CN115365114A

CN115365114A - Quick edulcoration equipment that fibre was retrieved

Info

Publication number: CN115365114A
Application number: CN202211289204.2A
Authority: CN
Inventors: 苏月连; 高巍伦
Original assignee: Nantong Runyou Special Chemical Fiber Co ltd
Current assignee: Nantong Runyou Special Chemical Fiber Co ltd
Priority date: 2022-10-20
Filing date: 2022-10-20
Publication date: 2022-11-22

Abstract

The invention relates to the technical field of fiber production, in particular to a quick impurity removal device for fiber recovery, which comprises a rack and a separation cylinder arranged on the rack, wherein the separation cylinder is of a cylindrical cylinder structure and is connected to the top of the rack in a horizontal state, and a filter screen, a rotating shaft, a rotary driving motor, a filter cylinder and a driving frame are arranged on the separation cylinder; carding and screening through first carding rod to the impurity in the fiber raw materials, the rotation through first carding rod drives the fiber raw materials at the cylinder internal rotation simultaneously, the accessible centrifugal force is further comes out impurity screening from the fiber raw materials, through the drive frame, the setting of driving frame and guide way, when making first carding rod rotate the interior concave section to the guide way, first carding rod can contract to the cartridge filter in, make winding fiber raw materials pushed down through the cartridge filter, avoid needing to shut down and clear up first carding rod, thereby improve production efficiency, alleviate staff's burden.

Description

Quick edulcoration equipment that fibre was retrieved

Technical Field

The invention relates to the technical field of fiber production, in particular to rapid impurity removal equipment for fiber recovery.

Background

The fiber is a substance composed of continuous or discontinuous filaments, the fiber has wide application, and can be used for weaving fine lines, thread ends and hemp ropes, a fiber layer can be woven when papermaking or felt weaving is carried out, other materials are also commonly manufactured, and a composite material is formed together with other materials.

Chinese patent application CN112958434A discloses a categorised recovery unit of quick edulcoration for fiber production, which comprises a frame body, the middle swing joint of framework has bee calling organ, the left end swing joint of axis of rotation has the flabellum, driving motor's right-hand member fixedly connected with conveyer belt, the left end swing joint of movable rod strikes the head, the left side of striking the head is provided with the filter screen, the right-hand member swing joint of activity head has movable contact, the right-hand member of activity contact is provided with movable contact, the lower extreme left side swing joint of activity head has the stay cord, the one end swing joint who keeps away from the activity head of stay cord has the pulling door, this patent drives the axis of rotation through driving motor, make the fan blow away the recovery with light fibre, strike the filter screen through striking the head again and realize secondary letter sorting, realize the alarm through movable contact and fixed contact, make pulling open through the stay cord, quick screening impurity has been realized, this patent has alleviateed the comparatively loaded down problem of device operation, but its mode that blows the edulcoration through the fan, make the fibre can's unable accurate falling on the filter screen of falling of the unable in-off of the in-process of blanking, increased the degree of collection to the fibre, simultaneously because the opening back fibre raw materials of the initial stage is twined state each other, make the fibre that the fibre of the unable obvious effect of the impurity removal of the follow-up of sorting can not be entangled, make the accurate blanking of blanking, the blanking of blanking, make the blanking effect of the blanking not cover the blanking on the blanking of blanking that the blanking can's the blanking.

Disclosure of Invention

To above-mentioned problem, a quick edulcoration equipment of fibre recovery is provided, carding and screening to the impurity in the fibre raw materials through first carding rod, the rotation through first carding rod drives fibre raw materials at the cylinder internal rotation simultaneously, the further screening of impurity from fibre raw materials of accessible centrifugal force comes out, through the drive frame, the setting of drive frame and guide way, when making first carding rod rotate the interior concave section to the guide way, first carding rod can contract to the cartridge filter in, make winding fibre raw materials pushed down through the cartridge filter, avoid needing to shut down and clear up first carding rod, thereby improve production efficiency, alleviate staff's burden.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a quick impurity removing device for fiber recovery comprises a rack and a separating cylinder arranged on the rack, wherein the separating cylinder is of a cylindrical cylinder structure, the separating cylinder is connected to the top of the rack in a horizontal state, and a filter screen, a rotating shaft, a rotary driving motor, a filter cylinder and a driving frame are arranged on the separating cylinder;

a feed inlet is arranged at the top of the separating cylinder, a trash removal opening is arranged at the bottom of the separating cylinder, and a discharge opening is arranged beside the trash removal opening;

the filter screen is fixedly connected inside the separating cylinder and positioned above the impurity removing port;

the rotating shaft is positioned in the separating cylinder in a horizontal state and can rotate;

the rotary driving motor is positioned at one end of the separating cylinder, and the rotary shaft is in transmission connection with the rotary driving motor;

guide grooves are formed in the inner walls of the two ends of the separating cylinder, the guide grooves are closed groove bodies arranged around the axis of the separating cylinder, and the bottoms of the guide grooves are provided with inward concave sections;

the filter cylinder is sleeved on the rotating shaft and provided with a plurality of recovery holes surrounding the axis of the filter cylinder, and the recovery holes are connected with an external dust suction device;

the drive frame cover is located on the rotation axis and is located the inside of cartridge filter, is provided with a plurality of drive frames that can follow the radial shrink of cartridge filter on the drive frame, and a plurality of drive frames equidistance around the axis setting in the cartridge filter, the both ends of drive frame respectively with two guide way sliding fit, be provided with a plurality of first carding rods of arranging along the axis of separator on the drive frame, the axis of a plurality of first carding rods all with the axis mutually perpendicular of separator.

Preferably, the drive frame includes two carousels, and two carousels overlap respectively and locate on the both ends of rotation axis, all be provided with the sleeve pipe the same and the one-to-one with driving frame quantity on two carousels, and a plurality of driving frames all include bracing piece and two connecting rods, and two connecting rods overlap respectively and locate the intraductal of correspondence on two rolling discs, and the bracing piece is the horizontality and is located between two connecting rods, and the bracing piece is located the one end of keeping away from the carousel on two connecting rods, and a plurality of first carding rod all overlap and locate on the bracing piece.

Preferably, the two ends of the supporting rod are provided with pulleys, the two pulleys are respectively in sliding fit with the guide grooves at the two ends of the separating cylinder, and the filter cylinder is provided with guide holes which are the same as the first carding rods in quantity and correspond to the first carding rods in one-to-one mode.

Preferably, be provided with a plurality of accumulator tanks in the cartridge filter, a plurality of accumulator tanks all set up along the axis of cartridge filter, a plurality of accumulator tanks respectively with the recovery hole intercommunication in the cartridge filter, a plurality of accumulator tanks all are connected with outside dust extraction.

Preferably, a dust collection pipe and a sliding ring are arranged in the filter cylinder, the dust collection pipe is sleeved on the rotating shaft, one end of the dust collection pipe penetrates through one end, far away from the rotary driving motor, of the separating cylinder, the sliding ring is sleeved on the dust collection pipe and located on the outer side of the separating cylinder, a pipeline is arranged on the sliding ring and communicated with an external dust collection device, a plurality of dust collection cavities are formed in the upper cover of the dust collection pipe, and connecting pipes which correspond to the recovery tanks in number one to one are arranged on the dust collection cavities.

Preferably, one end of the separating cylinder, which is close to the slip ring, is provided with a mounting rack for avoiding the slip ring, the center of the mounting rack is provided with a connecting ring, and one end of the rotating shaft is sleeved in the connecting ring.

Preferably, be provided with on the outer wall of cylinder and follow the radial gliding displacement frame of cylinder, be provided with a plurality of second carding rods of arranging along the axis of cylinder on the displacement frame, a plurality of second carding rods all run through the outer wall through the cylinder and with cylinder sliding fit, first carding rod on a plurality of driving frames all combs the pole with the second on the displacement frame and is the state of crisscross each other, the side of cylinder is provided with actuating mechanism, actuating mechanism is used for driving the displacement frame and carries out straight reciprocating motion.

Preferably, actuating mechanism includes support frame and linear actuator, and the support frame is located the side of separating cylinder, and linear actuator connects on the support frame, and the displacement frame is connected with linear actuator transmission, and one side that is close to the support frame on the displacement frame is provided with a plurality of guide arms, and a plurality of guide arms all run through the support frame and rather than sliding fit, and the axis of guide arm is parallel with the axis of second carding rod.

Preferably, the displacement frames are two, the two displacement frames are arranged in a central symmetry manner, racks are arranged on the two displacement frames on the side close to each other, a gear capable of rotating is arranged on a support frame of the driving mechanism, the gear is located between the two racks, and the two racks are connected with the gear in a meshed manner.

Preferably, the filter screen is of a semicircular arc structure, the axis of the filter screen and the axis of the separating cylinder are coaxially arranged, the filter screen is located between the bottom of the separating cylinder and the second carding rod, and the filter screen is provided with avoiding holes used for avoiding the second carding rod.

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

1. according to the invention, impurities in the fiber raw material are carded and screened through the first carding rod, meanwhile, the fiber raw material is driven to rotate in the separation cylinder through the rotation of the first carding rod, the impurities can be further screened from the fiber raw material through centrifugal force, and through the arrangement of the driving frame, the driving frame and the guide groove, when the first carding rod rotates to the inward concave section of the guide groove, the first carding rod can be contracted into the filter cylinder, and the wound fiber raw material is pushed down through the filter cylinder, so that the first carding rod is prevented from being cleaned by stopping, the production efficiency is improved, and the burden of workers is reduced.

2. The recovery hole is connected with an external dust suction device, so that the screened impurities can be absorbed by the recovery hole, and the problem that the impurities cannot be discharged from the filter screen because the impurities are blocked by the fiber raw materials when the fiber raw materials are accumulated on the filter screen is solved, and the impurity removal effect on the fiber raw materials is further improved.

3. According to the invention, the driving mechanism drives the displacement frame to slide in a reciprocating manner, so that the second carding rod on the displacement frame also makes a linear reciprocating motion, the second carding rod and the first carding rod form a layer of more encrypted screen for screening impurities in the fiber raw materials, and the impurity removal effect on the fiber raw materials is further improved.

4. According to the invention, through the arrangement of the two displacement frames, the screen consisting of the second carding rod and the rotating first carding rod which are always kept in the separating cylinder screens impurities in the fiber raw materials, so that the impurity removal effect on the impurities in the fiber raw materials is improved, and the stability of the device is improved.

Drawings

FIG. 1 is a schematic perspective view of a rapid trash removal device for fiber recovery;

FIG. 2 is a top view of a rapid trash removal device for fiber recovery;

FIG. 3 is a side view of a rapid trash removal device for fiber recovery;

FIG. 4 is a schematic perspective view of a driving mechanism in a rapid trash removal device for fiber recovery;

FIG. 5 is a side view of a driving mechanism in a rapid trash removal device for fiber recovery;

FIG. 6 is a top view of a first carding bar and a second carding bar of a rapid trash removal device for fiber recovery;

FIG. 7 is an enlarged view at A in FIG. 5;

FIG. 8 is a schematic view of a guide groove in a rapid trash removal apparatus for fiber recovery;

FIG. 9 is a schematic view of a driving frame, a first carding bar and a guide groove in a rapid impurity removal apparatus for fiber recovery;

FIG. 10 is a schematic perspective view of a driving frame, a driving frame and a first carding rod of a rapid impurity removing device for recovering fibers;

FIG. 11 is an enlarged view at B of FIG. 10;

FIG. 12 is a schematic perspective view of the interior of a separation cylinder in a rapid trash removal apparatus for fiber recovery;

FIG. 13 is a schematic perspective view of a filter cartridge of a rapid trash removal device for fiber recovery;

FIG. 14 is a schematic perspective view of a recovery tank and a dust removal pipe of a rapid impurity removal device for recovering fibers;

FIG. 15 is a schematic cross-sectional view of a rapid trash removal apparatus for fiber recovery;

FIG. 16 is a schematic perspective view of a separating cylinder of a rapid trash removal device for fiber recovery.

The reference numbers in the figures are:

1-a frame;

11-a feed inlet;

12-impurity removal port;

13-a discharge opening;

2-a separation cylinder;

21-a filter screen; 211-relief holes;

22-a rotating shaft;

23-a rotary drive motor;

24-a guide groove; 241-an inward concave section;

25-a mounting frame; 251-a connecting ring;

26-displacement frame; 261-a second carding bar; 262-a drive mechanism; 2621-linear drive; 2622-a scaffold; 2623-gear; 263-rack; 264-guide rod;

3-a filter cartridge;

31-a recovery hole; 311-a recovery tank; 312-a dust extraction tube; 3121-a dust collecting chamber; 3122-connecting tube; 3123-slip rings; 3124-a conduit;

32-a drive frame; 321-a transmission frame; 3211-a support bar; 3212-a pulley; 3213-a connecting rod; 322-a first carding bar; 323-a turntable; 3231-cannula;

33-guide hole.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1 to 16: a quick impurity removing device for fiber recovery comprises a frame 1 and a separating cylinder 2 arranged on the frame 1, wherein the separating cylinder 2 is of a cylindrical cylinder structure, the separating cylinder 2 is connected to the top of the frame 1 in a horizontal state, and a filter screen 21, a rotating shaft 22, a rotary driving motor 23, a filter cylinder 3 and a driving frame 32 are arranged on the separating cylinder 2; a feed inlet 11 is arranged at the top of the separation barrel 2, a impurity removing opening 12 is arranged at the bottom of the separation barrel 2, and a discharge opening 13 is arranged beside the impurity removing opening 12; the filter screen 21 is fixedly connected inside the separating cylinder 2 and positioned above the impurity removing port 12; the rotating shaft 22 is positioned in the separating cylinder 2 in a horizontal state and can rotate; the rotary driving motor 23 is positioned at one end of the separating cylinder 2, and the rotary shaft 22 is in transmission connection with the rotary driving motor 23; the inner walls of the two ends of the separation barrel 2 are respectively provided with a guide groove 24, the guide grooves 24 are closed groove bodies arranged around the axis of the separation barrel 2, and the bottom of each guide groove 24 is provided with an inner concave section 241; the filter cartridge 3 is sleeved on the rotating shaft 22, a plurality of recovery holes 31 surrounding the axis of the filter cartridge 3 are formed in the filter cartridge 3, and the recovery holes 31 are all connected with an external dust suction device; the driving frame 32 is sleeved on the rotating shaft 22 and located inside the filter cartridge 3, a plurality of transmission frames 321 capable of radially contracting along the filter cartridge 3 are arranged on the driving frame 32, the transmission frames 321 are arranged around the axis of the filter cartridge 3 at equal intervals, two ends of the transmission frames 321 are respectively in sliding fit with the two guide grooves 24, a plurality of first carding rods 322 arranged along the axis of the separation cartridge 2 are arranged on the transmission frames 321, and the axes of the first carding rods 322 are perpendicular to the axis of the separation cartridge 2.

Firstly, fiber raw materials are led into a separating cylinder 2 from a feed port 11 at the top of the separating cylinder 2, a rotary shaft 22 in transmission connection with the fiber raw materials is driven by starting a rotary driving motor 23, the rotary shaft 22 rotates to drive a filter cylinder 3 and a driving frame 32 which are sleeved on the rotary shaft 22, the driving frame 32 rotates to drive a plurality of driving frames 321 to rotate along with the rotary shaft 22, the driving frames 321 rotate to drive a plurality of first carding rods 322 to rotate around the rotary shaft 22, impurities in the fiber raw materials are screened by the first carding rods 322, meanwhile, the fiber raw materials are driven to move in the separating cylinder 2 by the rotation of the first carding rods 322, as the weight of the impurities in the fiber raw materials is larger than the weight of the fibers, when the fiber raw materials are driven to rotate by the first carding rods 322, under the action of centrifugal force, the impurities in the fiber raw materials can move to the inner wall of the separating cylinder 2 along the radial direction of the separating cylinder 2, finally, the impurities fall on the filter screen 21 along the inner wall of the separating cylinder 2, when the first carding rods 322 screen the fiber raw materials are screened, the fiber raw materials, the first carding rods 322 can also prevent the impurities from falling off the fiber raw materials from the filter screen 21, the fiber raw materials, the impurities which are further separated by the first carding cylinder 2, the impurity separating cylinder 2, the impurities which are discharged from falling through the filter cylinder 2, and the filter cylinder, and the impurity discharging loss of the impurity discharging impurities which are further discharged from the first carding cylinder 2, and the impurity discharging raw materials 21, and the impurity discharging impurities which are prevented from the impurity discharging raw materials 21, and the impurity discharging holes 21, and the impurity discharging gap of the impurity discharging rod 21 which are prevented from the first carding cylinder 2, and the impurity discharging impurities which are prevented from the impurity discharging raw materials which are prevented from the impurity discharging rod 21, therefore, the subsequent carding and impurity removal effects on the fiber raw materials can be influenced, in order to avoid the situation, in the process that the transmission frame 321 moves along the guide grooves 24, because two ends of the transmission frame 321 are respectively in sliding fit with the two guide grooves 24, when the transmission frame 321 moves to the inward concave section 241 at the bottom of the guide grooves 24, the transmission frame 321 can contract along the radial direction of the filter cartridge 3, so as to drive the first carding rod 322 connected with the transmission frame to also contract along the radial direction of the filter cartridge 3 until the first carding rod 322 is positioned inside the filter cartridge 3, so that the contracted first carding rod 322 can block the fiber raw materials wound on the transmission frame through the filter cartridge 3, so that the wound fiber raw materials are pushed down, after the transmission frame 321 leaves the inward concave section 241 at the bottom of the guide grooves 24, the transmission frame 321 can extend outwards along the radial direction of the filter cartridge 3, so that the first carding rod 322 positioned on the transmission frame 321 extends out of the filter cartridge 3 again, ensure that can carry out edulcoration and carding to subsequent fibre raw materials, drive first carding rod 322 through the flexible of driving frame 321, make when first carding rod 322 sieves the impurity in the fibre raw materials from this, still can clear away the fibre raw materials on first carding rod 322, avoid needing to shut down and clear up to first carding rod 322, thereby improve production efficiency, lighten staff's burden, the fibre raw materials after edulcoration and carding can be driven to discharge opening 13 department through the rotation of first carding rod 322, discharge the fibre raw materials after the edulcoration through discharge opening 13, accomplish the recovery to the fibre raw materials from this, in order to improve the effect of screening, the accessible sets up movable baffle on discharge opening 13, make the fibre raw materials that the screening is not clean enough can continue to move in separating cylinder 2 along with the rotation of first carding rod 322, make first carding rod 322 can carry out edulcoration and carding many times to fiber raw materials, until the impurity screening with in the fiber raw materials is clean, because still be provided with recovery hole 31 on the cartridge filter 3, and recovery hole 31 is connected with outside dust extraction, make the impurity of screening out can be absorbed by recovery hole 31, prevent because of fiber raw materials pile up when filter screen 21 is last, impurity is caused the unable discharged problem from filter screen 21 of impurity by the fiber raw materials separation, from this further improvement is to fiber raw materials's edulcoration effect.

As shown in fig. 9 to 11 and 15: the driving frame 32 includes two turntables 323, two turntables 323 overlap respectively and locate on the both ends of rotation axis 22, all be provided with the sleeve pipe 3231 the same with transmission frame 321 quantity and one-to-one on two turntables 323, a plurality of transmission frames 321 all include bracing piece 3211 and two connecting rods 3213, two connecting rods 3213 overlap respectively and locate in the sleeve pipe 3231 of correspondence on two rolling discs, bracing piece 3211 is the horizontality and is located between two connecting rods 3213, and bracing piece 3211 is located the one end of keeping away from the turntable 323 on two connecting rods 3213, a plurality of first carding rods 322 all overlap and locate on bracing piece 3211.

Because the bracing piece 3211 is located between two connecting rods 3213, and the connecting rod 3213 is located in the sleeve 3231 of the carousel 323, make the bracing piece 3211 only move along the axis of the sleeve 3231, make the first carding rod 322 on the bracing piece 3211 also move along the axis of the sleeve 3231, thereby realize that the transmission frame 321 and the first carding rod 322 can all move along the radial of the cartridge filter 3, through two carousels 323 respectively overlap and locate on the both ends of the rotation axis 22, the carousel 323 can drive the rotation of the sleeve 3231 when rotating, can drive the connecting rod 3213 through the sleeve 3231 and rotate, the rotation through two connecting rods 3213 drives the bracing piece 3211 that is located between two connecting rods 3213, make a plurality of first carding rods 322 on the bracing piece 3211 can encircle the rotation axis 22 when radially telescoping along the cartridge filter 3, be convenient for first carding rod 322 cleans the fiber raw materials wound thereon, can drive a plurality of first rods 322 together to move through setting up of the bracing piece 3211, make a plurality of first carding rods 322 on the same transmission frame 321 keep to the same carding raw materials and the stability of carding equipment of the operation improvement.

As shown in fig. 9 to 11 and 15: the two ends of the supporting rod 3211 are provided with pulleys 3212, the two pulleys 3212 are in sliding fit with the guide grooves 24 at the two ends of the separating cylinder 2, and the filter cylinder 3 is provided with guide holes 33 which are the same in number and in one-to-one correspondence with the first carding rods 322.

The transmission frame 321 can drive the pulley 3212 to rotate when rotating along with the driving frame 32, so that the pulley 3212 slides along the guide groove 24, the pulley 3212 is arranged, so that the sliding between the transmission frame 321 and the guide groove 24 is smoother, the stability of the transmission frame 321 when radially extending and retracting along the filter cartridge 3 is improved, when the pulley 3212 moves to the inward concave section 241 of the guide groove 24, the pulley 3212 can drive the supporting rod 3211 on the transmission frame 321 to contract towards the inside of the filter cartridge 3, the supporting rod 3211 drives the two connecting rods 3213 to contract towards the inside of the filter cartridge 3, and meanwhile, the first carding rods 322 on the supporting rod 3211 are driven to contract towards the inside of the filter cartridge 3, so that the first carding rods 322 slide along the axis of the guide holes 33, the fiber raw materials wound on the first carding rods 322 are blocked by the filter cartridge 3 through sliding, the arrangement of the guide holes 33, so that the movement of the first carding rods 322 is more stable, thereby, the burden of clearing the fiber raw materials on the first carding rods 322 is automatically reduced, and the burden of workers is avoided, and the downtime of the clearing of the first carding rods waiting for clearing is reduced.

As shown in fig. 13 to 15: be provided with a plurality of accumulator cells 311 in the cartridge filter 3, a plurality of accumulator cells 311 all set up along the axis of cartridge filter 3, a plurality of accumulator cells 311 communicate with the recovery hole 31 in the cartridge filter 3 respectively, and a plurality of accumulator cells 311 all are connected with outside dust extraction.

Because a plurality of accumulator 311 all are connected with outside dust extraction, when outside dust extraction breathes in, make the inside of accumulator 311 form the negative pressure, be convenient for absorb the impurity that first carding rod 322 followed fibre raw materials and sieved, prevent to pile up on filter screen 21 because of fibre raw materials makes impurity by the fibre raw materials separation, lead to impurity to be difficult to discharge from filter screen 21, therefore can improve the edulcoration effect to fibre raw materials, can laminate on the lateral wall of cartridge filter 3 because of accumulator 311's suction for preventing fibre raw materials, the accessible is breathed in to accumulator 311 intermittently, make fibre raw materials can't last be adsorbed by accumulator 311, thereby improve the effect that impurity was inhaled in the accumulator 311.

As shown in fig. 13 to 15: be provided with dust absorption pipe 312 and sliding ring 3123 in the cartridge filter 3, on the rotation axis 22 was located to dust absorption pipe 312 cover, wherein one end of dust absorption pipe 312 runs through the one end of keeping away from rotary drive motor 23 on the separating cylinder 2, sliding ring 3123 cover is located on dust absorption pipe 312 and is located the outside of separating cylinder 2, be provided with pipeline 3124 and outside dust extraction intercommunication on the sliding ring 3123, the dust absorption pipe 312 upper cover is provided with a plurality of dust collecting chamber 3121, be provided with on the dust collecting chamber 3121 with the same and the one-to-one connecting pipe 3122 of recovery tank 311 quantity.

The rotation of dust pipe 312 can be driven when rotation shaft 22 rotates, setting through sliding ring 3123 and pipeline 3124, make dust pipe 312 still can communicate with outside dust extraction when rotating, ensure the dust absorption effect of dust pipe 312, through the setting of a plurality of connecting pipes 3122 on the dust collection chamber 3121, make the impurity of collecting in a plurality of accumulator cells 311 can be collected by dust collection chamber 3121 in unison, in order to ensure that the negative pressure in the accumulator cell 311 keeps unanimous, communicate with accumulator cell 311 through a plurality of dust collection chambers 3121 and connecting pipe 3122, make the interior balanced negative pressure that keeps of accumulator cell 311, in order to improve the absorption effect to impurity to the cartridge filter 3, after dust collection chamber 3121 collects impurity, can all absorb the impurity in a plurality of dust collection chambers 3121 through dust pipe 312 at last, discharge cartridge filter 3 through pipeline 3124 at last.

As shown in fig. 16: one end of the separation cylinder 2 close to the slip ring 3123 is provided with a mounting bracket 25 for avoiding the slip ring 3123, a connection ring 251 is provided at the center of the mounting bracket 25, and one end of the rotating shaft 22 is sleeved in the connection ring 251.

In order to facilitate the installation of the slip ring 3123 and the pipeline 3124, through the installation of the installation frame 25 and the connection ring 251, one end of the rotating shaft 22 far away from the rotating drive motor 23 can be sleeved in the connection ring 251, so that the rotating shaft 22 can be stably driven by the rotating drive motor 23, and a space for installing the slip ring 3123 and the pipeline 3124 is reserved between the installation frame 25 and the outer wall of the separation cylinder 2.

As shown in fig. 1 to 7 and 15: be provided with on the outer wall of separator cylinder 2 and follow the radial gliding displacement frame 26 of separator cylinder 2, be provided with a plurality of second carding rod 261 of arranging along the axis of separator cylinder 2 on the displacement frame 26, a plurality of second carding rod 261 all run through the outer wall through separator cylinder 2 and with separator cylinder 2 sliding fit, first carding rod 322 on a plurality of driving frames 321 all is the state of crisscross each other with second carding rod 261 on the displacement frame 26, the side of separator cylinder 2 is provided with actuating mechanism 262, actuating mechanism 262 is used for driving displacement frame 26 to carry out straight reciprocating motion.

The driving mechanism 262 is started to drive the displacement frame 26 to slide in a reciprocating manner, the displacement frame 26 drives the second carding rods 261 to move, the second carding rods 261 are in sliding fit with the outer wall of the separating cylinder 2, the first carding rods 322 on the transmission frames 321 and the second carding rods 261 on the displacement frame 26 are in a mutually staggered state, when the second carding rods 261 move into the separating cylinder 2, the driving frame 32 can drive the transmission frames 321 to rotate, the first carding rods 322 on the transmission frames 321 can sequentially pass through the second carding rods 261, rotation of the first carding rods 322 is not affected, a layer of more encrypted screen cloth formed by the second carding rods 261 and the first carding rods 322 screens impurities in the fiber raw materials can be screened, impurity removal effects on the fiber raw materials are further improved, when the second carding rods 261 move out of the separating cylinder 2, the fiber raw materials wound on the second carding rods 261 in the carding process are cleaned, burden of workers is reduced, time for waiting for cleaning the first carding rods 322 is avoided, and resistance of the first carding rods 261 and the second carding rods 261 to the fiber raw materials can be increased when the fiber raw materials pass through the screening bar 261 and the reciprocating motion of the second carding rods, and the fiber raw materials can pass through the screening resistance of the linear screening equipment.

As shown in fig. 1 to 7 and 15: actuating mechanism 262 includes support frame 2622 and linear actuator 2621, and support frame 2622 is located the side of separating cylinder 2, and linear actuator 2621 is connected on support frame 2622, and displacement frame 26 is connected with linear actuator 2621 transmission, and one side that is close to support frame 2622 on the displacement frame 26 is provided with a plurality of guide arms 264, and a plurality of guide arms 264 all run through support frame 2622 and rather than sliding fit, and the axis of guide arm 264 is parallel with the axis of second carding bar 261.

The linear driver 2621, the displacement frame 26 and the supporting platforms of the second carding bars 261 are provided by a supporting frame 2622, the linear driver 2621 is preferably an air cylinder, the displacement frame 26 is fixedly connected with the output shaft of the air cylinder, the displacement frame 26 is driven by the extension of the output shaft of the air cylinder, the displacement frame 26 moves along the axis direction of the guide rod 264, because the axis of the guide rod 264 is parallel to the axis of the second carding bar 261, the second carding bar 261 can be inserted into the separation cylinder 2, the second carding bar 261 and the first carding bar 322 are matched to screen impurities in the fiber raw material, the retraction of the output shaft of the air cylinder drives the displacement frame 26 to reset, the second carding bars 261 are driven by the displacement frame 26 to move outwards from the separation cylinder 2, the fiber raw material wound on the second carding bar 261 is cleaned, the fiber raw material can be blocked by the inner wall of the separation cylinder 2, and the second carding bar 261 can make reciprocating linear motion on the separation cylinder 2 by the motion of the output shaft of the air cylinder.

As shown in fig. 1 to 7 and 15: the displacement frame 26 has two, and two displacement frames 26 are centrosymmetric, and the one side that is close to each other on two displacement frames 26 all is provided with rack 263, is provided with rotatable gear 2623 on the support frame 2622 of actuating mechanism 262, and gear 2623 is located between two rack 263, and two rack 263 all are connected with gear 2623 meshing.

When only one displacement frame 26 is arranged, when the second carding bar 261 on the displacement frame 26 moves outwards, the fiber raw material passing through the area of the second carding bar 261 cannot be screened, so that the screening of the fiber raw material is not thorough enough, and the subsequent secondary screening may be required, through the arrangement of the gear 2623 and the rack 263, when one of the displacement frames 26 is driven by the linear driver 2621, the rack 263 moves, the gear 2623 meshed with the rack 263 is driven by the rack 263, the rotation of the gear 2623 drives the rack 263 meshed with the gear 2623 on the other displacement frame 26, so that the other displacement frame 26 and the displacement frame 26 connected with the linear driver 2621 move relatively, and when the second carding bar 261 on the two displacement frames 26 reciprocates linearly on the separation cylinder 2, so that when one displacement frame 26 drives the second bar 261 to move outwards, the second bar 261 on the other carding frame 26 can move towards the inside the separation cylinder 2, so that a group of the second carding bar 261 and the first carding bar 261 in the separation cylinder 2 are kept to form a group of the second carding bar 261, and the impurity screening effect of the screening of the fiber raw material is improved for screening of the impurities in the fiber raw material is improved.

As shown in fig. 12 and 15: the filter screen 21 is of a semicircular arc structure, the axis of the filter screen 21 is coaxial with the axis of the separation cylinder 2, the filter screen 21 is located between the bottom of the separation cylinder 2 and the second carding rod 261, and the filter screen 21 is provided with avoiding holes 211 for avoiding the second carding rod 261.

Through the setting of filter screen 21 semicircle arc-shaped structure, make impurity and the fibre raw materials that fall on filter screen 21 can be better driven by first carding rod 322, be located the setting between the bottom of cylinder 2 and the second carding rod 261 through filter screen 21, and be provided with on the filter screen 21 and dodge hole 211, make second carding rod 261 can insert in cylinder 2 along the axis of dodging hole 211, its tip is parallel and level with the inner wall of filter screen 21 when second carding rod 261 resets, make second carding rod 261 accessible filter screen 21 will twine the fibre raw materials clearance on second carding rod 261, prevent impurity from dodging the jam that leads to dodging hole 211 in the hole 211 through dodging, thereby influence the activity of second carding rod 261, through filter screen 21 separation fibre raw materials, and make the impurity that sieves out in the fibre raw materials directly fall on filter screen 21, be convenient for the discharge of impurity.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A quick impurity removing device for fiber recovery comprises a rack (1) and a separating cylinder (2) arranged on the rack (1), and is characterized in that the separating cylinder (2) is of a cylindrical cylinder structure, the separating cylinder (2) is connected to the top of the rack (1) in a horizontal state, and a filter screen (21), a rotating shaft (22), a rotary driving motor (23), a filter cylinder (3) and a driving frame (32) are arranged on the separating cylinder (2);

a feed inlet (11) is arranged at the top of the separation barrel (2), a impurity removing opening (12) is arranged at the bottom of the separation barrel (2), and a discharge opening (13) is arranged beside the impurity removing opening (12);

the filter screen (21) is fixedly connected inside the separating cylinder (2) and positioned above the impurity removing port (12);

the rotating shaft (22) is positioned in the separating cylinder (2) in a horizontal state and can rotate;

the rotary driving motor (23) is positioned at one end of the separating cylinder (2), and the rotary shaft (22) is in transmission connection with the rotary driving motor (23);

guide grooves (24) are formed in the inner walls of the two ends of the separating cylinder (2), the guide grooves (24) are closed groove bodies arranged around the axis of the separating cylinder (2), and the bottom of each guide groove (24) is provided with an inner concave section (241);

the filter cartridge (3) is sleeved on the rotating shaft (22), a plurality of recovery holes (31) surrounding the axis of the filter cartridge (3) are formed in the filter cartridge (3), and the recovery holes (31) are connected with an external dust suction device;

the rotation axis (22) is located in the inside of pivot (32) cover and being located cartridge filter (3), be provided with a plurality of transmission frame (321) that can follow cartridge filter (3) radial shrinkage on drive frame (32), and a plurality of transmission frame (321) equidistance encircle in the axis setting of cartridge filter (3), the both ends of transmission frame (321) respectively with two guide way (24) sliding fit, be provided with a plurality of first carding rod (322) of arranging along the axis of separator (2) on transmission frame (321), the axis of a plurality of first carding rod (322) all with the axis mutually perpendicular of separator (2).

2. The rapid impurity removing device for fiber recovery according to claim 1, wherein the driving frame (32) comprises two turntables (323), the two turntables (323) are respectively sleeved at two ends of the rotating shaft (22), sleeves (3231) which are in the same number as the transmission frames (321) and are in one-to-one correspondence with the transmission frames (321) are respectively arranged on the two turntables (323), the transmission frames (321) comprise supporting rods (3211) and two connecting rods (3213), the two connecting rods (3213) are respectively sleeved in the corresponding sleeves (3231) on the two rotating tables, the supporting rods (3211) are horizontally arranged between the two connecting rods (3213), the supporting rods (3211) are arranged at one ends of the two connecting rods (3213) far away from the turntables (323), and the first carding rods (322) are all sleeved on the supporting rods (3211).

3. The fiber recovery quick impurity removing device according to claim 2, wherein pulleys (3212) are arranged at both ends of the supporting rod (3211), the two pulleys (3212) are respectively in sliding fit with the guide grooves (24) at both ends of the separating cylinder (2), and guide holes (33) which are the same in number and correspond to the first carding rods (322) are arranged on the filter cylinder (3).

4. The rapid impurity removing device for fiber recovery according to claim 2, characterized in that a plurality of recovery grooves (311) are arranged in the filter cartridge (3), the recovery grooves (311) are all arranged along the axis of the filter cartridge (3), the recovery grooves (311) are respectively communicated with the recovery holes (31) in the filter cartridge (3), and the recovery grooves (311) are all connected with an external dust suction device.

5. The rapid impurity removing device for fiber recovery according to any one of claims 1 to 4, wherein a dust suction pipe (312) and a slip ring (3123) are provided in the filter cartridge (3), the dust suction pipe (312) is sleeved on the rotating shaft (22), one end of the dust suction pipe (312) penetrates through one end of the separation cartridge (2) far away from the rotating drive motor (23), the slip ring (3123) is sleeved on the dust suction pipe (312) and located outside the separation cartridge (2), a pipeline (3124) is provided on the slip ring (3123) to communicate with an external dust suction device, a plurality of dust collection chambers (3121) are provided on the upper cover of the dust suction pipe (312), and the dust collection chambers (3121) are provided with connecting pipes (3122) which are the same in number as the recovery grooves (311) and correspond to one another.

6. The fiber recovery quick impurity removing device according to claim 5, wherein a mounting frame (25) for avoiding the slip ring (3123) is arranged at one end of the separating cylinder (2) close to the slip ring (3123), a connecting ring (251) is arranged at the center of the mounting frame (25), and one end of the rotating shaft (22) is sleeved in the connecting ring (251).

7. The fiber recovery rapid impurity removing device according to any one of claims 1 to 4, wherein a displacement frame (26) capable of sliding along the radial direction of the separation cylinder (2) is arranged on the outer wall of the separation cylinder (2), a plurality of second carding rods (261) arranged along the axis of the separation cylinder (2) are arranged on the displacement frame (26), the plurality of second carding rods (261) penetrate through the outer wall of the separation cylinder (2) and are in sliding fit with the separation cylinder (2), the plurality of first carding rods (322) on the transmission frame (321) and the plurality of second carding rods (261) on the displacement frame (26) are in a mutually staggered state, a driving mechanism (262) is arranged beside the separation cylinder (2), and the driving mechanism (262) is used for driving the displacement frame (26) to perform linear reciprocating motion.

8. The quick impurity removing device for fiber recovery according to claim 7, wherein the driving mechanism (262) comprises a supporting frame (2622) and a linear driver (2621), the supporting frame (2622) is arranged beside the separation cylinder (2), the linear driver (2621) is connected to the supporting frame (2622), the displacement frame (26) is in transmission connection with the linear driver (2621), a plurality of guide rods (264) are arranged on one side of the displacement frame (26) close to the supporting frame (2622), the guide rods (264) penetrate through the supporting frame (2622) and are in sliding fit with the supporting frame, and the axes of the guide rods (264) are parallel to the axis of the second carding rod (261).

9. The fiber recovery rapid impurity removing device according to claim 8, wherein the number of the displacement frames (26) is two, the two displacement frames (26) are arranged in a central symmetry manner, racks (263) are arranged on the sides of the two displacement frames (26) close to each other, a rotatable gear (2623) is arranged on a supporting frame (2622) of the driving mechanism (262), the gear (2623) is arranged between the two racks (263), and the two racks (263) are engaged with the gear (2623).

10. The quick impurity removing equipment for fiber recovery according to claim 7, wherein the filter screen (21) is of a semi-arc structure, the axis of the filter screen (21) is coaxial with the axis of the separating cylinder (2), the filter screen (21) is positioned between the bottom of the separating cylinder (2) and the second carding rod (261), and the filter screen (21) is provided with avoiding holes (211) for avoiding the second carding rod (261).