CN214416704U - Thermoplastic plastic particle dehydrator - Google Patents

Abstract

The utility model relates to a thermoplastic plastic granule hydroextractor, be applied to the field of hydroextractor, which comprises a frame, centrifugal hydroextractor, first filter, still including setting up the second filter in the frame, the second filter is located first filter below and communicates with first filter, be equipped with the discharge end that is linked together with centrifugal hydroextractor on the second filter, second filter bottom is equipped with out the water end, be equipped with the drainage unit in the second filter, the drainage unit is including the drainage frame that the slope set up, the lower extreme of drainage frame sets up towards the discharge end, the drainage frame links to each other with second filter inside wall, be connected with a plurality of drainage boards on the drainage frame, be equipped with the clearance that is less than plastic granules between the adjacent drainage board, the drainage board deviates from one side and the discharge end of water end and is linked together. Through the setting of drainage unit in this application, can separate plastic granules and the less tiny granule plastics sediment of size, reduce the possibility that has the tiny granule plastics sediment in the plastic granules after the dehydration drying.

Description

Thermoplastic plastic particle dehydrator

Technical Field

The application relates to the field of dewaterers, in particular to a thermoplastic plastic particle dewaterer.

Background

At present, a plastic dehydrator is a device for automatically lifting and dehydrating plastic after crushing and cleaning, so as to replace manual fishing, add functions of one-level cleaning and automatic high-speed dehydration, and achieve the aim of saving labor and improving cleaning quality, and meanwhile, the plastic dehydrator can be matched with an automatic conveying device, a sieving device and the like to form higher-level automatic flow line production.

Chinese patent No. CN206287389U discloses a vertical circulating dehydrator, which comprises a main platform and a centrifugal dehydrator, wherein the centrifugal dehydrator is mounted on the main platform, a feed inlet is arranged on the side part of the lower end of the centrifugal dehydrator, and a discharge outlet is arranged on the side part of the upper end of the centrifugal dehydrator; the upper part of the feeding hole is connected with a first water filter, a block blocking net is arranged in the first water filter, and a block catching port and a water outlet are arranged on the first water filter; a circulating water tank is arranged below the first water filter, a second filter is arranged above the circulating water tank, and a filter residue fine net is obliquely arranged in the second filter. When the plastic particle filter is used, a mixture of plastic particles and water passes through the block blocking net, block-shaped plastic in the mixture is blocked and falls from the block catching port, part of water flows out of the water outlet, the filtered mixture enters the centrifugal dehydrator through the feed inlet, and dried plastic particles subjected to centrifugal dehydration are output from the discharge port; the water flow flowing out of the water outlet passes through the filter residue fine net, the filter residue fine net filters out plastic residues in the water, the plastic residues roll along the inclined direction of the filter residue fine net, subsequent collection and cleaning are facilitated, and the filtered water flows into the circulating water tank for recycling.

Aiming at the related technology, the block blocking net can filter plastic blocks with the size larger than that of plastic particles in the mixture, and the inventor thinks that small-particle plastic residues with the size smaller than that of the plastic particles easily enter a centrifugal dehydrator along with the plastic particles, so that the small-particle plastic residues are mixed in the dehydrated and dried plastic particles.

SUMMERY OF THE UTILITY MODEL

In order to improve the easy entering centrifugal dehydrator of plastic granules along with plastic granules of the tiny particle plastic sediment that size is less than plastic granules to make the defect that has tiny particle plastic sediment in the plastic granules after the dehydration drying, this application provides a thermoplastic granule hydroextractor.

The application provides a thermoplastic plastic granule hydroextractor adopts following technical scheme:

a thermoplastic plastic particle dehydrator comprises a frame, a centrifugal dehydrator and a first filter for filtering large particle materials, the first filter is provided with a feeding port, the filter further comprises a second filter arranged on the frame, the second filter is positioned below the first filter and is communicated with the first filter, the second filter is provided with a discharge end communicated with the centrifugal dehydrator, the bottom of the second filter is provided with a water outlet end, a water filtering unit is arranged in the second filter, the water filtering unit comprises a water filtering frame which is obliquely arranged, the lower end of the water filtering frame is arranged towards the discharge end, the water filtering frame is connected with the inner side wall of the second filter, the water filtering frame is connected with a plurality of water filtering plates, a gap smaller than plastic particles is arranged between the water filtering plates, and one side of each water filtering plate, which is far away from the water outlet end, is communicated with the material outlet end.

By adopting the technical scheme, a mixture of plastic particles and water enters the first filter through the feeding port, the first filter filters the mixture for the first time, large particle materials with the size larger than that of the plastic particles in the mixture are filtered, then the mixture enters the second filter, the mixture flows through the water filtering plate, the plastic particles are intercepted by the water filtering plate, slide into the discharging end along the inclined direction of the water filtering frame, and enter the centrifugal dehydrator for dehydration; the water and the small-particle plastic slag with the size smaller than the plastic particles in the mixture pass through the gaps in the water filtering plate and flow out of the second filter through the water outlet end, so that the plastic particles are separated from the small-particle plastic slag with the size smaller, and the possibility that the small-particle plastic slag is mixed in the dehydrated and dried plastic particles is reduced.

Optionally, a plurality of filter rods are arranged in the first filter, gaps larger than plastic particles are formed between the filter rods, the filter rods are arranged in an inclined mode, two ends of each filter rod are connected with the inner wall of the first filter, a discharge end is arranged at the lower end of each filter rod of the first filter, and the discharge end is communicated with one side, away from the second filter, of each filter rod.

By adopting the technical scheme, after the mixture of the plastic particles and the water enters the first filter through the feeding port, the filter rod intercepts large-particle materials in the mixture, and the large-particle materials fall into the discharging end from the filter rod along the inclination direction of the filter rod and are discharged out of the first filter through the discharging end; the filtered mixture flows into a second filter.

Optionally, a first cleaning port is formed in the first filter, the first cleaning port is sealed through a cleaning plate, and the cleaning plate is detachably connected with the first filter through a connecting unit.

Through adopting above-mentioned technical scheme, after first filter was used for a long time, when the card had impurity between the clearance of adjacent filter rod, the operator can pull down the clearance board from first filter, clears up filter rod through first clearance mouth.

Optionally, the linkage unit includes two slide rails, the clearance board slides respectively with two slide rails along self length direction's both sides and is connected, it has the connecting plate to articulate on the slide rail, the connecting hole has been seted up along self length direction on the connecting plate, the clearance board is connected with the connecting rod from one side of crossing the filter rod, the connecting hole is worn to establish by the connecting rod, threaded connection has the nut on the connecting rod, the nut is located one side that the connecting plate deviates from the clearance board.

Through adopting above-mentioned technical scheme, during the dismantlement, the operator unscrews the nut from the connecting rod, then rotates the connecting plate, breaks away from until connecting plate and connecting rod, again with clearance board roll-off from the slide rail, can follow first filter with clearance board and pull down.

Optionally, a second cleaning port is formed in the second filter, the second cleaning port is sealed through a switch board, one end of the switch board is hinged to the second filter, and the other end of the switch board is detachably connected with the second filter through a mounting unit.

Through adopting above-mentioned technical scheme, after the drainage board used for a long time, when the card had impurity between the clearance of adjacent drainage board, the operator can open the switch board, makes things convenient for the operator to clear up the filter through the second clearance mouth.

Optionally, the installation unit includes collar, mounting panel, axostylus axostyle, installation piece and torsional spring, the collar links to each other with the switch board, the installation piece links to each other with the second filter, the axostylus axostyle links to each other with the installation piece, the axostylus axostyle wears to establish the one end of mounting panel and rotates with the mounting panel to be connected, the collar is worn to establish by the mounting panel, the spring cover is twisted and is established on the axostylus axostyle, torsional spring one end links to each other with the installation piece, the other end with the mounting panel links to each other, the mounting panel contradicts with one side that the collar deviates from the second filter, the switch board contradicts with the second filter.

By adopting the technical scheme, an operator rotates the mounting plate towards the switch plate, then rotates the switch plate to separate the mounting ring from the mounting plate, and then the switch plate can be opened; when needing to seal second clearance mouth, the operator rotates the switch board towards the mounting panel, when the collar removed near the mounting panel, rotates the mounting panel towards the collar, then continues to rotate the mounting panel, passes the collar until the mounting panel, and the switch board supports tightly with the second filter, then loosens the mounting panel, and torsional spring elasticity resets, drives the mounting panel and rotates towards the direction of keeping away from the switch board, supports tightly until mounting panel and collar, can fix the switch board on the second filter.

Optionally, the one end of drainage frame towards the discharge end is articulated with the second filter, the one end that the discharge end was kept away from to the drainage frame passes through the bolt and can dismantle with the second filter and be connected.

Through adopting above-mentioned technical scheme, the operator opens the back with the flush mounting plate, pulls down the bolt, can separate the upper end and the second filter of drainage frame, then rotates the upper end of drainage frame downwards, further makes things convenient for the operator to clear up the drainage plate.

Optionally, two limiting plates are connected in the second filter, and the two sides of the water filtering frame along the length direction of the water filtering frame are respectively attached to the two limiting plates.

Through adopting above-mentioned technical scheme, the possibility that the reducible plastic granules of limiting plate dropped from the both sides of drainage frame to reduce plastic granules's waste.

Optionally, a water storage tank is arranged on the machine frame and communicated with the water outlet end.

Through adopting above-mentioned technical scheme, the water that flows out from the play water end can flow into and store in the water storage box to in the follow-up cyclic utilization to water has reduced the waste of water resource.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the water filtering unit, the plastic particles can be separated from small-particle plastic residues with smaller sizes, and the possibility that the small-particle plastic residues are mixed in the dehydrated and dried plastic particles is reduced;

2. through the arrangement of the first cleaning port, an operator can clean the filter rod conveniently;

3. through the setting of limiting plate, the possibility that the reducible plastic granules dropped from the both sides of drainage frame.

Drawings

FIG. 1 is a schematic view of the overall structure of a thermoplastic granule dehydrator according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram for embodying the first filter interior and the second filter interior in the embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 1.

Fig. 5 is an enlarged view of a portion C in fig. 2.

Fig. 6 is an enlarged view of a portion D in fig. 1.

Description of reference numerals: 1. a frame; 2. a centrifugal dehydrator; 3. a first filter; 31. a feeding port; 32. a filter rod; 33. a discharge end; 34. a first cleaning port; 35. cleaning the plate; 4. a second filter; 41. a discharge end; 42. a water outlet end; 43. a second cleaning port; 44. a switch plate; 5. a water filtering unit; 51. a water filtering frame; 52. a water filter plate; 53. a supporting strip; 54. a limiting plate; 55. a bolt; 56. a guide plate; 57. a fixing plate; 6. a connection unit; 61. a slide rail; 62. a connecting plate; 63. connecting holes; 64. a connecting rod; 65. a nut; 7. a mounting unit; 71. a mounting ring; 72. mounting a plate; 73. a shaft lever; 74. mounting blocks; 75. a torsion spring; 10. a water storage tank.

The present application is described in further detail below with reference to figures 1-6.

Detailed Description

The embodiment of the application discloses thermoplastic plastic granule hydroextractor.

Referring to fig. 1, the thermoplastic granule dehydrator includes frame 1, centrifugal dehydrator 2, first filter 3, second filter 4 and water storage tank 10, and centrifugal dehydrator 2 fixed connection is in frame 1, and first filter 3 fixed connection is in one side of centrifugal dehydrator 2, and the top of first filter 3 is provided with material loading mouth 31, and one side fixedly connected with discharge end 33 of first filter 3. The first filter 3 is fixedly connected with the second filter 4, the second filter 4 is communicated with the first filter 3 and is positioned below the first filter 3, one side of the second filter 4, which faces the centrifugal dehydrator 2, is fixedly connected with a discharge end 41, the discharge end 41 is communicated with the centrifugal dehydrator 2, the bottom of the second filter 4 is fixedly connected with a water outlet end 42, the water outlet end 42 is communicated with the upper part of the water storage tank 10, and the water storage tank 10 is fixedly connected on the frame 1. An operator puts the mixture of plastic particles and water into the first filter 3 through the feeding port 31, the first filter 3 primarily filters the mixture, the primarily filtered mixture enters the second filter 4, and meanwhile, the filtered impurities are discharged through the discharging port 33; the second filter 4 further filters the mixture, the mixture after further filtration enters the centrifugal dehydrator 2 through the discharging end 41 for dehydration and drying, and meanwhile, the filtered water and impurities flow into the water storage tank 10 through the discharging end 42 for storage.

Referring to fig. 2 and 3, a plurality of filter rods 32 are arranged in the first filter 3, two ends of each filter rod 32 are fixedly connected with the inner wall of the first filter 3, the filter rods 32 are obliquely arranged, the discharge end 33 is arranged at the lower end of each filter rod 32, and gaps among the filter rods 32 are larger than plastic particles. After an operator puts the mixture of the plastic particles and the water into the first filter 3 through the feeding port 31, the mixture falls onto the filter rod 32, the filter rod 32 intercepts large-particle materials with the size larger than that of the plastic particles, the large-particle materials slide into the discharging end 33 along the filter rod 32, and the large-particle materials are discharged out of the first filter 3 from the discharging end 33; while water and plastic particles pass through the gaps between the filter rods 32 and fall into the second filter 4.

Referring to fig. 1 and 4, a first cleaning opening 34 is formed in the first filter 3, the first cleaning opening 34 is located on one side of the first filter 3 where the discharging end 33 is located, the first cleaning opening 34 is sealed by a cleaning plate 35, and the cleaning plate 35 is connected with the first filter 3 through the connecting unit 6. The connecting unit 6 comprises two sliding rails 61, the sliding rails 61 are made of L-shaped angle steel, the two sliding rails 61 are respectively located on two sides of the cleaning plate 35 along the length direction of the cleaning plate, and the cleaning plate 35 slides along the sliding rails 61 along the two sides of the cleaning plate along the length direction of the cleaning plate. Articulated on the slide rail 61 have connecting plate 62, seted up connecting hole 63 on the connecting plate 62, connecting hole 63 is waist type hole, and clearance board 35 deviates from one side fixedly connected with connecting rod 64 of filtering pole 32, and connecting rod 64 wears to establish connecting hole 63, and threaded connection has nut 65 on the connecting rod 64, and nut 65 contradicts with one side that connecting plate 62 deviates from clearance board 35.

Referring to fig. 1 and 4, when impurities are stuck in the gap of the filter rod 32, an operator unscrews the nut 65 from the connecting rod 64, rotates the connecting plate 62 until the connecting plate 62 is separated from the connecting rod 64, slides the cleaning plate 35 until the cleaning plate 35 is separated from the slide rail 61, and then detaches the cleaning plate 35, so that the operator can clean the filter rod 32 through the first cleaning port 34 conveniently.

Referring to fig. 2 and 5, a water filtering unit 5 is arranged in the second filter 4, the water filtering unit 5 includes a water filtering frame 51 and a plurality of water filtering plates 52, the water filtering frame 51 is arranged obliquely, the lower end of the water filtering frame 51 faces the discharge end 41, and one side of the water filtering plate 52 facing away from the water discharge end 42 is communicated with the discharge end 41. Four guide plates 56 are fixedly connected in the second filter 4, one side of each guide plate 56 along the length direction is fixedly connected with the inner wall of the second filter 4, and the other side along the length direction is oppositely arranged and is arranged towards the water filtering frame 51. One end of the water filtering frame 51 facing the discharging end 41 is hinged to the inner wall of the second filter 4, a fixing plate 57 is fixedly connected to the inside of the second filter 4, one side of the fixing plate 57 along the length direction of the fixing plate is fixedly connected with a guide plate 56, and one end of the water filtering frame 51 far away from the discharging end 41 is connected with the fixing plate 57 through a bolt 55. Two ends of the water filtering plates 52 are respectively fixedly connected with two side edges of the water filtering frame 51 along the length direction of the water filtering frame, and the gap between the adjacent water filtering plates 52 is smaller than the plastic particles. The water filtering frame 51 is connected with a supporting strip 53, two ends of the supporting strip 53 are respectively and fixedly connected with two ends of the water filtering frame 51, and the supporting strip 53 is positioned on one side of the water filtering plate 52 facing the water outlet end 42. Two limiting plates 54 are arranged in the second filter 4, the two limiting plates 54 are respectively and fixedly connected with two ends of the fixing plate 57, the limiting plates 54 are arranged along the length direction of the water filtering frame 51, and two sides of the water filtering frame 51 along the length direction of the water filtering frame are respectively attached to one sides of the two limiting plates 54 facing the water filtering frame 51.

Referring to fig. 2 and 5, the mixture primarily filtered by the first filter 3 is guided by the guide plate 56 and flows onto the water filtering plates 52, and water and small plastic particles smaller than the plastic particles in the mixture pass through the gaps between the adjacent water filtering plates 52 and flow into the water storage tank 10 through the water outlet end 42 for storage; the plastic particles are intercepted by the water filtering plate 52, and roll down to the discharging end 41 along the length direction of the water filtering frame 51, and then enter the centrifugal dehydrator 2 from the discharging end 41 for dehydration and drying. The limiting plates 54 can reduce the possibility that plastic particles slide from the two sides of the water filtering frame 51 along the length direction of the water filtering frame, and the possibility that the plastic particles are clamped in the gap between the water filtering frame 51 and the limiting plates 54 can be reduced due to the fact that the two sides of the water filtering frame 51 are attached to the limiting plates 54.

Referring to fig. 1 and 6, a second cleaning opening 43 is formed in the second filter 4, one end of the water filtering frame 51, which is far away from the discharging end 41, can be rotated out of the second filter 4 through the second cleaning opening 43, the second cleaning opening 43 is closed through the switch plate 44, and the width of the second cleaning opening 43 is greater than that of the water filtering frame 51. The switch plate 44 is hinged to the second filter 4 at one end in the longitudinal direction thereof, and detachably connected to the second filter 4 through the mounting unit 7 at the other end.

Referring to fig. 6, the mounting unit 7 includes a mounting ring 71, a mounting block 74, a shaft 73, a mounting plate 72, and a torsion spring 75. The mounting ring 71 is fixedly connected with the switch plate 44, two mounting blocks 74 are provided, the mounting blocks 74 are fixedly connected with the outer side wall of the second filter 4 and are located in the mounting ring 71, two ends of the shaft rod 73 are respectively fixedly connected with the two mounting blocks 74, and the shaft rod 73 penetrates through one end of the mounting plate 72 and is rotatably connected with the mounting plate 72. The number of the torsion springs 75 is two, the two torsion springs 75 are respectively located at two sides of the mounting plate 72, the torsion springs 75 are sleeved on the shaft rod 73, one end of each torsion spring 75 is fixedly connected with the mounting block 74, and the other end of each torsion spring 75 is fixedly connected with the mounting plate 72. The mounting plate 72 penetrates the mounting ring 71, and the mounting plate 72 abuts against the side of the mounting ring 71 facing away from the second filter 4, and the switch plate 44 abuts against the outer side wall of the second filter 4.

Referring to fig. 6, when impurities are stuck in the gaps between the adjacent water filtering plates 52, an operator rotates the mounting plate 72 toward the switch plate 44, then rotates the switch plate 44 until the mounting ring 71 is separated from the switch plate 44, so that the switch plate 44 can be opened, then the operator can unscrew the bolts 55, rotate the end of the water filtering frame 51 away from the discharge end 41 out of the second filter 4 from the second cleaning opening 43, and at this time, the operator can clean the water filtering plates 52. After the cleaning is finished, after the operator fixes the water filtering frame 51 and the fixing plate 57, the switch plate 44 is rotated, when the mounting ring 71 moves to the position near the mounting plate 72, the operator rotates the mounting plate 72 towards the mounting ring 71, and then the switch plate 44 is rotated continuously until the mounting plate 72 penetrates through the mounting ring 71, the cleaning plate 35 is abutted against the outer side wall of the second filter 4, then the operator loosens the mounting plate 72, the torsion spring 75 elastically resets, the torsion spring 75 drives the mounting plate 72 to rotate towards the direction far away from the switch plate 44 until the mounting plate 72 presses the mounting ring 71, and the switch plate 44 is abutted against the second filter 4, so that the switch plate 44 is fixed on the second filter 4 to seal the second cleaning port 43.

The implementation principle of the thermoplastic granule hydroextractor of the embodiment of this application does: an operator puts the mixture of the plastic particles and the water into the first filter 3 through the feeding port 31, the filter rod 32 intercepts large-particle materials in the mixture, and the large-particle materials are discharged from the first filter 3 through the discharging end 33; the mixture after primary filtration falls onto the water filtering plates 52, water and small plastic particles in the mixture pass through gaps between the water filtering plates 52 and flow into the water storage tank 10 through the water outlet end 42, and the plastic particles are intercepted by the water filtering plates 52 and enter the centrifugal dehydrator 2 through the discharge end 41 for dehydration and drying.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a thermoplastic granule hydroextractor, includes frame (1), centrifugal dehydrator (2), is used for first filter (3) of filtering large granule material, be equipped with material loading mouth (31) on first filter (3), its characterized in that: comprises a second filter (4) arranged on the frame (1), the second filter (4) is positioned below the first filter (3) and communicated with the first filter (3), the second filter (4) is provided with a discharge end (41) communicated with the centrifugal dehydrator (2), a water outlet end (42) is arranged at the bottom of the second filter (4), a water filtering unit (5) is arranged in the second filter (4), the water filtering unit (5) comprises a water filtering frame (51) which is obliquely arranged, the lower end of the water filtering frame (51) is arranged towards the discharge end (41), the water filtering frame (51) is connected with the inner side wall of the second filter (4), the water filtering frame (51) is connected with a plurality of water filtering plates (52), gaps smaller than plastic particles are arranged between the adjacent water filtering plates (52), one side of the water filtering plate (52) departing from the water outlet end (42) is communicated with the material outlet end (41).

2. The thermoplastic pellet extractor of claim 1 wherein: be equipped with a plurality of filter rods (32) in first filter (3), it is a plurality of be equipped with the clearance that is greater than the plastic granules between filter rod (32), filter rod (32) slope sets up, the both ends of filtering rod (32) all link to each other with the inner wall of first filter (3), first filter (3) are provided with discharge end (33) at the lower extreme of filtering rod (32), discharge end (33) and one side intercommunication that filter rod (32) deviate from second filter (4).

3. The thermoplastic pellet extractor of claim 2 wherein: first clearance mouth (34) have been seted up on first filter (3), first clearance mouth (34) are sealed through cleaning plate (35), cleaning plate (35) are connected with first filter (3) can dismantle through coupling unit (6).

4. The thermoplastic pellet extractor of claim 3 wherein: connecting element (6) include two slide rails (61), clearance board (35) slide with two slide rails (61) respectively along self length direction's both sides and are connected, it has connecting plate (62) to articulate on slide rail (61), connecting hole (63) have been seted up along self length direction on connecting plate (62), one side that clearance board (35) deviate from filter rod (32) is connected with connecting rod (64), connecting hole (63) are worn to establish by connecting rod (64), threaded connection has nut (65) on connecting rod (64), nut (65) are located one side that connecting plate (62) deviate from clearance board (35).

5. The thermoplastic pellet extractor of claim 1 wherein: be equipped with second clearance mouth (43) on second filter (4), second clearance mouth (43) are sealed through switch board (44), switch board (44) one end is articulated with second filter (4), the other end through installation element (7) with second filter (4) can dismantle the connection.

6. The thermoplastic pellet extractor of claim 5 wherein: installation unit (7) include collar (71), mounting panel (72), axostylus axostyle (73), installation piece (74) and torsional spring (75), collar (71) link to each other with switch board (44), installation piece (74) link to each other with second filter (4), axostylus axostyle (73) link to each other with installation piece (74), the one end of mounting panel (72) is worn to establish in axostylus axostyle (73) and is connected with mounting panel (72) rotation, mounting panel (72) are worn to establish collar (71), torsional spring (75) cover is established on axostylus axostyle (73), torsional spring (75) one end links to each other with installation piece (74), the other end with mounting panel (72) link to each other, mounting panel (72) contradict with one side that collar (71) deviate from second filter (4), switch board (44) contradict with second filter (4).

7. The thermoplastic pellet extractor of claim 5 wherein: one end of the water filtering frame (51) facing the discharge end (41) is hinged to the second filter (4), and one end, away from the discharge end (41), of the water filtering frame (51) is detachably connected with the second filter (4) through a bolt (55).

8. The thermoplastic pellet extractor of claim 1 wherein: two limiting plates (54) are connected in the second filter (4), and the two sides of the water filtering frame (51) along the length direction of the water filtering frame are respectively attached to the two limiting plates (54).

9. The thermoplastic pellet extractor of claim 1 wherein: the water storage tank (10) is arranged on the machine frame (1), and the water storage tank (10) is communicated with the water outlet end (42).

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