronously close to the position of the limit column 2, when the lower parts of the two filter pressing plates 3 synchronously abut against the contact part on the limit column 2, the two filter pressing plates 3 and the limit column 2 form a V-shaped cavity to be subjected to filter pressing, the two electric telescopic rods 5 are driven by the driver 8 in the water storage bin 6, when the end parts of the two electric telescopic rods 5 abut against the surface of the limit column 2, the upper parts of the two electric telescopic rods 5 are in surface contact with the surface of the limit column 2, meanwhile, the lower part of the electric telescopic rod 5 positioned on one side is in contact with the lower part of the electric telescopic rod 5 positioned on the other side, so that the electric telescopic rod is closed, the shell 1 is divided into an upper subsection and a lower subsection, the upper subsection is a filter pressing part, the lower part is a crushing part, when the two electric telescopic rods 5 abut against the lower part of the limiting column 2 and the lower parts of the two filter pressing plates 3 abut against the contact part on the limiting column 2, the waste polyamide fibers in the stirring shell 13 are stirred, the valve 18 at the bottom of the stirring shell 13 is opened, so that the waste polyamide fibers in the stirring shell 13 can fall into the V-shaped cavity to be subjected to filter pressing, after the connection is completed, the hydraulic drivers 4 on the two sides synchronously drive the hydraulic rods 11, the upper parts of the two filter pressing plates 3 slowly approach, the waste polyamide fibers in the filter pressing cavity are subjected to filter pressing, and liquid in the waste polyamide fibers can be extruded and discharged through the filter pressing holes, after the filter pressing is finished, the liquid which is subjected to filter pressing is taken out through an electric telescopic rod 5 which is formed into a U shape, and flows into a water storage bin 6, then the waste polyamide fibers subjected to filter pressing are conveyed, the electric telescopic rod 5 stretches back to a water storage tank, a hydraulic driver 4 drives a first hydraulic rod 11, after the two filter pressing plates 3 are reset to form a V-shaped cavity to be subjected to filter pressing, the first hydraulic rod 11 and the second hydraulic rod 12 are driven synchronously, so that the filter pressing plate 3 synchronously moves in an inclined shape, the upper part and the lower part of the shell 1 are finally opened, the waste polyamide fibers after filter pressing can pass through and be conveyed to the crushing mechanism at the lower part of the shell 1 to be discharged, the waste polyamide fibers after filter pressing are sieved by the filter sieve plate 19, is discharged to the crushing mechanism, a plurality of stirring rods 9 are arranged along the length direction of the rotating rod 7 in an annular and uniform way, and each stirring rod 9 is provided with a cutting knife 10, the driver 8 can drive the rotating rod 7 to rotate, the stirring rod 9 and the cutting knife 10 which are connected on the rotating rod 7 can crush and cut the waste polyamide fiber after filter pressing, the arrangement of the plurality of cutting knives 10 and the stirring rods 9 can further improve the cutting and crushing efficiency, the crushed waste polyamide fiber can be conveyed into a material storage cavity 21 at the bottom of the shell 1 after passing through the filter screen 20, the crushing operation can be carried out on the dehydrated waste polyamide fiber through the crushing mechanism, the crushing efficiency and quality can be greatly improved, the effect of dry-wet separation is achieved, meanwhile, the waste polyamide fibers can be subjected to better filter pressing, the filter pressing efficiency and the filter pressing quality of the waste polyamide fibers are improved, the stability of crushing the waste polyamide fibers is improved, and the stability of crushing the waste polyamide fibers is improved.

Claims (10)

1. The utility model provides a polyamide fiber material's waste recovery device, includes the casing, its characterized in that still including setting up the rabbling mechanism on casing upper portion, the middle part of casing is provided with spacing post, still be provided with the filter-pressing board between spacing post and the rabbling mechanism, the quantity of filter-pressing board has two, and two filter-pressing board slope symmetries set up inside the casing, the filter-pressing board passes through the hydraulic stem and is connected on the casing with hydraulic drive ware, the middle part of casing still is provided with electric telescopic handle, and electric telescopic handle can support and lean on spacing post thereby sealed casing upper portion, electric telescopic handle still is equipped with the retaining storehouse with shells inner wall's junction, still be provided with under electric telescopic handle and can be to the kibbling rubbing crusher structure of old and useless polyamide fiber.
2. The waste recycling device for polyamide fiber materials as claimed in claim 1, wherein the crushing mechanism includes a driver, a rotation bearing is further embedded in the housing, a rotation rod is further disposed on the lower portion of the housing, the rotation rod is horizontally disposed, one end of the rotation rod is connected to the driver, the other end of the rotation rod is connected to the inside of the rotation bearing on the housing, a stirring rod is further connected to the rotation rod, the stirring rod is vertically disposed on the rotation rod, and the end of the stirring rod is connected to a cutting knife.
3. The waste recovery device for polyamide fiber materials as claimed in claim 2, wherein the hydraulic driver is fixedly connected to the outer wall of the housing, the hydraulic rod includes a first hydraulic rod and a second hydraulic rod, the first hydraulic rod and the second hydraulic rod are respectively connected to two ends of the press filter plate, the first hydraulic driver, the first hydraulic rod and the second hydraulic rod form a driving unit, the two press filter plates are connected with driving units, the two driving units drive the press filter plates synchronously, so that the two press filter plates are close to each other, the upper portion of the limiting column is further provided with a contact portion matched with the press filter plates and used for the lower portions of the press filter plates to abut against, and the press filter plates are further provided with press filter holes with local matrixes.
4. The waste recycling device for polyamide fiber materials as claimed in claim 3, wherein the number of the electric telescopic rods is two, and the two electric telescopic rods are respectively and symmetrically arranged at two sides of the limit post in an inclined manner, the number of the water storage bins is two and is fixedly connected at two sides of the inner wall of the housing, the end portions of the two electric telescopic rods are respectively connected in the corresponding water storage bins, the cross section of each electric telescopic rod is U-shaped, the electric telescopic rods are communicated with the water storage bins, and the end portions of the electric telescopic rods are matched with the surface of the limit post.
5. The waste recycling device for polyamide fiber materials as claimed in claim 4, wherein the stirring mechanism comprises a stirring housing, a stirring motor is further disposed on the top of the stirring housing, a stirring roller is disposed inside the stirring housing, a spiral stirring blade is further connected to the stirring roller, the stirring roller is connected to the stirring motor, a feeding port is further opened on the top of the stirring housing, and a valve capable of being opened and closed is further disposed on the bottom of the stirring housing.
6. The waste recycling device for polyamide fiber materials as claimed in claim 5, wherein the number of the stirring rods is a plurality, the stirring rods are uniformly distributed along the length direction of the rotating rod in an annular manner, and the number of the cutting knives is one-to-one corresponding to the number of the stirring rods.
7. The recycling apparatus for waste material of polyamide fiber material as claimed in claim 6, wherein a filtering screen plate is further disposed between the two water storage bins.
8. The recycling apparatus for waste material of polyamide fiber material as claimed in claim 7, wherein the housing crushing mechanism further has a material storage chamber at a lower portion thereof for temporarily storing crushed waste polyamide fiber.
9. The recycling device for waste material of polyamide fiber material as claimed in claim 8, characterized in that a filter screen is further disposed between the storage chamber and the crushing device.
10. The recycling apparatus for waste material of polyamide fiber material as claimed in claim 9, wherein the side of the storage chamber is further opened with an outlet for discharging the crushed waste polyamide fiber.
CN202221530185.3U 2022-06-17 2022-06-17 Waste recovery device for polyamide fiber material Active CN217570120U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221530185.3U CN217570120U (en) 2022-06-17 2022-06-17 Waste recovery device for polyamide fiber material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221530185.3U CN217570120U (en) 2022-06-17 2022-06-17 Waste recovery device for polyamide fiber material

Publications (1)

Publication Number Publication Date
CN217570120U true CN217570120U (en) 2022-10-14

Family

ID=83530688

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221530185.3U Active CN217570120U (en) 2022-06-17 2022-06-17 Waste recovery device for polyamide fiber material

Country Status (1)

Country Link
CN (1) CN217570120U (en)

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Date Code Title Description
GR01 Patent grant
GR01 Patent grant
EE01 Entry into force of recordation of patent licensing contract
EE01 Entry into force of recordation of patent licensing contract

Assignee: Zhejiang Daqi Knitting Co.,Ltd.

Assignor: HAINING CHANGSHUN CHEMICAL FIBER Co.,Ltd.

Contract record no.: X2023980040941

Denomination of utility model: A waste recycling device for polyamide fiber materials

Granted publication date: 20221014

License type: Common License

Record date: 20230901