CN218779598U - Garbage processor - Google Patents

Abstract

The utility model relates to the technical field of environmental protection, in particular to a garbage disposer. The water-saving device comprises a shell, wherein a drainage cavity is formed in the shell, and a crushing device is arranged in the drainage cavity and connected with a driving motor; the shell is connected with a lower water cup head of the water tank, and the smashing device is arranged below the lower water cup head; the mesh enclosure is arranged at the upper end of the crushing device, and the upper end of the mesh enclosure faces the lower water cup head. The mesh enclosure is arranged between the water outlet of the water tank and the stirring device, so that garbage in the stirring device can be well limited to fall into the water discharging cavity only after being fully stirred, the garbage is discharged into a sewer pipe, and the small holes in the mesh enclosure can be beneficial to discharging sewage, so that the sewage cannot be remained in the stirring device. The leak protection cup is connected with still below the basin, under the cooperation jointly of leak protection cup and screen panel, can restrict rubbish and be in the comminution device always to guarantee the effect of comminution rubbish.

Description

Garbage processor

Technical Field

The utility model relates to the technical field of environmental protection, in particular to a garbage disposer.

Background

With the continuous enhancement of environmental awareness of the whole society, people have more understanding on the aspects of garbage classification and recovery, and various garbage disposers gradually enter the market. In the current household kitchen, a separate water tank is generally arranged, and a user generates a large amount of kitchen waste when processing food materials, and the kitchen waste is often discharged through a sewer pipe. As a garbage processor connected below the kitchen sink, kitchen garbage falling into the sewer pipeline can be primarily processed, and the blockage of the sewer pipeline caused by the overlarge volume of the garbage is avoided.

The prior technical scheme has the following defects:

1. when the existing garbage disposer stirs garbage, the garbage falling into the garbage disposer is easily driven due to the fact that the garbage disposer moves, so that the garbage has certain inertia, the garbage is easily thrown out of the stirring device, the garbage cannot be fully stirred in the stirring device and then enters a drainage cavity, and the blockage of a sewer pipeline is easily caused.

2. When the garbage entering the garbage disposer at one time is excessive, a large amount of garbage is accumulated above the crushing device. And starting the stirring device at this moment, thereby too much rubbish is piled up and also directly falls into the drainage chamber directly and gets into in the sewer pipe easily, and these unprocessed bold rubbish block up the sewer pipe easily, and the user then need additionally go to handle the sewer pipe who blocks up, has caused inconvenience to the user, also is contrary to the original intention of product design.

3. Present garbage disposer connects behind the basin lower extreme, and the dismantlement of being not convenient for to inconvenient user clears up or inspects garbage disposer inside.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a more thoroughly stir garrulous bold rubbish, avoid rubbish directly to fall into sewer line, convenient to detach's garbage disposer simultaneously.

The utility model aims at realizing the following steps:

a garbage disposer comprises a shell, wherein a drainage cavity is formed in the shell, a smashing device is arranged in the drainage cavity, and the smashing device is connected with a driving motor;

the shell is connected with a lower water cup head of the water tank, and the smashing device is arranged below the lower water cup head;

the smashing device is characterized in that a mesh enclosure is arranged at the upper end of the smashing device, and the upper end of the mesh enclosure faces the lower water cup head.

Preferably, the lower cup head is formed with a first external thread, the shell is formed with a first internal thread, and the first external thread is matched with the first internal thread, so that the shell and the lower cup head are connected with each other.

Preferably, the shell consists of an upper shell and a lower shell;

the drainage cavity is located in the upper shell, and the driving motor is arranged in the lower shell.

Preferably, a drainage port is arranged in the drainage cup head, a leakage-proof cup is connected to the drainage port, and the other end of the leakage-proof cup is located inside the mesh enclosure.

Preferably, the crushing apparatus comprises:

the fixed cup is provided with a plurality of filtering holes and convex blocks, and a plurality of through holes are formed at the bottom of the fixed cup;

the stirring disc is arranged in the fixed cup, and a notch is formed in the stirring disc;

the groove is formed in the rotating rod, and one end of the rotating rod is fixed on the crushing disc, so that the rotating rod can rotate along the surface of the crushing disc;

the limiting bulge part is arranged on the mincing disc and used for limiting the rotation angle of the rotating rod;

the filter disc is arranged below the fixed cup, a plurality of groove holes are formed in the filter disc, and the positions of the groove holes correspond to the positions of the through holes;

and the connecting assembly is used for connecting the stirring disc with the driving motor, so that the driving motor can drive the stirring disc to rotate.

Preferably, the connection assembly includes:

the first fixing section is placed in the first fixing hole, and the first fixing section is connected with the first fixing hole in a forming mode; a second fixing hole is formed in the connecting piece, a second fixing section is formed on the motor shaft, and when the second fixing section is placed into the second fixing hole, the second fixing section and the second fixing hole are connected in a forming mode;

the fixing sleeve is internally provided with a second internal thread, the connecting piece is provided with a second external thread, and the fixing sleeve can be connected with the second external thread through the second internal thread;

the locking pile is provided with a third external thread, and the fixing sleeve is provided with a third internal thread matched with the third external thread; the locking pile penetrates through the fixing sleeve and is placed in a threaded hole in the motor shaft, and a handle is formed at the other end of the locking pile.

Preferably, the lower end of the stirring device is provided with a supporting table, a plurality of supporting columns are formed in the drainage cavity, the supporting table is fixed on the supporting columns, and the stirring device is arranged on the supporting table.

Preferably, a first clamping part and a drainage groove are formed on the support platform;

and a clamping part II with the same shape as the clamping part I is formed on the filter disc.

Preferably, the shell outside is provided with a plurality of and puts the thing chamber, it is connected with and puts the thing chamber lid to put the thing chamber outside.

Preferably, the housing is formed with a nozzle opening leading to the drain chamber.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. a mesh enclosure is arranged between the water outlet of the water tank and the stirring device, so that garbage in the stirring device can be well limited to fall into the water discharging cavity only after being fully stirred, the garbage is discharged into a sewer pipe, and the small holes in the mesh enclosure can be beneficial to discharging sewage, so that the sewage cannot remain in the stirring device.

2. The lower part of the water tank is also connected with a leakage-proof cup which leads to the inner side of the mesh enclosure, and the position of the garbage can be limited under the common cooperation of the leakage-proof cup and the mesh enclosure, so that the garbage is always in the mincing device. And after the rubbish of below is stirred the bits of broken glass, the rubbish of top can get into under the effect of gravity and stir the bits of broken glass gradually in the comminution device to guarantee the effect of stirring the bits of broken glass.

3. The water tank is provided with a lower water cup head and a lower water opening, the garbage disposer is fixed on the lower water cup head, and the lower water opening can be removed, so that a user can stretch a hand into the garbage disposer. Be provided with the locking stake in the garbage disposer, when removing the locking stake, separate between comminution device and the drive arrangement to be convenient for the user and dismantle inside the garbage disposer or the clearance garbage disposer.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is an enlarged view of a in fig. 3.

Fig. 5 is an exploded view of the coupling assembly, the crushing disk and the driving motor of the present invention.

Fig. 6 is an exploded view of the crushing device, the pallet and the mesh enclosure of the present invention.

Fig. 7 is a structural view of the crushing apparatus of the present invention.

Reference numerals: 1-a shell; 11-an upper housing; 12-a lower housing; 13-a drainage chamber; 14-a first internal thread; 15-a support column; 16-a storage cavity; 17-a storage chamber cover; 18-a mouthpiece; 19-sealing the bearing mounting groove;

2-a water tank; 21-a lower cup head; 22-a water outlet; 23-a leak-proof cup; 24-external thread one;

3-a mincing device; 31-a mesh enclosure; 32-a stationary cup; 321-filtration pores; 322-a bump; 323-through holes; 33-a mincing disc; 331-rotating rods; 332-a groove; 333-limiting lug boss; 334-notch; 335-fixing hole one; 336-fixed pins; 34-a filter disc; 341-slotted hole; 35-a pallet; 36-a first clamping part; 37-a drainage channel; 38-a second clamping part;

4-a connecting assembly; 41-a connector; 411-fixed segment one; 412-fixed hole two; 413-external thread two; 42-a fixation sleeve; 421-internal thread two; 422-internal thread three; 43-locking piles; 431-a handle; 432-external thread three; 44-a step portion; 45-flanging;

5-driving a motor; 51-a motor shaft; 52-fixed section two; 53-threaded hole.

Detailed Description

The following are specific embodiments of the present invention, and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

The first embodiment is as follows:

as shown in fig. 1 to 3, a garbage disposer is provided between a sink 2 and a sewer line, and garbage in the sink 2 drops into the garbage disposer.

The garbage disposer comprises a shell 1, wherein a drainage cavity 13 is formed in the shell 1, and the drainage cavity 13 is used for being connected with a sewer pipe.

The water discharging cavity 13 is also internally provided with a stirring device 3, the stirring device 3 is connected with a driving motor 5, and the driving motor 5 can drive the stirring device 3 to stir garbage. When the volume of waste is sufficiently small to be crushed, it will enter the drainage chamber 13 and enter the sewer line with the water flow, and sufficiently fine waste is difficult to get stuck in the sewer line, thereby reducing the possibility of blockage of the sewer line.

The upper end of casing 1 is connected with the lower drinking cup head 21 of basin 2 to fix casing 1 at the lower extreme of basin 2, the setting of comminution device 3 is in the below of lower drinking cup head 21, and the middle shaping of lower drinking cup head 21 has the through-hole that supplies rubbish to pass, can fall into in the middle of the comminution device 3 with the rubbish of guaranteeing in the basin 2.

Be provided with screen panel 31 in the comminution device 3 upper end, the upper end of screen panel 31 is towards lower water cup head 21 to guarantee that rubbish can not throw away from comminution device 3 along with comminution device 3's rotation, also can guarantee to get into the rubbish of refuse treatment ware from basin 2 and can get into the comminution gradually and stir in comminution device 3, in order to guarantee the effect of comminution.

As shown in fig. 2 to 4, the lower cup head 21 is formed with a first external thread 24, the shell 1 is formed with a first internal thread 14, and the first external thread 24 is matched with the first internal thread 14, thereby connecting the shell 1 below the lower cup head 21. Through threaded connection's mode, be convenient for be connected casing 1 with lower drinking cup head 21, also be convenient for remove casing 1 from lower drinking cup head 21 to make casing 1 no longer be connected with between the basin 2, be convenient for clear up and maintain the refuse treatment ware.

As shown in fig. 1 and 2, the housing 1 is composed of an upper housing 11 and a lower housing 12, and the lower housing 12 is screwed on the upper housing 11 and fixed.

The drain chamber 13 is located in the upper housing 11 and the drive motor 5 is located in the lower housing 12. The motor shaft 51 of the driving motor 5 passes through the upper housing 11 into the drain chamber 13 and is connected to the crushing apparatus 3.

At the drainage chamber 13 internal forming have sealed bearing mounting groove 19, on the one hand sealed bearing mounting groove 19 protrusion sets up in the bottom of drainage chamber 13, and when sewage flowed into drainage chamber 13, sealed bearing mounting groove 19 highly can prevent sewage inflow, has formed the protection of first step, avoids the sewage in drainage chamber 13 to get into down during casing 12, places driving motor 5 short circuit. After the sealing bearing is arranged in the sealing bearing mounting groove 19, the motor shaft 51 penetrates through the sealing bearing, so that a better sealing effect can be formed, sewage is further prevented from entering the lower shell 12, a closed cavity is formed in the lower shell 12, and the normal operation of the driving motor 5 is ensured.

As shown in fig. 1-3, a drain 22 is provided in the drain head 21, a leakage-proof cup 23 is connected to the drain 22, and the other end of the leakage-proof cup 23 is located inside the mesh enclosure 31.

The inner wall of the lower nozzle 22 gradually shrinks towards the bottom, so that the lower opening of the lower nozzle 22 is smaller than the upper opening thereof. The interior of the lower nozzle 21 also gradually shrinks towards the bottom, so that when the upper end edge of the lower nozzle 22 is placed on the lower nozzle 21, the area of the upper end of the lower nozzle 22 is larger than that of the through hole at the lower end of the lower nozzle 21, so that the lower nozzle 22 cannot penetrate through the lower nozzle 21, and the opening at the bottom end of the lower nozzle 22 can penetrate through the lower nozzle 21 to the crushing device 3.

The user can pick up the drain port 22 at any time, check the state of the inside of the garbage disposer, or clean the crushing apparatus 3.

The leak-proof cup 23 is clamped at the bottom end of the drainage port 22, the opening of one end, facing the crushing device 3, of the leak-proof cup 23 is larger than the opening of one end, connected with the drainage port 22, of the leak-proof cup 23, and the edge of the bottom of the leak-proof cup 23 is close to the mesh enclosure 31.

When garbage enters the crushing device 3 from the water tank 2, the anti-leakage cup 23 can provide a larger space for accommodating the garbage, a certain distance is reserved between the anti-leakage cup 23 and the mesh enclosure 31, the garbage which can be separated from a gap between the anti-leakage cup 23 and the mesh enclosure 31 has a smaller volume, and the garbage with the smaller volume cannot cause the blockage of a sewer pipe. Therefore, the leakage-proof cup 23 can not influence the rotation of the mesh enclosure 31, and meanwhile, the leakage-proof cup 23 can also be matched with the mesh enclosure 31 to limit garbage to be positioned above the crushing device 3, so that the crushing effect of the garbage is ensured.

As shown in fig. 2 to 7, the crushing apparatus 3 includes:

the fixed cup 32 is provided with a plurality of filtering holes 321 and a plurality of convex blocks 322, the bottom of the fixed cup 32 is provided with a plurality of through holes 323, and the bottom end of the mesh enclosure 31 is in interference connection with the fixed cup 32.

The filtering holes 321 allow the sewage to flow out of the stationary cup 32, thereby reducing the sewage accumulated in the stationary cup 32, and the crushed garbage can also enter the drainage chamber 13 through the filtering holes 321.

The lugs 322 are used to assist in the mashing of the waste within the mashing device 3.

Four through holes 323 formed at the bottom of the stationary cup 32 are used for discharging the crushed garbage, and the four through holes 323 are located on the same ring, and the lower ends thereof are not aligned with the sealing bearing mounting groove 19, thereby preventing the sewage from directly entering the sealing bearing mounting groove 19 from above and then affecting the normal operation of the driving motor 5.

A mincing disk 33 arranged in the fixed cup 32, a notch 334 is formed on the mincing disk 33, and the mincing disk 33 is connected with the motor shaft 51 and can rotate to and fro under the driving of the driving motor 5.

The notch 334 is formed by cutting a portion of the surface of the mincing disc 33 and bending the portion of the surface, a space is also formed between the lower side of the mincing disc 33 and the stationary cup 32, and the notch 334 allows the minced garbage to fall under the mincing disc 33 and wait to pass through the through hole 323 into the drainage chamber 13. The curved surface near the gap 334 also acts to tumble or shred the trash as the shredder plate 33 rotates.

The rotating lever 331 has a recess 332 formed therein, and one end of the rotating lever 331 is fixed to the mincing disk 33 by a fixing pin 336, so that the rotating lever 331 can rotate along the surface of the mincing disk 33 around the fixing pin 336.

When the crushing disk 33 is driven by the motor shaft 51, the rotating lever 331 is pulled by the fixing pin 336 to also have a state of coming into motion. When the motor shaft 51 stops the crushing disk 33 and rotates the crushing disk 33 in the opposite direction, the fixing pin 336 changes the moving direction with the crushing disk 33, and the other end of the rotating rod 331 maintains the previous moving state due to inertia.

And in the process that the rotating rod 331 is swung to and fro, the rotating rod 331 can stir the garbage, and along with the pushing of the rotating rod 331, when the garbage is close to the projection 322, the groove 332 on the rotating rod 331 can cooperate with the projection 322 to stir the large garbage, and the process can be repeated until the garbage is stirred to the size which can pass through the filter hole 321 or the gap 334.

And a limit projection part 333 provided on the mincing disk 33, the limit projection part 333 being used to limit the rotation angle of the rotation lever 331. When the rotating rod 331 rotates to the angle that the protrusion 322 enters the groove 332, the limiting protrusion 333 prevents the rotating rod 331 from rotating continuously, so that it is ensured that the rotating rod 331 does not rotate by too much angle, and therefore cannot be accurately matched with the protrusion 322 in each movement cycle. And a through hole leading to the lower part of the mincing disc 33 is formed on the limiting convex part 333, because the rotating rod 331 can gradually push the garbage to be close to the limiting convex part 333, under the pushing of the rotating rod 331, a part of the garbage can be also chopped by the limiting convex part 333, and a part of the chopped garbage can directly fall into the lower part of the mincing disc 33.

And the filter disc 34 is arranged below the fixed cup 32, a plurality of slots 341 are formed on the filter disc 34, the positions of the slots 341 correspond to the positions of the through holes 323, and when the slots 341 are aligned with the through holes 323, the garbage in the fixed cup 32 can be discharged into the drainage cavity 13.

A connecting component 4, which is used for connecting the mincing disc 33 with the driving motor 5, so that the driving motor 5 can drive the mincing disc 33 to rotate, and meanwhile, the mincing device 3 and the driving motor 5 are fixed.

As shown in fig. 2 to 7, the connecting assembly 4 includes:

the connecting piece 41, the stirring disc 33 is formed with a first fixing hole 335, the connecting piece 41 is formed with a first fixing section 411, the outline of the first fixing hole 335 is matched with the outline of the first fixing section 411, and when the first fixing section 411 is placed into the first fixing hole 335, the first fixing section 411 and the first fixing hole 335 are connected in a forming mode; the second fixing hole 412 is formed in the connecting piece 41, the second fixing section 52 is formed in the motor shaft 51, the outline of the second fixing hole 412 is matched with the outline of the second fixing section 52, and when the second fixing section 52 is placed in the second fixing hole 412, the second fixing section 52 is connected with the second fixing hole 412 in a forming mode.

By adopting the matching structure, the motor shaft 51 can drive the connecting piece 41 to rotate, and the connecting piece can drive the crushing disc 33 to rotate.

The fixing sleeve 42 is internally formed with a second internal thread 421, the connecting piece 41 is formed with a second external thread 413, and the fixing sleeve 42 can be connected with the second external thread 413 through the second internal thread 421. Since the connecting member 41 passes through the lower portion of the mincing disk 33, the step portion 44 abuts against the lower portion of the mincing disk 33, and when the fixing sleeve 42 is screwed on the connecting member 41, the fixing sleeve 42 is positioned above the mincing disk 33, so that the fixing sleeve 42 and the step portion 44 can limit the moving space of the mincing disk 33.

When the retaining sleeve 42 is fully tightened, the connecting element 41 and the retaining sleeve 42 can grip the grating disk 33, with the maximum distance between the grating disk 33 and the bottom of the retaining cup 32. When the fixing sleeve 42 is loosened, the distance between the fixing sleeve 42 and the step portion 44 increases, the connecting member 41 and the fixing sleeve 42 descend under the influence of gravity, and the crushing disk 33 descends until being attached to the step portion 44. By this, the distance between the grating disk 33 and the bottom surface of the stationary cup 32 is reduced. Therefore, the height of the crushing disk 33 in the stationary cup 32 can also be adjusted by the fit between the connector 41 and the stationary sleeve 42.

The bottom end of the connecting piece 41 is also formed with a flange 45, the flange 45 can be attached to the bottom surface of the fixing cup 32, and the position of the connecting piece 41 can be limited by the flange 45. The phenomenon that when the length of the connecting piece 41 extending into the fixed cup 32 is too long, the step part 44 drives the stirring disc 33 to move to exceed the edge of the fixed cup 32, so that the garbage in the fixed cup 32 is scattered out is avoided.

Such as: when the user detaches the housing 1 from the lower end of the sink 2 to prepare for cleaning the inside of the garbage disposer, the housing may be inclined or turned upside down, and the limiting connecting member 41 with the flange 45 may extend into the fixing cup 32 to limit the length of the stirring plate 33 from separating from the fixing cup 32, so that the residual garbage in the stirring plate is not spilled out.

The locking pile 43 is formed with an external thread three 432, and the fixing sleeve 42 is formed with an internal thread three 422 matched with the external thread three 432, so that the locking pile 43 can pass through the fixing sleeve 42.

After passing through the fastener sleeve 42, the locking pegs 43 are received in threaded holes 53 in the motor shaft 51, thereby securing the motor shaft 51 in the coupler 41 and preventing the motor shaft 51 from being removed from the coupler 41.

The other end of the locking stub 43 is formed with a handle 431, and the locking stub 43 can be easily separated from the screw hole 53 by rotating the handle 431, so that the motor shaft 51 can be removed from the connecting member 41.

As shown in fig. 3, a support 35 is provided at the lower end of the crushing device 3, four support columns 15 are formed in the drainage cavity 13, the support 35 is fixed on the support columns 15, and the crushing device 3 is provided on the support 35. The supporting platform 35 makes the stirring device 3 principle the bottom of the drainage cavity 13, so that water in the stirring device 3 can flow out more easily, and the stirring device 3 can be far away from a damp area to slow down the garbage rot or the erosion of internal parts in the stirring device 3 by water.

As shown in fig. 2, 3 and 6, a first clamping portion 36 and a drainage channel 37 are formed on the supporting platform 35, a second clamping portion 38 having the same shape as the first clamping portion 36 is formed on the filter disc 34, and the first clamping portion 36 and the second clamping portion 38 are arranged opposite to each other. And the saddle 35 can be in the outside of filter disc 34, when the second joint portion 38 leans on in the saddle 35 bottom, can make between joint portion 36 and the second joint portion 38 accomplish the joint through rotating saddle 35 towards arbitrary direction.

All the shaping has two inclined planes on joint portion 36 and the joint portion two 38, and when the inclined plane of joint portion one 36 and the inclined plane of joint portion two 38 contacted each other, can make saddle 35 rotate to make joint portion two 38 can support and lean on in saddle 35 bottom, thereby be convenient for connect the bottom at filter disc 34 with saddle 35.

As shown in fig. 2, two storage cavities 16 are arranged outside the housing 1, a storage cavity cover 17 is screwed outside the storage cavities 16, and a relatively closed space is formed in the storage cavities 16 through the storage cavity cover 17.

Can set up circuit board or other instruments in putting thing chamber 16 in order to realize the intelligent control to garbage disposer, and the thing chamber 16 that puts of relative confined can reduce the moisture entering to the extension is located the life-span of the subassembly of putting thing chamber 16.

As shown in fig. 1 to 7, the housing 1 is formed with a nozzle 18, the nozzle 18 opens into the drain chamber 13, and the nozzle 18 is used for connecting a sewer pipe, thereby draining sewage and crushed garbage in the drain chamber 13 into the sewer pipe.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A garbage disposer is characterized by comprising a shell (1), wherein a drainage cavity (13) is formed in the shell (1), a smashing device (3) is arranged in the drainage cavity (13), and the smashing device (3) is connected with a driving motor (5);

the shell (1) is connected with a lower water cup head (21) of the water tank (2), and the smashing device (3) is arranged below the lower water cup head (21);

the upper end of the smashing device (3) is provided with a mesh enclosure (31), and the upper end of the mesh enclosure (31) faces the lower water cup head (21).

2. A waste disposer according to claim 1, characterized in that the lower cup head (21) is formed with a first external thread (24), the housing (1) is formed with a first internal thread (14), and the first external thread (24) is matched with the first internal thread (14) so as to connect the housing (1) and the lower cup head (21) to each other.

3. A waste processor according to claim 1, characterized in that the housing (1) consists of an upper housing (11) and a lower housing (12);

the drainage cavity (13) is positioned in the upper shell (11), and the driving motor (5) is arranged in the lower shell (12).

4. A waste processor according to claim 1, characterized in that a drain nozzle (22) is arranged in the drain cup head (21), a leakage-proof cup (23) is connected to the drain nozzle (22), and the other end of the leakage-proof cup (23) is arranged in the mesh enclosure (31).

5. A waste processor according to claim 2, 3 or 4, characterized in that the mincing means (3) comprises:

the fixed cup (32) is provided with a plurality of filter holes (321) and lugs (322), and a plurality of through holes (323) are formed at the bottom of the fixed cup (32);

the stirring disc (33) is arranged in the fixed cup (32), and a notch (334) is formed in the stirring disc (33);

the groove (332) is formed in the rotating rod (331), one end of the rotating rod (331) is fixed on the mincing disc (33), and the rotating rod (331) can rotate along the surface of the mincing disc (33);

a limit projection part (333) provided on the mincing disc (33), the limit projection part (333) being used for limiting a rotation angle of the rotation lever (331);

the filter disc (34) is arranged below the fixed cup (32), a plurality of slotted holes (341) are formed in the filter disc (34), and the positions of the slotted holes (341) correspond to the positions of the through holes (323);

the connecting assembly (4) is used for connecting the stirring disc (33) with the driving motor (5), so that the driving motor (5) can drive the stirring disc (33) to rotate.

6. A waste processor according to claim 5, characterized in that the connecting assembly (4) comprises:

the first fixing hole (335) is formed in the stirring disc (33), the first fixing section (411) is formed in the connecting piece (41), and when the first fixing section (411) is placed into the first fixing hole (335), the first fixing section (411) is connected with the first fixing hole (335) in a forming mode; a second fixing hole (412) is formed in the connecting piece (41), a second fixing section (52) is formed in the motor shaft (51), and when the second fixing section (52) is placed in the second fixing hole (412), the second fixing section (52) is connected with the second fixing hole (412) in a forming mode;

the fixing sleeve (42) is internally provided with a second internal thread (421), the connecting piece (41) is provided with a second external thread (413), and the fixing sleeve (42) can be connected with the second external thread (413) through the second internal thread (421);

the locking pile (43) is provided with a third external thread (432), and the fixing sleeve (42) is provided with a third internal thread (422) matched with the third external thread (432);

the locking pile (43) can be placed in a threaded hole (53) on the motor shaft (51) after penetrating through the fixing sleeve (42), and a handle (431) is formed at the other end of the locking pile (43).

7. A waste processor according to claim 5, characterized in that the lower end of the mincing device (3) is provided with a support (35), the drainage chamber (13) is internally formed with a plurality of support columns (15), the support (35) is fixed on the support columns (15), and the mincing device (3) is arranged on the support (35).

8. A waste disposer according to claim 7, characterized in that the bracket (35) is formed with a first clamping part (36) and a drainage groove (37);

and a clamping part II (38) with the same shape as the clamping part I (36) is formed on the filter disc (34).

9. A waste disposer according to claim 5, characterized in that several storage cavities (16) are arranged outside the housing (1), and a storage cavity cover (17) is connected to the outside of the storage cavities (16).

10. A waste processor according to claim 6 or 8 or 9, characterized in that the housing (1) is formed with a nozzle (18), said nozzle (18) opening into the drainage chamber (13).

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