CN117824309A - Efficient and convenient down dehydrator - Google Patents

Abstract

The invention discloses a high-efficiency convenient down dehydrator, and relates to the technical field of dehydrators. The anti-static device comprises a device main body, wherein a dewatering barrel is arranged at the top of the device main body, a drain pipe is arranged on the right side of the dewatering barrel, the anti-static device is arranged inside the dewatering barrel and comprises an electric telescopic rotating column, a filtering orifice plate and a convex ball heating rod, the bottom of the electric telescopic rotating column is rotatably arranged at the center of the bottom of the inner wall of the dewatering barrel, an arc-shaped groove is formed in the outer wall of the electric telescopic rotating column, the bottom of the filtering orifice plate is fixedly arranged at the top of the telescopic end of the electric telescopic rotating column, the bottom of the convex ball heating rod is fixedly arranged at the edge of the top of the filtering orifice plate, the convex ball is rotatably arranged, and the anti-static device further comprises a torsion piece, a half club, a hinge plate and a convex block. According to the invention, the convex ball heating rod is used for dynamically drying the material, so that the drying uniformity and the drying efficiency of the material are improved through dynamic drying, and the later mildew of the material is avoided.

Description

Efficient and convenient down dehydrator

Technical Field

The invention relates to the technical field of dehydrators, in particular to a high-efficiency convenient down dehydrator.

Background

The down feather processing flow is as follows: raw woolen, coarse separation, ash removal, cleaning, airing, drying, cooling, fine separation and packaging, but the steps are complicated, the mechanical use is complex, the dehydration efficiency is improved while the labor is difficult to save, and the production is inconvenient.

The patent with the patent publication number of CN207622416U discloses a high-efficient convenient eiderdown hydroextractor, which comprises a housing, be provided with the delivery port in the middle of the bottom of casing, the middle part of delivery port is provided with the solenoid valve, upper surface one side of spout is provided with first electronic hydraulic stem, the top of first electronic hydraulic stem is provided with the expansion gate, the one end fixedly connected with motor of driving shaft, control panel is installed to the below of motor, the one end of dead lever is provided with the pivot. This patent is convenient for be provided with the solenoid valve and is convenient for the automatic discharge of the water that deviate from machinery, is provided with and is heated pad and temperature controller, can provide certain temperature for mechanical dehydration and dry, is convenient for improve the efficiency that eiderdown was dried, is provided with the electronic hydraulic stem of second, realizes the rotation of dehydration box on vertical plane, is convenient for pour the eiderdown after drying, sets up the motor, uses centrifugal dehydration and the mode that the heating was dried to combine together to dry for the eiderdown, is favorable to improving work efficiency.

However, the device has the following defects: the device realizes the in-process of dehydration stoving, relies on rotatory centrifugal force to carry out heating stoving alone, leads to the material to have certain limitation in the stoving in-process, promotes the material stoving inhomogeneous, reduces the dry quality of material finished product.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-efficiency convenient down dehydrator, which solves the problems that the materials are limited in the drying process, the drying of the materials is uneven, and the drying quality of the finished products of the materials is reduced because the materials are heated and dried by the aid of the rotating centrifugal force in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a high-efficient convenient eiderdown hydroextractor, includes the device main part, device main part top is provided with the dehydration bucket, dehydration bucket right side is provided with the drain pipe, and when needs dehydration, the dehydration bucket is discharged through the drain pipe, still including preventing standing the device, preventing unsmooth device, prevent blocking device and prevent attaching the device, prevent standing the device setting in dehydration bucket left side, prevent blocking device setting is in preventing unsmooth device inside, prevent attaching the device setting in preventing standing the device below, prevent standing the device and including electric telescopic rotating column, orifice plate and protruding ball heating rod, electric telescopic rotating column bottom is rotated and is installed in dehydration bucket inner wall bottom center department, and electric telescopic rotating column outer wall has seted up the arc wall, starts electric telescopic rotating column, and electric telescopic rotating column telescopic end drives orifice plate rotatory and reciprocates, orifice plate bottom fixed mounting is at electric telescopic rotating column telescopic end top, and is driven protruding ball heating rod synchronous motion and stirs material and water, through rotatory centrifugal force acceleration drainage rate, protruding ball bottom fixed mounting is at protruding ball top edge and is evenly installed in the back and is dried material dynamic drying efficiency, and is avoided drying the drying quality to the back and forth.

According to the technical scheme, prevent device of standing still including turning round piece, half club, articulated slab and lug, turn round piece right side fixed mounting is in convex ball heating pole outer wall left side, and through filtration pore compression rivers when the filtration pore plate reciprocates, make round piece take place deformation through rivers impact force, the hemisphere pole right side runs through and fixed mounting is in turning round piece concave surface department, turns round piece drive half club and controls and remove, half club and lug round surface contact take place the conflict power, the articulated slab right side articulates in convex ball heating pole outer wall left side through the torsional spring, and the lug top moves articulated slab synchronous offset swing, and later the articulated slab is through torsional spring reset, and reciprocal so the articulated slab is bounced the material of contact and is broken up, lug bottom fixed mounting is at the articulated slab top, and the lug top is located hemisphere pole cambered surface motion trail, avoids the material to meet water and gathers the group each other, avoids material part to shelter from each other and from leading to the stoving not thoroughly.

According to the technical scheme, prevent unsmooth device includes inlet tube, filter plate and electronic pillar, the inlet tube right side runs through and fixed mounting in dehydration bucket outer wall left side, filter plate outer wall fixed mounting is inside the inlet tube, carries the water source through the inlet tube, carries out preliminary shielding to aquatic impurity through the setting of filter plate, electronic pillar right side rotates and installs in filter plate left side center department, and electronic pillar outer wall has seted up the helicla flute.

According to the technical scheme, prevent unsmooth device still includes oval bonding sheet, pull rod, adsorption bag and spray gun, oval bonding sheet bottom articulates at electronic revolving post outer wall top through the torsional spring, and electronic revolving post drives oval bonding sheet and rotates with perpendicular to horizontal plane angle through rotatory centrifugal force, oval bonding sheet and rivers area of contact are enlarged, the pull rod left side articulates in oval bonding sheet cambered surface department, and oval bonding sheet drives the pull rod and controls the removal, and the pull rod drives synchronous deformation of adsorption bag and produces the spouting power, the inside fixed mounting of adsorption bag is at electronic revolving post outer wall surface, and adsorption bag outer wall cambered surface articulates on the pull rod right side, and the adsorption bag sprays the adsorbent to inside the inlet tube through the spray gun, spray gun left side fixed mounting is in adsorption bag right side edge department, and stirring through oval bonding sheet promotes to make adsorbent and rivers accelerate to mix, avoids tiny impurity to be difficult to shelter from.

According to the technical scheme, prevent blockking up the device and include sliding ring, riser and toper piece, sliding ring inner wall slides and cup joints at electronic swivel post helicla flute outer wall, and through the restriction of helicla flute to the sliding ring when electronic swivel post clockwise rotation, make the sliding ring slide left along electronic swivel post helicla flute outer wall, riser back fixed mounting is in sliding ring outer wall cambered surface department, and the sliding ring drives riser and toper piece synchronous movement, toper piece left side fixed mounting is on the riser right side, and toper piece and the contact of filter plate filtration pore inner wall, and the toper piece is opened the shielding to the filter plate, guarantees that the water source can normally circulate.

According to the technical scheme, prevent blockking up device still includes reset piece, hook plate, pulley and shovel board, reset piece fixed mounting is between slip ring right side and filter plate left side, and when electric steering column stopped rotating, the pulling force through reset piece when resetting pulls the slip ring to reset, and the toper piece shelters from the drainage to the filter plate filtration pore this moment, hook plate back articulates in toper piece conical surface department, and the toper piece drives hook plate synchronous motion, and the hook plate adds developments for the toper piece and dredges and enlarge the area of dredging, pulley left and right sides rotates and installs inside the hook plate, and the hook plate drives pulley synchronous motion, promotes hook plate slip smoothness when the pulley rotates, shovel plate back fixed mounting is positive at the hook plate, and the hook plate drives shovel plate synchronous motion, and the shovel plate is shoveled the Kong Guhua granule.

According to the technical scheme, the anti-adhesion device comprises a connecting rod, a beam ring and a centering plate, wherein the left side of the connecting rod is slidingly installed inside an arc-shaped groove of an electric telescopic rotating column, the connecting rod is driven to move up and down through the limitation of the arc-shaped groove when the electric telescopic rotating column rotates, the connecting rod drives the beam ring to synchronously move, the outer wall of the beam ring is slidingly installed at the inner wall of a dewatering barrel, the right side of the inner wall of the beam ring is fixedly installed on the right side of the connecting rod, the beam ring reduces the circulation path of water flow and materials in the dewatering barrel, the circulation speed of the water flow is improved, the top of the centering plate is hinged at the bottom edge of the beam ring, the centering plate is used for centering the materials, and the contact frequency of the materials and convex ball heating rods is improved.

According to the technical scheme, anti-adhesion device still includes shell fragment, U-shaped frame, recess post and baffle, shell fragment fixed mounting is between centering board top inclined plane and beam inner wall concave surface, extrudees shell fragment synchronous deformation and restores when centering the board swing, drives U-shaped frame and moves about when elastic fragment deformation restores, U-shaped frame top runs through and articulates inside the shell fragment, and U-shaped frame drives the recess post along centering board inclined plane synchronous motion, and the recess post begins the rotation through the frictional force that produces with centering board contact, the just back both sides rotation of recess post is installed inside the U-shaped frame, and recess post outer wall and centering board inclined plane contact, and the rotation promotes the dry material that centers board inclined plane adhesion when the recess post rotates, avoids the raw materials adhesion, just back both sides fixed mounting of baffle is inside the U-shaped frame, and U-shaped frame drives baffle synchronous motion, and the material that the recess post promoted is dredged to the cambered surface upwards to the baffle.

The invention provides a high-efficiency convenient down dehydrator. The beneficial effects are as follows:

(1) According to the invention, through the arrangement of the anti-static device, the electric telescopic rotating column, the filter plate and the convex ball heating rod are matched, so that the filter plate drives the convex ball heating rod to stir materials and water, the drainage speed is accelerated through the rotary centrifugal force, meanwhile, the convex ball heating rod carries out dynamic drying treatment on the materials, the drying uniformity and the drying efficiency of the materials are improved through dynamic drying, and the later mildew of the materials is avoided; through twisting piece, half club, articulated slab and lug cooperation for the lug top moves articulated slab synchronous offset swing, and later the articulated slab resets through the torsional spring, and reciprocal so the articulated slab is bounced the material of contact and is broken up, avoids the material to meet the mutual agglomeration of water, avoids the material local to shelter from each other and leads to the stoving not thoroughly, promotes material individual homogeneity and stoving quality.

(2) According to the invention, through the arrangement of the anti-concave-convex device, the water inlet pipe is matched with the filter plate, so that the water inlet pipe conveys a water source, and the filter plate primarily shields impurities in water; through the cooperation of the electric rotating column and the elliptical bonding sheet, the elliptical bonding sheet enlarges the contact area between the elliptical bonding sheet and water flow, and shields and adheres impurities in water through the elliptical bonding sheet, so that the impurities are prevented from adhering to the surface of a material, and the economic loss caused by the uneven outer wall of the material and the reduced quality is prevented; through pull rod, adsorption bag and spray gun cooperation for the adsorption bag sprays the adsorbent to inside the inlet tube through the spray gun, stirs the power through oval sticky piece and promotes to make adsorbent and rivers accelerate to mix, avoids tiny impurity to be difficult to shelter from, carries out the polymerization to impurity through the adsorbent, further promotes the shielding effect of water source clean and filter plate on original basis.

(3) According to the invention, through the arrangement of the anti-blocking device, the electric rotating column, the sliding ring, the vertical plate, the conical block and the reset piece are matched, so that the conical block is opened to block the filter plate, and the normal circulation of a water source is ensured; simultaneously, the sliding ring is pulled to reset by the pulling force of the resetting piece during resetting, and the conical block shields and dredges the filter holes of the filter plate, so that the filter holes of the filter plate are prevented from being blocked by impurity accumulation; the hook-shaped plate is matched with the pulley and the shovel plate, so that the hook-shaped plate is additionally provided with dynamic dredging for the conical block and the dredging area is enlarged, the dredging effect on the filtering holes of the filter plate is further improved on the basis of the prior art, and the normal transportation of water flow is ensured not to be blocked; meanwhile, when the pulley rotates, the sliding fluency of the hook plate is improved, and the defect that the dredging efficiency of the hook plate is reduced due to the blocking of impurity sliding is avoided; the shovel plate is further enabled to shovel Kong Guhua particles, the hook-shaped plate is prevented from being difficult to tamper, solidified particles are prevented from being attached to and eroded the filter plate for a long time, and the service life of the filter plate is prolonged to a certain extent.

(4) According to the invention, through the arrangement of the anti-adhesion device, the connecting rod, the beam ring and the centering plate are matched, so that the beam ring reduces the flow path of water flow and materials in the dehydration barrel, the flow speed of the water flow is improved, and the drainage rate is improved; meanwhile, the centering plate gathers the materials in the middle, so that the contact frequency of the materials and the convex ball heating rod is improved, and the materials are prevented from being deposited; through shell fragment, U-shaped frame, recess post and baffle cooperation for the recess post begins the rotation through the frictional force that produces with the board contact placed in the middle, and the recess post is rotatory to the promotion of dry material, avoids leading to the reduction of material total amount on original basis, avoids simultaneously that different batch materials mix each other and causes the reduction material result of use; and the U-shaped frame drives the guide plate to synchronously move, the guide plate upwards dredges the cambered surface of the material pushed by the groove column, and the phenomenon of secondary adhesion of the material and the centering plate is prevented.

Drawings

FIG. 1 is a schematic diagram of the overall invention;

FIG. 2 is a schematic cross-sectional view of the entirety of the present invention;

FIG. 3 is a schematic view of an anti-static device of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in the anti-static device of the present invention;

FIG. 5 is a schematic view of an anti-bump device of the present invention;

FIG. 6 is a right side view of the anti-bump device of the present invention;

FIG. 7 is a schematic view of an anti-clogging device of the present invention;

FIG. 8 is an enlarged schematic view of a portion of the structure of the anti-clogging device of the present invention;

FIG. 9 is an enlarged schematic view of the structure at B in the anti-clogging device of the present invention;

FIG. 10 is a schematic view of an anti-adhesion device of the present invention;

FIG. 11 is an enlarged view showing the structure at C in the anti-adhesion device of the present invention.

In the figure: 1. a device body; 2. a dehydration barrel; 3. a drain pipe; 4. an anti-static device; 41. an electric telescopic rotating column; 42. a filter plate; 43. a convex ball heating rod; 44. twisting the sheet; 45. a half club; 46. a hinged plate; 47. a bump; 5. an anti-concave-convex device; 51. a water inlet pipe; 52. a filter plate; 53. an electric rotating column; 54. elliptic sticking sheets; 55. a pull rod; 56. an adsorption bag; 57. a spray gun; 6. an anti-blocking device; 61. a slip ring; 62. a riser; 63. a conical block; 64. a reset plate; 65. a hook plate; 66. a pulley; 67. a shovel plate; 7. an anti-adhesion device; 71. a connecting rod; 72. a beam ring; 73. an intermediate plate; 74. a spring plate; 75. a U-shaped frame; 76. a groove column; 77. and a guide plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-11, one embodiment of the present invention is: the utility model provides a high-efficient convenient eiderdown hydroextractor, including device main part 1, device main part 1 top is provided with dewatering tub 2, dewatering tub 2 right side is provided with drain pipe 3, still including preventing device 4 that stands, prevent unsmooth device 5, prevent setting up inside dewatering tub 2 of device 4 that stands, prevent unsmooth device 5 setting up in dewatering tub 2 left side, prevent standing device 4 including electric telescopic rotating column 41, filtering orifice 42 and convex ball heating rod 43, electric telescopic rotating column 41 bottom is rotated and is installed in dewatering tub 2 inner wall bottom center department, and arc wall has been seted up to electric telescopic rotating column 41 outer wall, filtering orifice 42 bottom fixed mounting is at electric telescopic rotating column 41 flexible end top, convex ball heating rod 43 bottom fixed mounting is at filtering orifice 42 top edge, and convex ball is rotated the installation, when needs dehydration, dewatering tub 2 is discharged through drain pipe 3, start electric telescopic rotating column 41, electric telescopic rotating column 41 flexible end drives filtering orifice 42 rotatory and reciprocates, filtering orifice 42 drives convex ball heating rod 43 synchronous motion and stirs material and water, through rotatory centrifugal force acceleration drainage speed, convex ball heating rod 43 is carried out reciprocal motion to the dynamic uniformity of drying after the material, the drying stage is avoided drying.

The anti-static device 4 further comprises a torsion sheet 44, a hemispherical rod 45, a hinged plate 46 and a bump 47, wherein the right side of the torsion sheet 44 is fixedly arranged on the left side of the outer wall of the convex ball heating rod 43, the right side of the hemispherical rod 45 penetrates through and is fixedly arranged at the concave surface of the torsion sheet 44, the right side of the hinged plate 46 is hinged on the left side of the outer wall of the convex ball heating rod 43 through a torsion spring, the bottom of the bump 47 is fixedly arranged at the top of the hinged plate 46, the top of the bump 47 is positioned on the arc-shaped movement track of the half ball rod 45, the water flow is compressed through a filtering hole when the filtering plate 42 moves up and down, the torsion sheet 44 is deformed through the impact force of the water flow, the torsion sheet 44 drives the half ball rod 45 to move left and right, the half ball rod 45 is contacted with the bump 47 in a round surface to generate a collision force, the bump 47 pushes the hinged plate 46 to swing in a synchronous offset mode, then the hinged plate 46 is reset through the torsion spring, the hinged plate 46 is reciprocated so that the hinged plate 46 bounces the contacted materials, the materials are prevented from being mutually aggregated into clusters when the materials are blocked by the water, and the materials are prevented from being blocked by each other, and incomplete drying caused by the partial mutual shielding of the materials is avoided.

The anti-concave-convex device 5 comprises a water inlet pipe 51, a filter plate 52 and an electric rotating column 53, wherein the right side of the water inlet pipe 51 penetrates through and is fixedly arranged on the left side of the outer wall of the dewatering barrel 2, the outer wall of the filter plate 52 is fixedly arranged inside the water inlet pipe 51, the right side of the electric rotating column 53 is rotatably arranged at the center of the left side of the filter plate 52, the outer wall of the electric rotating column 53 is provided with a spiral groove, a water source is conveyed through the water inlet pipe 51, and impurities in water are primarily shielded through the filter plate 52.

The anti-concave-convex device 5 further comprises an elliptic sticky piece 54, a pull rod 55, an adsorption bag 56 and a spray gun 57, wherein the bottom of the elliptic sticky piece 54 is hinged to the top of the outer wall of the electric rotating column 53 through a torsion spring, the left side of the pull rod 55 is hinged to the cambered surface of the elliptic sticky piece 54, the inside of the adsorption bag 56 is fixedly arranged on the surface of the outer wall of the electric rotating column 53, the cambered surface of the outer wall of the adsorption bag 56 is hinged to the right side of the pull rod 55, the left side of the spray gun 57 is fixedly arranged on the right side edge of the adsorption bag 56, the electric rotating column 53 drives the elliptic sticky piece 54 to rotate, the elliptic sticky piece 54 rotates at an angle perpendicular to the horizontal plane through a rotary centrifugal force, the contact area of the elliptic sticky piece 54 and water flow is enlarged, the elliptic sticky piece 54 drives the pull rod 55 to move left and right, the pull rod 55 drives the adsorption bag 56 to deform synchronously to generate spraying force, the adsorption bag 56 sprays the adsorbent into the water inlet pipe 51 through the spray gun 57, the adsorbent is accelerated to be mixed with the water flow through stirring force of the elliptic sticky piece 54, and the tiny impurities are prevented from being difficult to be blocked.

When the dewatering device is used, when dewatering is needed, the dewatering barrel 2 drains water through the drain pipe 3, at the moment, the electric telescopic rotating column 41 is started, the telescopic end of the electric telescopic rotating column 41 drives the filter plate 42 to rotate and move up and down, the filter plate 42 drives the convex ball heating rod 43 to synchronously move to stir materials and water, the dewatering speed is accelerated through rotating centrifugal force, after the dewatering is finished, the materials are dynamically dried through the reciprocating movement of the convex ball heating rod 43, and the dewatering device is different from traditional standing drying, and the drying uniformity and the drying efficiency of the materials are dynamically improved, so that the materials are prevented from mildew in the later period; when the filter plate 42 moves up and down, water flow is compressed through the filter holes, the torsion piece 44 is caused to deform through water flow impact force, then the torsion piece 44 automatically resets through self elasticity, at the moment, the torsion piece 44 drives the half ball rod 45 to move left and right, the half ball rod 45 contacts with the round surface of the convex block 47 to generate a collision force, the convex block 47 pushes the hinged plate 46 to swing in a synchronous offset manner, the hinged plate 46 resets through the torsion spring, the hinged plate 46 is reciprocated to bounce and break up contacted materials, the materials are prevented from mutually gathering and agglomerating, the incomplete drying caused by partial mutual shielding of the materials is avoided, and the individual uniformity and the drying quality of the materials are improved.

When the material needs to be cleaned, the water source is conveyed through the water inlet pipe 51, and impurities in the water are primarily shielded through the arrangement of the filter plate 52; by starting the electric rotating column 53, the electric rotating column 53 indirectly rotates through the driving assembly, the electric rotating column 53 drives the elliptical bonding sheet 54 to rotate, the elliptical bonding sheet 54 rotates at an angle perpendicular to the horizontal plane through a rotary centrifugal force, the contact area of the elliptical bonding sheet 54 and water flow is enlarged, impurities in water are shielded and adhered through the elliptical bonding sheet 54, the water source is ensured to be clean, the impurities are prevented from adhering to the surface of a material, and the economic loss caused by uneven outer wall of the material and reduced quality is prevented; simultaneously oval bonding piece 54 passes through torsional spring automatic re-setting, and reciprocal so oval bonding piece 54 drives pull rod 55 and moves about, and pull rod 55 drives the synchronous deformation of adsorption bag 56 and produces spouting the power, and adsorption bag 56 sprays the adsorbent to inlet tube 51 inside through spray gun 57, and stirring power through oval bonding piece 54 promotes to make adsorbent and rivers accelerate to mix, avoids tiny impurity to be difficult to shelter from, carries out the polymerization to impurity through the adsorbent, further promotes the shielding effect of water source clean and filter plate 52 on original basis.

Referring to fig. 1-11, on the basis of the above embodiment, another embodiment of the present invention further includes an anti-blocking device 6 and an anti-adhesion device 7, where the anti-blocking device 6 is disposed inside the anti-concave-convex device 5, and the anti-adhesion device 7 is disposed below the anti-static device 4;

the anti-blocking device 6 comprises a sliding ring 61, a vertical plate 62 and a conical block 63, wherein the inner wall of the sliding ring 61 slides and is sleeved on the outer wall of a spiral groove of the electric rotating column 53, the back of the vertical plate 62 is fixedly arranged on the arc surface of the outer wall of the sliding ring 61, the left side of the conical block 63 is fixedly arranged on the right side of the vertical plate 62, the conical block 63 is in contact with the inner wall of a filter hole of the filter plate 52, the electric rotating column 53 is restricted by the sliding ring 61 through the spiral groove when rotating clockwise, the sliding ring 61 is driven to slide leftwards along the outer wall of the spiral groove of the electric rotating column 53, the sliding ring 61 drives the vertical plate 62 and the conical block 63 to synchronously move, the conical block 63 is opened to block the filter plate 52, and the normal circulation of a water source is ensured.

The anti-blocking device 6 further comprises a reset piece 64, a hook plate 65, a pulley 66 and a shovel plate 67, wherein the reset piece 64 is fixedly arranged between the right side of the sliding ring 61 and the left side of the filter plate 52, the back of the hook plate 65 is hinged to the conical surface of the conical block 63, the left side and the right side of the pulley 66 are rotatably arranged inside the hook plate 65, the back of the shovel plate 67 is fixedly arranged on the front of the hook plate 65, when the electric rotating column 53 stops rotating, the sliding ring 61 is pulled to reset by the pulling force of the reset piece 64 when the electric rotating column 53 resets, at the moment, the conical block 63 shields and dredges the filter holes of the filter plate 52, the conical block 63 drives the hook plate 65 to synchronously move, the hook plate 65 is additionally provided with dynamic dredging and enlarges the dredging area, the hook plate 65 drives the pulley 66 to synchronously move, the hook plate 65 slides smoothly when the pulley 66 rotates, the hook plate 65 drives the shovel plate 67 to synchronously move, and the shovel plate 67 shovels particles of the filter plate Kong Guhua.

The anti-adhesion device 7 comprises a connecting rod 71, a beam ring 72 and a centering plate 73, wherein the left side of the connecting rod 71 is slidably arranged in an arc groove of the electric telescopic rotating column 41, the outer wall of the beam ring 72 is slidably arranged at the inner wall of the dewatering barrel 2, the right side of the inner wall of the beam ring 72 is fixedly arranged on the right side of the connecting rod 71, the top of the centering plate 73 is hinged at the bottom edge of the beam ring 72, the electric telescopic rotating column 41 is limited by the connecting rod 71 through the arc groove when rotating, the connecting rod 71 is driven to move up and down, the connecting rod 71 drives the beam ring 72 to synchronously move, the beam ring 72 reduces the flow path of water and materials in the dewatering barrel 2, the flow speed of water is improved, the centering plate 73 is used for centering the materials, and the contact frequency of the materials and the convex ball heating rod 43 is improved.

The anti-adhesion device 7 further comprises an elastic sheet 74, a U-shaped frame 75, a groove column 76 and a guide plate 77, wherein the elastic sheet 74 is fixedly installed between the inclined surface at the top of the centering plate 73 and the concave surface of the inner wall of the beam ring 72, the top of the U-shaped frame 75 penetrates through and is hinged inside the elastic sheet 74, the front side and the back side of the groove column 76 are rotatably installed inside the U-shaped frame 75, the outer wall of the groove column 76 is in inclined surface contact with the centering plate 73, the front side and the back side of the guide plate 77 are fixedly installed inside the U-shaped frame 75, the elastic sheet 74 is extruded to synchronously deform and restore when the centering plate 73 swings, the U-shaped frame 75 is driven to move left and right when the elastic sheet 74 deforms and restores, the U-shaped frame 75 drives the groove column 76 to synchronously move along the inclined surface of the centering plate 73, the groove column 76 starts to rotate through friction force generated by contact with the centering plate 73, dry materials adhered to the inclined surface of the centering plate 73 are rotationally pushed when the groove column 76 rotates, raw material adhesion is avoided, the U-shaped frame 75 drives the 77 to synchronously move, and the guide plate 77 is led upwards by the cambered surface of the material pushed by the guide plate 76.

When the electric rotating column 53 is used, the sliding ring 61 is driven to slide leftwards along the outer wall of the spiral groove of the electric rotating column 53 by limiting the sliding ring 61 through the spiral groove when the electric rotating column 53 rotates clockwise, the sliding ring 61 drives the vertical plate 62 and the conical block 63 to synchronously move, and at the moment, the conical block 63 is opened to shield the filter plate 52, so that the normal circulation of a water source is ensured; when the electric rotating column 53 stops rotating, the sliding ring 61 is pulled to reset by the pulling force when the reset piece 64 resets, and at the moment, the conical block 63 shields and dredges the filter holes of the filter plate 52, so that the filter holes of the filter plate 52 are prevented from being blocked by impurity accumulation; the conical block 63 drives the hook plate 65 to synchronously move, and when the hook plate 65 contacts with the inner wall of the filter hole, an interference force is generated, and at the moment, the hook plate 65 deforms towards the direction close to the center of the conical block 63, the hook plate 65 adds dynamic dredging and enlarges the dredging area for the conical block 63, so that the dredging effect on the filter hole of the filter plate 52 is further improved on the basis of the prior art, and the normal transportation of water flow is ensured to be not hindered; the hook plate 65 drives the pulley 66 to synchronously move, the pulley 66 starts to rotate through friction force generated by contact with the inner wall of the filter hole, and when the pulley 66 rotates, the sliding smoothness of the hook plate 65 is improved, so that the defect that the hook plate 65 is blocked due to impurity sliding is avoided, and the dredging efficiency is reduced; the hook-shaped plate 65 drives the shovel plate 67 to synchronously move, the shovel plate 67 shovels the particles of the filter Kong Guhua, the hook-shaped plate 65 is prevented from being difficult to tamper, solidified particles are prevented from being attached to and eroding the filter plate 52 for a long time, and the service life of the filter plate 52 is prolonged to a certain extent.

When the electric telescopic rotating column 41 rotates, the connecting rod 71 is constrained by the arc-shaped groove, so that the connecting rod 71 moves up and down, the connecting rod 71 drives the beam ring 72 to move synchronously, the beam ring 72 reduces the flow path of water flow and materials in the dehydration barrel 2, the flow speed of the water flow is improved, and the drainage speed is improved; the beam ring 72 drives the centering plate 73 to move up and down, the centering plate 73 swings towards the opposite direction when moving to the beam ring 72 through water flow resistance, the centering plate 73 gathers materials in the middle, the contact frequency of the materials and the convex ball heating rod 43 is improved, material deposition is avoided, and the drying degree of the materials is further improved; meanwhile, when the centering plate 73 swings, the elastic sheet 74 is extruded to synchronously deform and restore, when the elastic sheet 74 deforms and restores, the U-shaped frame 75 is driven to move left and right, the U-shaped frame 75 drives the groove column 76 to synchronously move along the inclined plane of the centering plate 73, the groove column 76 starts to rotate through friction force generated by contact with the centering plate 73, and when the groove column 76 rotates, the dried material adhered to the inclined plane of the centering plate 73 is rotationally pushed, so that raw material adhesion is avoided, the reduction of the total amount of the material on the original basis is avoided, and meanwhile, the reduction of the material using effect caused by the mutual mixing of different batches of materials is avoided; the U-shaped frame 75 drives the guide plate 77 to synchronously move, and the guide plate 77 guides the material pushed by the groove column 76 upwards in an arc surface manner, so that the material and the centering plate 73 are prevented from being secondarily attached.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides a convenient eiderdown hydroextractor of high efficiency, includes device main part (1), device main part (1) top is provided with dehydration bucket (2), dehydration bucket (2) right side is provided with drain pipe (3), its characterized in that: still including preventing device (4) of standing, prevent unsmooth device (5), prevent anti-blocking device (6) and prevent adhering to device (7), prevent that device (4) of standing sets up inside dehydration bucket (2), prevent unsmooth device (5) set up in dehydration bucket (2) left side, prevent that anti-blocking device (6) set up inside unsmooth device (5), prevent adhering to device (7) and set up in preventing device (4) below of standing, prevent that device (4) of standing include electric telescopic rotating column (41), filtration pore plate (42) and protruding ball heating rod (43), electric telescopic rotating column (41) bottom rotation is installed in dehydration bucket (2) inner wall bottom center department, and electric telescopic rotating column (41) outer wall has seted up the arc wall, filtration pore plate (42) bottom fixed mounting is at electric telescopic rotating column (41) flexible end top, protruding ball heating rod (43) bottom fixed mounting is in filtration pore plate (42) top edge, and protruding ball is the rotation installation.

2. The efficient and convenient down dehydrator according to claim 1, wherein: the anti-static device is characterized in that the anti-static device (4) further comprises a torsion piece (44), a hemispherical rod (45), a hinged plate (46) and a protruding block (47), the right side of the torsion piece (44) is fixedly arranged on the left side of the outer wall of the convex ball heating rod (43), the right side of the hemispherical rod (45) penetrates through and is fixedly arranged at the concave surface of the torsion piece (44), the right side of the hinged plate (46) is hinged on the left side of the outer wall of the convex ball heating rod (43) through a torsion spring, the bottom of the protruding block (47) is fixedly arranged at the top of the hinged plate (46), and the top of the protruding block (47) is positioned on the cambered surface movement track of the hemispherical rod (45).

3. The efficient and convenient down dehydrator according to claim 2, wherein: the anti-concave-convex device (5) comprises a water inlet pipe (51), a filter plate (52) and an electric rotating column (53), wherein the right side of the water inlet pipe (51) penetrates through and is fixedly installed on the left side of the outer wall of the dewatering barrel (2), the outer wall of the filter plate (52) is fixedly installed inside the water inlet pipe (51), the right side of the electric rotating column (53) is rotatably installed at the center of the left side of the filter plate (52), and a spiral groove is formed in the outer wall of the electric rotating column (53).

4. A high efficiency convenient eiderdown dehydrator according to claim 3, wherein: the anti-concave-convex device (5) further comprises an oval sticky piece (54), a pull rod (55), an adsorption bag (56) and a spray gun (57), wherein the bottom of the oval sticky piece (54) is hinged to the top of the outer wall of the electric rotating column (53) through a torsion spring, the left side of the pull rod (55) is hinged to the arc surface of the oval sticky piece (54), the inside of the adsorption bag (56) is fixedly arranged on the surface of the outer wall of the electric rotating column (53), the arc surface of the outer wall of the adsorption bag (56) is hinged to the right side of the pull rod (55), and the left side of the spray gun (57) is fixedly arranged on the right side edge of the adsorption bag (56).

5. The efficient and convenient down dehydrator according to claim 4, wherein: anti-blocking device (6) are including slip ring (61), riser (62) and toper piece (63), slip of slip ring (61) inner wall just cup joints at electronic swivel post (53) helicla flute outer wall, riser (62) back fixed mounting is in slip ring (61) outer wall cambered surface department, toper piece (63) left side fixed mounting is on riser (62) right side, and toper piece (63) and filter plate (52) filtration pore inner wall contact.

6. The efficient and convenient down dehydrator according to claim 5, wherein: anti-blocking device (6) still include reset piece (64), hook plate (65), pulley (66) and shovel board (67), reset piece (64) fixed mounting is between slip ring (61) right side and filter plate (52) left side, hook plate (65) back articulates in toper piece (63) conical surface department, pulley (66) left and right sides is rotated and is installed inside hook plate (65), shovel board (67) back fixed mounting is in hook plate (65) openly.

7. The efficient and convenient down dehydrator according to claim 6, wherein: the anti-adhesion device (7) comprises a connecting rod (71), a beam ring (72) and a centering plate (73), wherein the left side of the connecting rod (71) is slidably installed inside an arc-shaped groove of the electric telescopic rotating column (41), the outer wall of the beam ring (72) is slidably installed at the inner wall of the dewatering barrel (2), the right side of the inner wall of the beam ring (72) is fixedly installed on the right side of the connecting rod (71), and the top of the centering plate (73) is hinged at the bottom edge of the beam ring (72).

8. The efficient and convenient down dehydrator according to claim 7, wherein: anti-adhesion device (7) still include shell fragment (74), U-shaped frame (75), recess post (76) and baffle (77), shell fragment (74) fixed mounting is between centering board (73) top inclined plane and beam ring (72) inner wall concave surface, U-shaped frame (75) top runs through and articulates inside shell fragment (74), just back both sides rotation of recess post (76) are installed inside U-shaped frame (75), and recess post (76) outer wall and centering board (73) inclined plane contact, just back both sides fixed mounting of baffle (77) are inside U-shaped frame (75).