CN116697694B - Renewable resource recovery device - Google Patents

Renewable resource recovery device Download PDF

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Publication number
CN116697694B
CN116697694B CN202310965750.1A CN202310965750A CN116697694B CN 116697694 B CN116697694 B CN 116697694B CN 202310965750 A CN202310965750 A CN 202310965750A CN 116697694 B CN116697694 B CN 116697694B
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CN
China
Prior art keywords
renewable resource
unit
blanking
cylinder
sealing
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Active
Application number
CN202310965750.1A
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Chinese (zh)
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CN116697694A (en
Inventor
谢美妹
邵彪
闫维军
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Xuzhou Shengjie Building Materials Co ltd
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Xuzhou Shengjie Building Materials Co ltd
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Priority to CN202310965750.1A priority Critical patent/CN116697694B/en
Publication of CN116697694A publication Critical patent/CN116697694A/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B5/00Drying solid materials or objects by processes not involving the application of heat
    • F26B5/08Drying solid materials or objects by processes not involving the application of heat by centrifugal treatment
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B17/00Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement
    • F26B17/18Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed by rotating helical blades or other rotary conveyors which may be heated moving materials in stationary chambers, e.g. troughs
    • F26B17/22Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed by rotating helical blades or other rotary conveyors which may be heated moving materials in stationary chambers, e.g. troughs the axis of rotation being vertical or steeply inclined
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B25/00Details of general application not covered by group F26B21/00 or F26B23/00
    • F26B25/04Agitating, stirring, or scraping devices
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B25/00Details of general application not covered by group F26B21/00 or F26B23/00
    • F26B25/06Chambers, containers, or receptacles

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Molecular Biology (AREA)
  • Centrifugal Separators (AREA)

Abstract

The utility model discloses a renewable resource recycling device, which relates to the field of resource recycling equipment, and comprises a support frame and a sealing box fixedly arranged on the support frame; still include catchment awl section of thick bamboo, centrifugal draining unit, drainage unit, fortune material unit, shift driving unit, drive position adjusting structure, unloading access unit and sealed material loading structure. According to the utility model, the water on the renewable resource material is separated in a centrifugal way, the renewable resource material is turned over from inside to outside in a synchronous spiral feeding way, and the water on the renewable resource material can be sufficiently and rapidly drained by increasing the surging property of the draining process of the drained renewable resource material, so that the recycling quality of the drained renewable resource material is ensured; the discharging access unit is used for increasing the material guiding stroke of the material conveying unit, and the material conveying unit can transfer the spiral feeding renewable resource materials so as to meet the convenience of discharging the renewable resource materials.

Description

Renewable resource recovery device
Technical Field
The utility model relates to the field of resource recovery equipment, in particular to a renewable resource recovery device.
Background
Human available resources can be divided into two classes: firstly, non-renewable resources and secondly, renewable resources. The renewable resources are renewable resources, namely nonrenewable material resources which are repeatedly recycled after being developed and used once and scrapped in various activities of human production, living, scientific education, traffic, national defense and the like, and comprise steel, nonferrous metals, rare metals, alloys, inorganic nonmetal, plastics, rubber, fibers, paper and the like which are produced and scrapped by taking minerals as raw materials, and are called as renewable resources.
The utility model discloses a draining device for recycling renewable resources, which relates to the technical field of recycling of renewable resources, and particularly relates to a draining device for recycling renewable resources, comprising a machine case, a box body and a cover body, wherein one end of a pump body in the machine case is communicated with the interior of the box body through a liquid suction pipe, the other end of the pump body penetrates through the liquid discharge pipe and the exterior of the box body, a filter bucket is hung between limiting blocks on the inner wall of the box body, an arc-shaped bottom cover is arranged on the lower portion of the filter bucket, a gas collecting cover is arranged on the top end face of the liquid suction pipe, and an elastic filter screen is arranged on the inner wall of an opening part on the upper portion of the gas collecting cover. According to the utility model, the arc bottom cover of the filter bucket is placed in the gas collecting hood on the liquid suction pipe by arranging the filter bucket with the arc bottom cover, the pump body is opened to perform negative pressure pumping operation, so that the working efficiency is improved, and the elastic filter screen is further arranged on the inner wall of the gas collecting hood, so that the filter bucket is better attached to the lower part of the arc bottom cover, and meanwhile, a certain filtering effect can be achieved, and the damage of impurities to the pump body is avoided, thereby better meeting the use requirements.
The inventor considers that when the draining device for recycling the renewable resources in the related art performs draining recycling treatment on the renewable resources, although the draining of a certain amount of renewable resource materials is realized by a negative pressure pumping operation mode, thorough draining is realized only by a negative pressure and free discharging draining mode, so that the processing time of draining can be prolonged, and the sufficiency of draining of the internally accumulated renewable resource materials cannot be ensured; in addition, after the draining of the renewable resource material is finished, the discharging of the renewable resource material is inconvenient, and the time and the labor are wasted.
Disclosure of Invention
Based on the above, it is necessary to achieve thorough draining by only relying on the draining mode of negative pressure and free discharging for the current device for recycling the renewable resources, so that the processing time of draining can be prolonged, and the sufficiency of draining of the renewable resource materials accumulated in the device cannot be ensured; in addition, after the draining of the renewable resource material is finished, the discharging is inconvenient, and the problems of time and labor waste are solved, so that the renewable resource recycling device is provided.
The renewable resource recycling device comprises a supporting frame and a sealing box fixedly arranged on the supporting frame;
further comprises:
the water collecting cone is fixedly arranged in the sealing box;
the centrifugal draining unit is rotationally connected in the water collecting cone; the centrifugal draining unit comprises a screen cylinder, a rotating ring which is rotationally connected with the screen cylinder and the water collecting cone cylinder, draining holes formed in the screen cylinder, a filter screen fixedly arranged on the outer surface of the screen cylinder in a surrounding mode and a rotating pipe fixedly arranged at the bottom of the screen cylinder and sealing and rotating at the inner bottom of the water collecting cone cylinder; a draining collection cavity is formed between the water collection cone cylinder and the screen cylinder;
the drainage unit is arranged at the inner bottom of the sealing box and is communicated with the draining collection cavity in the water collection cone;
the material conveying unit comprises a rotating shaft which vertically rotates to penetrate through the screen cylinder, a spiral blade which is arranged on the rotating shaft in a disc mode, and a blanking cylinder which is arranged on the outer side of the spiral blade and fixedly erected in the screen cylinder; the rotating shaft penetrates through the rotating pipe; the height of the blanking cylinder is lower than the highest position of the screen cylinder;
the displacement driving unit is used for synchronously driving the rotary tube and the rotary shaft to rotate; and
the driving position adjusting structure is arranged on the water collecting cone; the driving position adjusting structure is used for adjusting the transmission height of the displacement driving unit in a lifting mode.
Further, the device also comprises a blanking access unit and a sealing and feeding structure;
the blanking access unit is arranged in the sealing box; the blanking access unit comprises an upper charging barrel, a second hydraulic rod and a guiding inclined through pipe, wherein the upper charging barrel and the lower charging barrel are positioned on the same axis, the second hydraulic rod is fixedly arranged on the upper charging barrel and the sealing box, and the guiding inclined through pipe is fixedly communicated with the upper charging barrel; the feeding cylinder is positioned right above the discharging cylinder;
the guiding inclined through pipe penetrates through the bottom of the sealing box in a sealing mode and extends downwards.
Furthermore, the bottom of the sealing box is seamlessly connected with a sealing ring, and the guiding inclined through pipe passes through the sealing ring.
Further, the bottom of the guiding inclined through pipe is detachably connected with a plugging cover.
Further, the sealing feeding structure comprises a blanking cover fixedly penetrating through the inner top of the sealing box and a sealing door cover rotationally connected with the top of the sealing box through a hinge;
the sealing door cover corresponds to the upper opening position of the blanking cover, and the lower opening of the blanking cover corresponds to the upper side position of the screen cylinder.
Further, the drainage unit comprises a water suction pump arranged at the inner bottom of the sealing box and an inclined guide pipe connected with the water inlet end of the water suction pump;
the water outlet end of the water suction pump is connected to the outside of the sealing box through a guide pipe;
one end of the inclined guide pipe, which is opposite to the water suction pump, is fixedly communicated with the top position of the water collection cone.
Further, the displacement driving unit comprises a motor fixedly arranged at the bottom of the sealing box, a limit post fixedly arranged at the output end shaft of the motor and positioned in the sealing box, a carrier gear slidingly inserted on the limit post, and a first pinion and a second pinion which are in meshed connection with the carrier gear;
the first pinion is coaxially and fixedly connected to the rotating shaft, and the second pinion is coaxially and fixedly connected to the rotating tube;
and three gears are arranged on the carrier gear.
The bottom of the gap bridge gear shaft is provided with a limiting chute matched with the limiting column in a sliding manner.
Further, the driving position adjusting structure comprises a first hydraulic rod and a rotating bearing arranged on a piston end shaft of the first hydraulic rod;
the first hydraulic rod is rotatably connected with the middle end of the top of the carrier gear through a rotary bearing.
Compared with the prior art, the utility model has the beneficial effects that:
1. according to the utility model, the water collecting cone, the centrifugal draining unit, the material conveying unit, the shifting driving unit and the draining unit are arranged, the water on the renewable resource material is separated in a centrifugal mode, the renewable resource material is turned over and thrown from inside to outside in a synchronous spiral feeding mode, the water on the renewable resource material can be drained fully and quickly by increasing the surging property of the draining process of the renewable resource material and matching with the negative pressure water pumping action of the draining unit, so that the recycling quality of the drained renewable resource material can be ensured.
2. According to the utility model, the blanking access unit and the driving position adjusting structure are arranged, the driving position adjusting structure can control the shift driving unit to carry out shift transmission, namely the effect of independently driving the material conveying unit is met, the lifting blanking access unit and the material conveying unit are matched to carry out docking action, the blanking access unit is used for increasing the material guiding stroke of the material conveying unit, and the material conveying unit can transfer spiral feeding renewable resource materials so as to meet the convenience of blanking of the renewable resource materials.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present utility model.
Fig. 2 shows a cross-sectional view of fig. 1.
Fig. 3 is a schematic view of the structure of fig. 1 without the seal box.
Fig. 4 is a schematic view showing the structure of the water collecting cone and the centrifugal draining unit in fig. 3.
Fig. 5 is a schematic structural diagram of the centrifugal draining unit and the material transporting unit in fig. 3.
Fig. 6 shows a partial schematic view of 3.
Fig. 7 is a schematic structural diagram of the blanking access unit in fig. 3.
Description of main reference numerals:
1. a support frame; 2. a seal box; 3. a water collecting cone; 4. a centrifugal draining unit; 41. a screen drum; 42. a rotating ring; 43. a draining hole; 44. a filter screen; 45. a rotary pipe; 5. a drainage unit; 51. a water pump; 52. a chute; 6. a material conveying unit; 61. a rotating shaft; 62. a helical blade; 63. a blanking cylinder; 7. a shift driving unit; 71. a motor; 72. a limit column; 73. a carrier gear; 74. a first pinion gear; 75. a second pinion; 8. a drive position adjustment structure; 81. a first hydraulic lever; 82. a rotating bearing; 9. a blanking access unit; 91. a feeding cylinder; 92. a second hydraulic lever; 93. guiding an inclined through pipe; 10. sealing the feeding structure; 101. a blanking cover; 102. sealing the door cover; 11. a seal ring; 12. and (5) a plugging cover.
The foregoing general description of the utility model will be described in further detail with reference to the drawings and detailed description.
Detailed Description
The present utility model will be described in detail with reference to the accompanying drawings.
Example 1
The embodiment provides a renewable resource recycling device, which comprises a support frame 1 and a sealing box 2 fixedly installed on the support frame 1.
The renewable resource recycling device also comprises a water collection cone 3, a centrifugal draining unit 4, a drainage unit 5, a material conveying unit 6, a displacement driving unit 7 and a driving position adjusting structure 8;
the water collecting cone 3 is fixedly arranged in the sealing box 2; the water collecting cone 3 can be used for guiding the drained water of the renewable resource materials;
referring to fig. 4 in combination, the centrifugal draining unit 4 is rotatably connected in the water collecting cone 3; the centrifugal draining unit 4 comprises a screen drum 41, a rotating ring 42 rotatably connected to the screen drum 41 and the water collecting cone drum 3, draining holes 43 formed in the screen drum 41, a filter screen 44 fixedly arranged on the outer surface of the screen drum 41 in a surrounding manner, and a rotating pipe 45 fixedly arranged at the bottom of the screen drum 41 and hermetically rotating at the inner bottom of the water collecting cone drum 3; a draining collection cavity is formed between the water collection cone cylinder 3 and the screen cylinder 41; the filter screen 44 is used for intercepting and filtering the material in the draining of the renewable resource material so as to avoid the problem of water drainage blockage caused by the water drainage unit 5;
specifically, after the renewable resource material is fed into the screen drum 41, the screen drum 41 is controlled to perform centrifugal rotation in the water collection cone drum 3, so that water on the renewable resource material can be thrown out in a centrifugal manner to enter a draining collection cavity for short-term collection through the draining holes 43, and impurity removal and filtration can be performed by the filter screen 44 when the water passes through the draining holes 43, so that the renewable resource material is drained in a centrifugal manner, and the draining efficiency can be improved;
referring to fig. 3 in combination, the drainage unit 5 is disposed at the inner bottom of the sealing box 2 and communicates with the drainage collection chamber in the water collection cone 3; the drainage unit 5 comprises a water suction pump 51 arranged at the inner bottom of the sealed box 2 and an inclined guide pipe 52 connected with the water inlet end of the water suction pump 51; the water outlet end of the water pump 51 is connected to the outside of the sealing box 2 through a conduit; one end of the inclined guide pipe 52, which is opposite to the water suction pump 51, is fixedly communicated with the top position of the water collection cone 3;
specifically, when the drained water enters the draining collection cavity through the draining hole 43 for short-term collection, the water suction pump 51 can be started, and the negative pressure water pumping efficiency of the draining collection cavity can be accelerated when the sealed box is in a sealed state;
referring to fig. 5 in combination, the material transporting unit 6 includes a rotation shaft 61 vertically rotating through the screen drum 41, a spiral blade 62 coiled on the rotation shaft 61, and a discharging drum 63 provided outside the spiral blade 62 and fixedly installed in the screen drum 41; the rotating shaft 61 passes through the rotating pipe 45; the height of the blanking cylinder 63 is lower than the highest position of the screen cylinder 41; the inner edge of the spiral blade 62 is of a concave design, so that the renewable resource materials in the screen drum 41 can be effectively collected and transmitted; the advantage of the high design is that when the renewable resource material needs to be turned over, that is, the renewable resource material fed through the spiral blade 62 overflows from the highest position of the discharging barrel 63, so that the renewable resource material can be prevented from being turned over; in the utility model, a blanking cylinder 63 erected in a screen cylinder 41 is not contacted with the inner top of the screen cylinder 41 and a certain material guiding interval is reserved;
it should be noted that, in order to improve the rotation stability of the rotating shaft 61, both ends of the rotating shaft 61 may extend to the top and bottom positions of the sealing box 2 for rotation connection;
specifically, when the screen drum 41 centrifugally drains the renewable resource material, the spiral blade 62 on the rotating shaft 61 is driven to perform feeding rotation at the same time, so that the renewable resource material in the screen drum 41 can be fed through the material guiding section and transported upwards by the spiral blade 62 until the renewable resource material passes through the top of the blanking drum 63, and the renewable resource material can overflow outwards, so that the transmission mode can increase the drainage surging property of the renewable resource material, and the renewable resource material can be ensured to be contacted with the inner wall of the screen drum 41 and drained through the drainage holes 43;
referring to fig. 6 in combination, the displacement driving unit 7 is used for synchronously driving the rotation tube 45 and the rotation shaft 61 to rotate; the displacement driving unit 7 comprises a motor 71 fixedly arranged at the bottom of the sealing box 2, a limit post 72 fixedly arranged at the output end shaft of the motor 71 and positioned in the sealing box 2, a carrier gear 73 slidably inserted on the limit post 72, and a first pinion gear 74 and a second pinion gear 75 which are engaged and connected on the carrier gear 73; the limiting posts 72 in the community are integrally provided with limiting strips;
the first pinion 74 is coaxially and fixedly connected to the rotating shaft 61, and the second pinion 75 is coaxially and fixedly connected to the rotating pipe 45;
the carrier gear 73 is provided with three gears; the design has the advantages that two gears can be used for driving the first pinion 74, the other gear can be used for driving the second pinion 75, namely, when the rotating shaft 61 is required to be independently controlled to rotate, the driving height of the carrier gear 73 can be adjusted so as to enable the second pinion 75 to be un-driven, the first pinion 74 continues to drive, and the process needs to carry out blanking treatment on the renewable resource materials;
a limit chute matched with the limit post 72 for sliding insertion is arranged at the bottom of the axle of the carrier gear 73; the design has the advantages that when the height of the carrier gear 73 needs to be adjusted, the limiting post 72 does not need to be separated from the carrier gear 73 in the process, and the carrier gear 73 only needs to move up and down on the limiting post 72;
specifically, the motor 71 controls the carrier gear 73 to rotate, so that the carrier gear 73 can synchronously drive the first pinion 74 and the second pinion 75 to rotate, and the first pinion 74 and the second pinion 75 can synchronously drive the rotating shaft 61 and the rotating pipe 45 to perform circular motion so as to drive the spiral blade 62 to perform spiral feeding and centrifugal draining motion of the screen drum 41;
the driving position adjusting structure 8 is arranged on the water collecting cone 3; the driving position adjusting structure 8 is used for adjusting the transmission height of the displacement driving unit 7 in a lifting manner; the driving position adjusting structure 8 comprises a first hydraulic rod 81 and a rotating bearing 82 arranged on the piston end shaft of the first hydraulic rod 81; the first hydraulic rod 81 is rotatably connected with the middle end of the top of the carrier gear 73 through a rotary bearing 82;
specifically, when the draining of the renewable resource material is completed, that is, when the discharging is needed, the first hydraulic rod 81 pulls the rotary bearing 82, the rotary bearing 82 drives the carrier gear 73 to ascend on the limiting post 72 until the second pinion 75 is released, the first pinion 74 is continuously driven by the other gear, and the motor 71 drives the carrier gear 73 to rotate and then drives the rotating shaft 61 to rotate, that is, drives the spiral blade 62 to perform spiral feeding on the renewable resource material;
in this embodiment, the water on the renewable resource material is separated by using a centrifugal manner, and the renewable resource material is turned over and thrown from inside to outside in a synchronous spiral feeding manner, so as to increase the surging property of the draining process of the drained renewable resource material, and the water on the renewable resource material can be drained sufficiently and rapidly by matching with the pumping action of the negative pressure of the drainage unit 5, so that the quality recovered after draining the renewable resource material is ensured.
Example 2
The difference between the embodiment 2 and the embodiment 1 is that the device further comprises a blanking access unit 9 and a sealing and feeding structure 10;
referring to fig. 7 in combination, a blanking access unit 9 is provided in the sealing box 2; the blanking access unit 9 comprises an upper charging barrel 91 which is positioned on the same axis with the lower charging barrel 63, a second hydraulic rod 92 fixedly arranged on the upper charging barrel 91 and the sealing box 2, and a guide inclined through pipe 93 fixedly communicated with the upper charging barrel 91; the guide inclined through pipe 93 penetrates through the bottom of the sealing box 2 in a sealing mode and extends downwards; the upper cylinder 91 is located at a position immediately above the lower cylinder 63;
the bottom of the sealing box 2 is connected with a sealing ring 11 in a seamless manner, and a guiding inclined through pipe 93 passes through the sealing ring 11; the sealing ring 11 can provide sealing treatment for the lifting guide inclined through pipe 93;
the bottom of the guide inclined through pipe 93 is detachably connected with a plugging cover 12; when the guiding inclined through pipe 93 does not carry out the discharging of the renewable resource materials, the blocking cover 12 can be blocked at the discharging opening of the guiding inclined through pipe 93; conversely, the closure cap 12 is opened;
specifically, when the discharged and drained renewable resource material is needed, the second hydraulic rod 92 can drive the feeding cylinder 91 to be butted on the discharging cylinder 63 so as to lengthen the transmission path of the discharging cylinder 63, and when the spiral blade 62 is used for spiral feeding, the renewable resource material can enter the guiding inclined through pipe 93 through the feeding cylinder 91 to be discharged until being discharged into the sealing box 2, and can be carried out carrying and transferring through the transferring trolley in the follow-up process;
it should be noted that, the safety valve used in the application number 202220249475.4 is also adopted in the renewable resource recycling apparatus of the present utility model, and the safety valve may be disposed on the seal box 2, so as to improve the safety of the negative pressure operation of the drainage unit 5;
with continued reference to fig. 3, the sealing and feeding structure 10 includes a blanking cover 101 fixedly penetrating through the inner top of the sealing box 2 and a sealing door cover 102 rotatably connected to the top of the sealing box 2 by a hinge;
the sealing door cover 102 corresponds to the upper opening position of the blanking cover 101, and the lower opening of the blanking cover 101 corresponds to the upper side position of the screen drum 41;
specifically, when the renewable resource material needs to be drained and recovered, the sealing door cover 102 can be opened, and the blanking cover 101 provides a channel for guiding the renewable resource material to the screen drum 41, so that the renewable resource material can be manually guided into the screen drum 41 through the blanking cover 101, and then the draining treatment can be performed.
The foregoing is merely a preferred embodiment of the utility model, and it is to be understood that the utility model is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims (9)

1. The renewable resource recycling device comprises a supporting frame (1) and a sealing box (2) fixedly arranged on the supporting frame (1);
characterized by further comprising:
the water collecting cone (3) is fixedly arranged in the sealing box (2);
the centrifugal draining unit (4) is rotationally connected in the water collecting cone (3); the centrifugal draining unit (4) comprises a screen cylinder (41), a rotating ring (42) rotatably connected to the screen cylinder (41) and the water collecting cone cylinder (3), draining holes (43) formed in the screen cylinder (41), a filter screen (44) fixedly arranged on the outer surface of the screen cylinder (41) in a surrounding mode, and a rotating pipe (45) fixedly arranged at the bottom of the screen cylinder (41) and sealed and rotated at the inner bottom of the water collecting cone cylinder (3); a draining collection cavity is formed between the water collection cone (3) and the screen drum (41);
the drainage unit (5) is arranged at the inner bottom of the sealing box (2) and is communicated with the draining collection cavity in the water collection cone (3);
the material conveying unit (6), the material conveying unit (6) comprises a rotating shaft (61) vertically rotating to penetrate through the screen cylinder (41), a spiral blade (62) coiled on the rotating shaft (61) and a blanking cylinder (63) arranged outside the spiral blade (62) and fixedly erected in the screen cylinder (41); the rotating shaft (61) passes through the rotating pipe (45); the height of the blanking cylinder (63) is lower than the highest position of the screen cylinder (41);
the blanking cylinder (63) erected in the screen cylinder (41) is not contacted with the inner bottom of the screen cylinder (41) and a certain space is reserved, when the screen cylinder (41) centrifugally drains the renewable resource material, the spiral blade (62) on the rotating shaft (61) is driven to feed and rotate, the renewable resource material in the screen cylinder (41) can be fed through the space reserved between the blanking cylinder (63) and the inner bottom of the screen cylinder (41), and the renewable resource material can be transported upwards by the spiral blade (62) until the renewable resource material can overflow outwards when passing through the topmost part of the blanking cylinder (63);
a displacement driving unit (7), wherein the displacement driving unit (7) is used for synchronously driving the rotating pipe (45) and the rotating shaft (61) to rotate; and
the driving position adjusting structure (8) is arranged on the water collecting cone (3); the driving position adjusting structure (8) is used for adjusting the transmission height of the displacement driving unit (7) in a lifting mode.
2. The renewable resource recycling apparatus according to claim 1, further comprising a blanking access unit (9) and a sealing and feeding structure (10);
the blanking access unit (9) is arranged in the sealing box (2); the blanking access unit (9) comprises an upper charging barrel (91) which is positioned on the same axis as the blanking barrel (63), a second hydraulic rod (92) fixedly arranged on the upper charging barrel (91) and the sealing box (2) and a guiding inclined through pipe (93) fixedly communicated with the upper charging barrel (91); the upper charging barrel (91) is positioned right above the lower charging barrel (63);
the guide inclined through pipe (93) penetrates through the bottom of the sealing box (2) in a sealing mode and extends downwards.
3. A renewable resource recycling apparatus according to claim 2, wherein the bottom of the sealing box (2) is seamlessly connected with a sealing ring (11), and the guiding chute (93) passes through the sealing ring (11).
4. A renewable resource recycling apparatus according to claim 3, wherein the bottom of the guiding chute (93) is detachably connected with a closure cap (12).
5. The renewable resource recycling device according to claim 2, wherein the sealing and feeding structure (10) comprises a blanking cover (101) fixedly penetrating through the inner top of the sealing box (2) and a sealing door cover (102) rotatably connected with the top of the sealing box (2) through a hinge;
the sealing door cover (102) corresponds to the upper opening position of the blanking cover (101), and the lower opening of the blanking cover (101) corresponds to the upper side position of the screen cylinder (41).
6. The renewable resource recycling apparatus according to claim 1, wherein said drainage unit (5) comprises a suction pump (51) provided at the inner bottom of said sealed tank (2) and a chute (52) connected to the water inlet end of said suction pump (51);
the water outlet end of the water suction pump (51) is connected to the outside of the sealing box (2) through a guide pipe;
one end of the inclined guide pipe (52) which is opposite to the water suction pump (51) is fixedly communicated with the top of the water collection cone (3).
7. A renewable resource recycling apparatus according to claim 1, wherein said displacement driving unit (7) comprises a motor (71) fixedly mounted at the bottom of said sealed box (2), a limit post (72) fixedly mounted at the output shaft of said motor (71) and located in said sealed box (2), a carrier gear (73) slidably inserted on said limit post (72) and a first pinion (74) and a second pinion (75) engaged and connected on said carrier gear (73);
the first pinion (74) is coaxially and fixedly connected to the rotating shaft (61), and the second pinion (75) is coaxially and fixedly connected to the rotating tube (45);
and three gears are arranged on the carrier gear (73).
8. The renewable resource recycling apparatus according to claim 7, wherein a limiting chute matched with the limiting post (72) in a sliding manner is arranged at the bottom of the axle of the carrier gear (73).
9. A renewable resource recycling apparatus according to claim 7, wherein said drive position adjustment structure (8) comprises a first hydraulic stem (81) and a rotational bearing (82) provided at a piston end shaft of said first hydraulic stem (81);
the first hydraulic rod (81) is rotatably connected with the middle end of the top of the carrier gear (73) through a rotating bearing (82).
CN202310965750.1A 2023-08-02 2023-08-02 Renewable resource recovery device Active CN116697694B (en)

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Application Number Priority Date Filing Date Title
CN202310965750.1A CN116697694B (en) 2023-08-02 2023-08-02 Renewable resource recovery device

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Application Number Priority Date Filing Date Title
CN202310965750.1A CN116697694B (en) 2023-08-02 2023-08-02 Renewable resource recovery device

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Publication Number Publication Date
CN116697694A CN116697694A (en) 2023-09-05
CN116697694B true CN116697694B (en) 2023-11-03

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CN217401290U (en) * 2022-01-30 2022-09-09 湖北华聚鑫再生资源有限公司 Novel renewable resources recycle waterlogging caused by excessive rainfall device
CN217876924U (en) * 2022-07-11 2022-11-22 漳州新时代酵养食品有限公司 Ferment production is with driping device

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CN113681774A (en) * 2021-08-31 2021-11-23 江学清 Broken drying system of recycled plastic
CN217401290U (en) * 2022-01-30 2022-09-09 湖北华聚鑫再生资源有限公司 Novel renewable resources recycle waterlogging caused by excessive rainfall device
CN217876924U (en) * 2022-07-11 2022-11-22 漳州新时代酵养食品有限公司 Ferment production is with driping device

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