CN213792010U - Kitchen waste centrifugal dehydration treatment equipment - Google Patents

Abstract

The utility model discloses a kitchen garbage centrifugal dehydration treatment facility, include: the device comprises a rack, wherein a feeding groove is formed in the rack, a discharge hole is formed in the inner wall of the feeding groove, a pushing device is arranged in the feeding groove, the pushing device is provided with a pushing part, and the pushing direction of the pushing part faces to the discharge hole; a crusher having a crushing inlet and a crushing outlet, the crushing inlet being connected to the discharge opening; the hydroextractor, it has feed inlet, feed opening and delivery port, the feed inlet with be connected with the inlet pipe between the broken export, be provided with the delivery pump on the inlet pipe, the utility model discloses can grind automatic dehydration again after the breakage to rubbish, reduce the time that shifts rubbish in different equipment, improve whole work efficiency to owing to grind the breakage to rubbish before the dehydration, improved the dehydration treatment effect to rubbish.

Description

Kitchen waste centrifugal dehydration treatment equipment

Technical Field

The utility model relates to a solid waste treatment facility especially relates to a kitchen garbage centrifugal dehydration treatment facility.

Background

Generally, the garbage needs to be dehydrated when being treated, for example, the food garbage contains more water, and if the garbage is directly recovered, the garbage is generally inconvenient to be dehydrated, and the food is generally dehydrated firstly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a kitchen garbage centrifugal dehydration treatment facility to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The utility model provides a solution of its technical problem is:

kitchen garbage centrifugal dehydration treatment facility includes: the device comprises a rack, wherein a feeding groove is formed in the rack, a discharge hole is formed in the inner wall of the feeding groove, a pushing device is arranged in the feeding groove, the pushing device is provided with a pushing part, and the pushing direction of the pushing part faces to the discharge hole; a crusher having a crushing inlet and a crushing outlet, the crushing inlet being connected to the discharge opening; the dehydrator is provided with a feed inlet, a feed opening and a water outlet, wherein a feed pipe is connected between the feed inlet and the crushing outlet, and a conveying pump is arranged on the feed pipe.

The technical scheme at least has the following beneficial effects: pour the material of pending into the feed chute in, pusher in the feed chute starts, by propelling movement portion with material propelling movement to the bin outlet, the material is through the bin outlet, fall into in the breaker behind the broken entry, the breaker is used for grinding the material breakage, material after grinding the breakage is discharged from broken export, and fall into in the feed chute, the delivery pump can carry the material in the feed chute to the hydroextractor, carry out dehydration to the material by the hydroextractor, material after dehydration is discharged from the feed opening, and the water of deviating from is then discharged by the delivery port, so can grind the automatic dehydration again after the breakage to the material, the time of shifting the material in different equipment has been reduced, whole work efficiency has been improved, and because grind the breakage to the material before the dehydration, the dehydration treatment effect to the material has been improved.

As a further improvement of the above technical solution, a feeding device is arranged on the frame, the feeding device includes a hydraulic push rod and a turning plate, the turning plate is rotatably connected to the frame, one side of the turning plate is rotatable above the feed chute, the hydraulic push rod has a fixed end and a movable end, the movable end can linearly reciprocate on the fixed end, the fixed end is rotatably connected to the frame, the movable end is rotatably connected to the turning plate, the rotation axis of the fixed end and the rotation axis of the movable end are parallel to each other, and a clamping hook is arranged on the turning plate. With the garbage bin edge joint of peripheral hardware on the joint hook, pending material has been put in the garbage bin, then hydraulic rod is started, hydraulic rod extends, its expansion end will turn over the board jack-up that makes progress, make and turn over the board upset, the garbage bin also follows the upset that turns over the board and rotates, material in the garbage bin is poured by the slope, a side of turning over the board is taken on the feed chute, make the material in the garbage bin more accurately pour into the feed chute, after the material in the garbage bin is whole to be poured, hydraulic rod shortens, the expansion end drives and turns over the board and rotate downwards, the garbage bin also follows and resets, so it is more convenient to the material loading of material, can realize the automatic feeding to the material.

As a further improvement of the above technical solution, the pushing device includes a first driving motor, a transmission shaft and pushing blades, the first driving motor is disposed on the frame, an output end of the first driving motor is connected to the transmission shaft in a transmission manner, the pushing blades are spirally disposed on an outer side of the transmission shaft along a length extending direction of the transmission shaft, and the pushing blades are the pushing portion. The first driving motor drives the transmission shaft to rotate, the pushing blade on the transmission shaft also rotates along with the transmission shaft, and the spiral pushing blade can continuously convey materials to the discharge port when rotating.

As a further improvement of the above technical solution, the crusher comprises: the crushing shell is internally provided with a cavity, the top surface of the crushing shell is provided with a crushing inlet communicated with the cavity, and the side wall of the crushing shell is provided with a crushing outlet; the inner mounting cylinder is positioned in the cavity, the inner side wall of the inner mounting cylinder is provided with a plurality of fixed cutting dies around the central line of the inner mounting cylinder, and a gap is formed between any two adjacent fixed cutting dies; the second driving motor is connected to the bottom side of the crushing shell, the output end of the second driving motor extends into the cavity, the output end of the second driving motor is connected with a supporting plate in a transmission mode, the rotation axis of the supporting plate extends in the vertical direction, the supporting plate is located below the fixed cutting die, a discharging space is formed between the bottom surface of the supporting plate and the bottom surface of the cavity, the crushing outlet and the discharging space are communicated with each other, and a movable cutting die is arranged on the top surface of the supporting plate. Pour the material into the cavity from broken entry, and fall on the layer board, second driving motor drives the layer board and rotates, material on the layer board is thrown away to the inside wall of interior installation section of thick bamboo under centrifugal force's effort, the activity cutting die constantly dials the material into in the clearance at the pivoted in-process, the material is pulled by activity cutting die and fixed cutting die, the crushing falls in the ejection of compact space from the clearance, then from the broken material of discharge gate discharge, so can reduce the phenomenon that the material does not directly drop the ejection of compact through the crushed aggregates, the crushing efficiency to the material has been improved.

As a further improvement of the above technical solution, an auxiliary cutting die is disposed on an outer side wall of the supporting plate, and the auxiliary cutting die is located right below any one of the gaps. The auxiliary cutting die also rotates along with the rotation of the supporting plate, and after the material falls from the gap, the auxiliary cutting die cuts and crushes the material again, so that the crushing efficiency of the material is further improved.

As a further improvement of the above technical solution, a shifting plate is disposed on the bottom surface of the supporting plate, and the shifting plate extends along the radial direction of the supporting plate. The broken material that enters into in the ejection of compact space is dialled the drive of board and is followed the discharge gate better and discharge.

As a further improvement of the above technical solution, the dehydrator includes: the top of the dehydration outer shell is provided with the feed inlet and the feed outlet, and the bottom of the dehydration outer shell is provided with the water outlet; the feeding barrel is connected into the dewatering outer shell through a bearing, the feeding port is communicated with the feeding barrel, a conveying sleeve is sleeved on the outer side of the feeding barrel, a conveying sheet is arranged on the outer side wall of the conveying sleeve and spirally arranged around the conveying sleeve, the top end of the conveying sheet and the discharging port are located on the same horizontal plane, a first discharging port is formed in the outer side wall of the feeding barrel, and a second discharging port is formed in the position, opposite to the first discharging port, of the conveying sleeve; the feeding main shaft is in transmission connection with the feeding barrel; the feeding main shaft penetrates through the connecting sleeve, a screen is connected to the connecting sleeve in a transmission mode, the screen is cylindrical, and the conveying sheet is located in the screen; and the feeding main shaft and the feeding barrel are in transmission connection with the third driving motor respectively. The top of the dehydration shell is provided with a feed inlet for feeding materials into dehydration treatment and a feed outlet for converting the materials into food residues after dehydration treatment and discharging the food residues, the bottom of the dehydration shell is provided with a water outlet for discharging the water after dehydration treatment, the materials are poured into a feeding barrel from the feed inlet, a third driving motor drives the feeding barrel to rotate through a feeding main shaft, a conveying sleeve sleeved outside the feeding barrel rotates along with the rotation, the materials are discharged into a screen from a first discharge port and a second discharge port, the third driving motor drives the screen to rotate through a connecting sleeve, the materials do centrifugal motion in the screen, so that the water is thrown out of the screen and falls into the dehydration shell, the accumulated water can be discharged from the water outlet at the bottom of the dehydration shell, and the solid materials in the screen are conveyed upwards along with a spiral conveying sheet from bottom to top, when the materials are conveyed to the top end of the conveying piece, the materials are thrown out at the feed opening, so that the liquid materials and the solid materials can be automatically classified.

As a further improvement of the technical scheme, the dewatering shell comprises an outer sleeve, a top cover arranged at the top of the outer sleeve and a bottom cover arranged at the bottom of the outer sleeve, the outer sleeve is detachably connected with the top cover and the bottom cover, the feed inlet is arranged on the top cover, the feed outlet is arranged on the bottom cover, and the feeding cylinder is connected in the top cover through a bearing. Can store liquid material in the outer sleeve, liquid material is discharged from the delivery port, can dismantle between outer sleeve and top cap, the bottom to be connected, has improved the convenience of washing, maintaining shell, inner assembly.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

FIG. 1 is a perspective view of the overall structure of the present invention;

fig. 2 is a perspective view of the pushing device of the present invention;

fig. 3 is a front view of the crusher of the present invention;

FIG. 4 is a schematic view of the cross-sectional structure A-A of FIG. 3;

FIG. 5 shows the supporting plate, the movable cutting die, the auxiliary cutting die and the shifting plate of the present invention;

fig. 6 is a schematic view of the internal structure of the dehydrator according to the present invention.

In the drawings: 100-frame, 110-feeding groove, 210-pushing device, 211-first driving motor, 212-transmission shaft, 213-pushing blade, 220-crusher, 221-outer shell, 222-inner installation barrel, 223-fixed cutting die, 224-second driving motor, 225-supporting plate, 226-discharging space, 227-crushing outlet, 228-movable cutting die, 229-auxiliary cutting die, 230-shifting plate, 240-dehydrator, 241-feeding hole, 242-water outlet, 243-top cover, 244-outer sleeve, 245-bottom cover, 246-feeding barrel, 247-conveying sleeve, 248-conveying sheet, 249-conveying main shaft, 250-connecting sleeve, 251-screen mesh, 252-third driving motor, 261-feeding pipe, 262-delivery pump, 271-hydraulic push rod and 272-flap.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection relations mentioned herein do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection accessories according to the specific implementation situation. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Referring to fig. 1, the kitchen waste centrifugal dehydration treatment device includes: the device comprises a machine frame 100, wherein a feed chute 110 is arranged on the machine frame 100, a discharge outlet is arranged on the inner wall of the feed chute 110, a pushing device 210 is arranged in the feed chute 110, the pushing device 210 is provided with a pushing part, and the pushing direction of the pushing part faces to the discharge outlet; a crusher 220 having a crushing inlet and a crushing outlet 227, said crushing inlet being connected to said discharge outlet; the dehydrator 240 is provided with a feeding hole 241, a discharging hole and a water outlet 242, a feeding pipe 261 is connected between the feeding hole 241 and the crushing outlet 227, and a conveying pump 262 is arranged on the feeding pipe 261.

As can be seen from the above, the material to be processed is poured into the feeding chute 110, the pushing device 210 in the feeding chute 110 is started, the material is pushed to the discharging opening by the pushing part, the material falls into the crusher 220 after passing through the discharging opening and the crushing inlet, the crusher 220 is used for grinding and crushing the material, the ground and crushed material is discharged from the crushing outlet 227, and falls into the feed pipe 261, the material in the feed pipe 261 can be conveyed to the dehydrator 240 by the conveying pump 262, the material is dehydrated by the dehydrator 240, the dehydrated material is discharged from the feed opening, the water is discharged from the water outlet 242, so that the materials can be automatically dehydrated after being ground and crushed, the time for transferring the materials in different equipment is reduced, the overall working efficiency is improved, and because the materials are ground and crushed before dehydration, the dehydration treatment effect on the materials is improved.

In order to facilitate the feeding of the material and to make the whole process more automatic, in this embodiment, a feeding device is disposed on the frame 100, the feeding device includes a hydraulic push rod 271 and a turning plate 272, the turning plate 272 is rotatably connected to the frame 100, one side edge of the turning plate 272 is rotatable to the upper side of the feeding chute 110, the hydraulic push rod 271 has a fixed end and a movable end, the movable end is capable of linearly reciprocating on the fixed end, the fixed end is rotatably connected to the frame 100, the movable end is rotatably connected to the turning plate 272, the rotation axis of the fixed end and the rotation axis of the movable end are parallel to each other, and the turning plate 272 is provided with a clamping hook. With the peripheral hardware garbage bin edge joint on the joint hook, the material of pending has been put in the garbage bin, then start hydraulic rod 271, hydraulic rod 271 extension, its expansion end will turn over board 272 jack-up upwards, make and turn over the board 272 upset, the garbage bin also follows the upset that turns over board 272 and rotates, material in the garbage bin is poured by the slope, turn over a side of board 272 and take on feed chute 110, make the material in the garbage bin pour into feed chute 110 more accurately, after the material in the garbage bin is all poured, hydraulic rod 271 shortens, the expansion end drives and turns over board 272 and rotate downwards, the garbage bin also follows and resets, so it is more convenient to the material loading, can realize the automatic feeding to the material.

As shown in fig. 2, as a further embodiment of the pushing device 210, the pushing device 210 includes a first driving motor 211, a transmission shaft 212, and a pushing blade 213, the first driving motor 211 is disposed on the rack 100, an output end of the first driving motor 211 is in transmission connection with the transmission shaft 212, the pushing blade 213 is spirally disposed on an outer side of the transmission shaft 212 along a length extending direction of the transmission shaft 212, and the pushing blade 213 is the pushing portion. The first driving motor 211 drives the transmission shaft 212 to rotate, the pushing blade 213 on the transmission shaft 212 also rotates, and the spiral pushing blade 213 can continuously convey the material to the discharge opening when rotating.

As a further embodiment of the crusher 220, as shown in fig. 3, 4 and 5, the crusher 220 comprises: the crushing outer shell 221 is internally provided with a cavity, the top surface of the crushing outer shell 221 is provided with a crushing inlet communicated with the cavity, and the side wall of the crushing outer shell 221 is provided with the crushing outlet 227; the inner installation cylinder 222 is positioned in the cavity, the inner side wall of the inner installation cylinder 222 is provided with a plurality of fixed cutting dies 223 around the central line of the inner installation cylinder 222, and a gap is formed between any two adjacent fixed cutting dies 223; the second driving motor 224 is connected to the bottom side of the crushing outer shell 221, an output end of the second driving motor 224 extends into the cavity, an output end of the second driving motor 224 is connected with a supporting plate 225 in a transmission manner, a rotation axis of the supporting plate 225 extends in the vertical direction, the supporting plate 225 is located below the fixed cutting die 223, a discharging space 226 is arranged between the bottom surface of the supporting plate 225 and the bottom surface of the cavity, the crushing outlet 227 is communicated with the discharging space 226, and a movable cutting die 228 is arranged on the top surface of the supporting plate 225. Pour the material into the cavity from broken entry, and fall on layer board 225, second driving motor 224 drives layer board 225 and rotates, material on layer board 225 is thrown to on the inside wall of interior installation section of thick bamboo 222 under centrifugal force's effort, activity cutting die 228 constantly dials the material into in the clearance at the pivoted in-process, the material is dragged by activity cutting die 228 and fixed cutting die 223, the crushing falls to ejection of compact space 226 from the clearance in, then discharge broken material from the discharge gate, so can reduce the phenomenon that the material does not directly drop the ejection of compact through the crushed aggregates, the crushing efficiency to the material has been improved.

In order to further improve the grinding and crushing effect on the materials, in the present embodiment, the outer side wall of the supporting plate 225 is provided with an auxiliary cutting die 229, and the auxiliary cutting die 229 is located right below any one of the gaps. The auxiliary cutting die 229 also rotates along with the rotation of the supporting plate 225, and when the material falls from the gap, the auxiliary cutting die 229 cuts and crushes the material again, so that the crushing efficiency of the material is further improved.

In order to improve the efficiency of discharging the material from the discharge space 226 to the crushing outlet 227, in this embodiment, the bottom surface of the supporting plate 225 is provided with a pulling plate 230, and the pulling plate 230 extends along the radial direction of the supporting plate 225. The crushed material entering the discharge space 226 is better discharged from the discharge hole under the driving of the dial plate 230.

As a further embodiment of the dehydration engine 240, as shown in fig. 6, the dehydration engine 240 includes: the top of the dehydration outer shell 221 is provided with the feed port 241 and the feed opening, and the bottom of the dehydration outer shell 221 is provided with the water outlet 242; the feeding barrel 246 is connected into the dewatering outer shell 221 through a bearing, the feeding port 241 is communicated with the feeding barrel 246, a conveying sleeve 247 is sleeved outside the feeding barrel 246, a conveying sheet 248 is arranged on the outer side wall of the conveying sleeve 247, the conveying sheet 248 surrounds the conveying sleeve 247 in a spiral shape, the top end of the conveying sheet 248 and the feeding port are located on the same horizontal plane, a first discharging port is arranged on the outer side wall of the feeding barrel 246, and a second discharging port is arranged at a position, opposite to the first discharging port, of the conveying sleeve 247; the feeding main shaft 249 is in transmission connection with the feeding barrel 246; the feeding main shaft 249 penetrates through the connecting sleeve 250, a screen 251 is in transmission connection with the connecting sleeve 250, the screen 251 is cylindrical, and the conveying sheet 248 is positioned in the screen 251; and the feeding main shaft 249 and the feeding barrel 246 are in transmission connection with the third driving motor 252 respectively. The top of the dehydration outer shell 221 is provided with a feed inlet 241 for feeding materials into dehydration treatment and a feed outlet for discharging food residues after the materials are dehydrated, the bottom of the dehydration outer shell 221 is provided with a water outlet 242 for discharging water after the materials are dehydrated, the materials are poured into a feed barrel 246 from the feed inlet 241 in the dehydration process, a third driving motor 252 drives the feed barrel 246 to rotate through a feed main shaft 249, a conveying sleeve 247 sleeved outside the feed barrel 246 rotates along with the rotation, the materials are discharged into a screen 251 from a first discharge port and a second discharge port, the third driving motor 252 drives the screen 251 to rotate through a connecting sleeve 250, the materials do centrifugal motion in the screen 251, so that the water is thrown out of the screen 251 and falls into the dehydration outer shell 221, the accumulated water can be discharged from the water outlet 242 at the bottom of the dehydration outer shell 221, and the solid materials in the screen 251 are conveyed upwards along with a spiral conveying piece 248, when the material is conveyed to the top end of the conveying sheet 248, the material is thrown out at the feed opening, so that the liquid material and the solid material can be automatically classified.

As a further embodiment of the dewatering shell 221, the dewatering shell 221 includes an outer sleeve 244, a top cover 243 disposed on the top of the outer sleeve 244, and a bottom cover 245 disposed at the bottom of the outer sleeve 244, the outer sleeve 244 is detachably connected to the top cover 243 and the bottom cover 245, the feed port 241 and the feed port are disposed on the top cover 243, the water outlet 242 is disposed on the bottom cover 245, and the feed cylinder 246 is connected in the top cover 243 through a bearing. Can store liquid material in outer sleeve 244, liquid material is discharged from delivery port 242, can dismantle between outer sleeve 244 and top cap 243, the bottom 245 and be connected, has improved the convenience to shell, interior subassembly washing, maintenance.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (8)

1. Kitchen garbage centrifugal dehydration treatment facility, its characterized in that: the method comprises the following steps:

the feeding device comprises a rack (100), wherein a feeding groove (110) is formed in the rack (100), a discharge hole is formed in the inner wall of the feeding groove (110), a pushing device (210) is arranged in the feeding groove (110), the pushing device (210) is provided with a pushing part, and the pushing direction of the pushing part faces towards the discharge hole;

a crusher (220) having a crushing inlet and a crushing outlet (227), the crushing inlet being connected to the discharge opening;

the dehydrator (240) is provided with a feeding hole (241), a discharging hole and a water outlet (242), a feeding pipe (261) is connected between the feeding hole (241) and the crushing outlet (227), and a conveying pump (262) is arranged on the feeding pipe (261).

2. The kitchen waste centrifugal dehydration treatment device according to claim 1, characterized in that: the feeding device is arranged on the rack (100) and comprises a hydraulic push rod (271) and a turning plate (272), the turning plate (272) is rotatably connected onto the rack (100), one side edge of the turning plate (272) can rotate above the feeding chute (110), the hydraulic push rod (271) is provided with a fixed end and a movable end, the movable end can linearly reciprocate on the fixed end, the fixed end is rotatably connected onto the rack (100), the movable end is rotatably connected onto the turning plate (272), the rotation axis of the fixed end and the rotation axis of the movable end are parallel to each other, and the turning plate (272) is provided with a clamping hook.

3. The kitchen waste centrifugal dehydration treatment device according to claim 1, characterized in that: pusher (210) include first driving motor (211), transmission shaft (212) and propelling movement blade (213), first driving motor (211) set up in on frame (100), the output of first driving motor (211) with transmission shaft (212) transmission is connected, propelling movement blade (213) are followed the length extending direction spiral setting of transmission shaft (212) is in the outside of transmission shaft (212), propelling movement blade (213) do propelling movement portion.

4. The kitchen waste centrifugal dehydration treatment device according to claim 1, characterized in that: the crusher (220) comprises:

the crushing outer shell (221) is internally provided with a cavity, the top surface of the crushing outer shell (221) is provided with a crushing inlet communicated with the cavity, and the side wall of the crushing outer shell (221) is provided with the crushing outlet (227);

the inner installation cylinder (222) is positioned in the cavity, the inner side wall of the inner installation cylinder (222) is provided with a plurality of fixed cutting dies (223) around the central line of the inner installation cylinder (222), and a gap is formed between any two adjacent fixed cutting dies (223);

the second driving motor (224) is connected to the bottom side of the crushing outer shell (221), the output end of the second driving motor (224) extends into the cavity, a supporting plate (225) is connected to the output end of the second driving motor (224) in a transmission mode, the rotating axis of the supporting plate (225) extends in the vertical direction, the supporting plate (225) is located below the fixed cutting die (223), a discharging space (226) is arranged between the bottom surface of the supporting plate (225) and the bottom surface of the cavity, the crushing outlet (227) is communicated with the discharging space (226), and a movable cutting die (228) is arranged on the top surface of the supporting plate (225).

5. The kitchen waste centrifugal dehydration treatment device according to claim 4, characterized in that: the outer side wall of the supporting plate (225) is provided with an auxiliary cutting die (229), and the auxiliary cutting die (229) is located right below any one of the gaps.

6. The kitchen waste centrifugal dehydration treatment device according to claim 4, characterized in that: the bottom surface of the supporting plate (225) is provided with a shifting plate (230), and the shifting plate (230) extends along the radial direction of the supporting plate (225).

7. The kitchen waste centrifugal dehydration treatment device according to claim 1, characterized in that: the dehydration machine (240) includes:

the top of the dehydration outer shell (221) is provided with the feed inlet (241) and the feed outlet, and the bottom of the dehydration outer shell (221) is provided with the water outlet (242);

the feeding barrel (246), the feeding barrel (246) is connected into the dewatering outer shell (221) through a bearing, the feeding port (241) is communicated with the feeding barrel (246), a conveying sleeve (247) is sleeved outside the feeding barrel (246), a conveying sheet (248) is arranged on the outer side wall of the conveying sleeve (247), the conveying sheet (248) is spirally arranged around the conveying sleeve (247), the top end of the conveying sheet (248) and the discharging port are located on the same horizontal plane, a first discharging port is arranged on the outer side wall of the feeding barrel (246), and a second discharging port is arranged in the position, facing the first discharging port, of the conveying sleeve (247);

the feeding main shaft (249), and the feeding main shaft (249) is in transmission connection with the feeding barrel (246);

the feeding main shaft (249) penetrates through the connecting sleeve (250), a screen (251) is in transmission connection with the connecting sleeve (250), the screen (251) is cylindrical, and the conveying sheet (248) is positioned in the screen (251);

and the feeding main shaft (249) and the feeding barrel (246) are in transmission connection with the third driving motor (252) respectively.

8. The kitchen waste centrifugal dehydration treatment device according to claim 7, characterized in that: the dewatering outer shell (221) comprises an outer sleeve (244), a top cover (243) arranged at the top of the outer sleeve (244), and a bottom cover (245) arranged at the bottom of the outer sleeve (244), the outer sleeve (244) is detachably connected with the top cover (243) and the bottom cover (245), the feed port (241) is arranged on the top cover (243), the water outlet (242) is arranged on the bottom cover (245), and the feeding cylinder (246) is connected in the top cover (243) through a bearing.

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