CN110052317A - A kind of food residue processor - Google Patents

Abstract

The invention belongs to the field of household garbage recycling devices, and in particular relates to a food residue disposer, comprising a feeding device, wherein the feeding device comprises a feeding structure and a temporary storage structure communicated with the feeding structure; the feeding structure is connected to There is a grinding device, and the grinding device includes a homogenizing structure that communicates with the feeding structure, and a grinding structure is connected to the homogenizing structure; the grinding structure is connected with a mixing device. The mixing device is connected with an extrusion dehydration chamber, and the extrusion dehydration chamber is connected with the extrusion dehydration chamber. There is a drainage cavity; the feeding structure is connected with an oil-water separator, and the oil-water separator is connected with an oil-water cavity and an oil-receiving cavity corresponding to the oil-water cavity; the lower end of the oil-water cavity is provided with a flushing structure connected with the feeding structure The upper part of the oil-water cavity is provided with a drainage pipe which is communicated with the drainage cavity; the invention effectively solves the problem of poor treatment effect of the existing food waste disposer.

Description

a food waste processor

technical field

The invention belongs to the field of household garbage recycling devices, and relates to a garbage disposer, in particular to a food residue disposer.

Background technique

A food waste disposer is a device that is used to shred food waste into particles small enough to pass safely through a household sewer, effectively preventing food waste from clogging the drain and the storage of food waste to breed bacteria, mosquitoes and odors, etc. , so as to create a healthy, clean and beautiful kitchen environment. At present, most of the food waste disposers on the market are designed with a single rotatable blade, which smashes the material through the high-speed rotation of the rotatable blade. Although household food waste can be smashed, for food waste generated in commercial catering occasions, such Garbage is not only large in volume, but also has complex composition. It cannot be completely crushed by rotating blades alone. When the amount of food waste crushed is large, it is easy to cause blockage of the processor or overload of the motor, which seriously affects the effect and efficiency of crushing treatment. In the process, automatic water supply cannot be realized, and the work cannot be automatically stopped after the crushing is completed, which is easy to cause waste of water resources and power resources, and more likely to affect the performance and quality of the processor.

SUMMARY OF THE INVENTION

In view of the above situation, in order to overcome the defects of the prior art, the present invention provides a food waste disposer, which effectively solves the problem of poor treatment effect of the existing food waste disposer.

In order to achieve the above object, the present invention adopts the following technical scheme: a food residue processor, comprising a feeding device, a grinding device, a mixing device, and a stirring device; it is characterized in that: the feeding device includes a feeding structure and a feeding device. The temporary storage structure is connected in structure; the feeding structure includes a feeding cavity, one end of the feeding cavity is provided with a feeding port, and the other end of the feeding cavity is provided with a discharging port corresponding to the uniform material structure. The structure includes a temporary storage chamber communicated with the feeding cavity, and a temporary storage pipeline communicated with the temporary storage chamber is communicated on the feeding port; one end of the temporary storage chamber close to the feeding cavity is slidably connected with a baffle plate, and the feeding cavity is A first hydraulic rod corresponding to the baffle is provided; a push rod is slidably connected to the temporary storage chamber, and a push plate is connected to the end of the push rod close to the baffle; a second hydraulic rod is arranged on one side of the temporary storage chamber , the telescopic end of the second hydraulic rod is connected with a connecting plate, and the connecting plate is connected with the end of the push rod away from the baffle; the feeding structure is connected with a grinding device, and the grinding device includes a uniform material structure communicated with the feeding structure, The homogenizing structure includes a homogenizing cavity, and the homogenizing cavity is provided with an equalizing inlet opposite to the discharge port; the equalizing cavity is provided with a homogenizing shaft, and the equalizing shaft is provided with a homogenizing blade, The homogenizing chamber is provided with a homogenizing outlet corresponding to the equalizing blade; the homogenizing structure is connected with a grinding structure; the grinding structure includes a grinding chamber, and a grinding motor is arranged on the grinding chamber, and the output end of the grinding motor A synchronizing shaft is connected, and the synchronizing shaft is connected with the homogenizing shaft; the grinding chamber is provided with a grinding feed port connected with the equalizing outlet; the upper part of the synchronizing shaft is provided with a grinding plate, and the lower part of the synchronizing shaft is provided with a discharging The paddle, the grinding chamber is provided with a grinding outlet corresponding to the discharging paddle; the grinding structure is connected with a mixing device, the mixing device is connected with an extrusion dehydration chamber, and the extrusion dehydration chamber is connected with a drainage chamber. The extrusion dehydration chamber is provided with an extrusion inlet; the stirring device includes a mixing chamber, a mixing shaft is arranged on the mixing chamber, a mixing motor corresponding to the mixing shaft is arranged on the mixing chamber, and a stirring paddle device is arranged on the mixing shaft; The mixing chamber is provided with a mixing outlet corresponding to the extrusion inlet; the feed structure is connected with an oil-water separator, and the oil-water separator is connected with an oil-water chamber and an oil-receiving chamber corresponding to the oil-water chamber; the lower end of the oil-water chamber A flushing structure connected with the feeding structure is provided, and a drainage pipe communicated with the drainage cavity is arranged on the upper part of the oil-water cavity.

Further, an extrusion motor is provided at one end of the extrusion dehydration chamber away from the extrusion inlet, an extrusion screw is connected to the output end of the extrusion motor, and an extrusion sleeve is screwed on the extrusion screw, and the extrusion sleeve is One end of the cylinder away from the extrusion screw rod is connected with an extrusion plate that is slidably connected with the extrusion dehydration chamber; the end of the extrusion dehydration chamber close to the extrusion inlet is provided with a water outlet that communicates with the drainage chamber, and the water outlet is provided with filter screen; one end of the extrusion dehydration chamber close to the extrusion inlet is provided with a slag outlet, a slag outlet is slidably connected with a slag outlet, and a third hydraulic rod corresponding to the slag outlet is arranged on the extrusion dehydration chamber; The flushing structure includes a circulating pump connected with the oil-water cavity, the circulating pump is connected with a water inlet pipe, and the other end of the water inlet pipe is connected with the end of the feeding cavity close to the discharge port.

Further, a first motor is provided at one end of the feeding cavity close to the feeding port, the output end of the first motor is connected with a main shaft, and a spiral blade and a rotary cutter are sequentially arranged on the main shaft along the feeding port; the feeding The cavity is provided with a liquid discharge port corresponding to the oil-water separator, the inner wall of the feeding cavity is rotatably connected with a filter screen, and the main shaft is provided with a drive rod connected with the filter screen; The sealing plate corresponding to the pipeline is provided with push blocks corresponding to the push plate at both ends of the sealing plate.

Further, the stirring paddle device includes a support sleeve sleeved on the stirring shaft, one end of the support sleeve is connected with a gear box, the gear box is provided with a driving wheel sleeved on the stirring shaft, and a gear box is rotatably connected with a gear box. For the rotating sleeve, the outer wall of the rotating sleeve is sleeved with a driven wheel that meshes with the driving wheel; the inner walls of a pair of the rotating sleeves are screwed with a traction screw, and the end of the traction screw away from the support sleeve is connected with a traction block , the traction block is sleeved on the stirring shaft; the traction block is rotatably connected with a rotating block, the rotating block is slidably connected with the stirring shaft, the stirring shaft is provided with a sliding shaft matched with the rotating block, and the rotating block is provided with a sliding shaft A matching chute; two connecting blocks are symmetrically connected on the rotating block, a connecting shaft is rotatably connected to the two connecting blocks, and a stirring paddle is connected to the connecting shaft.

Further, a traction rod is vertically connected to the connecting shaft, an end of the traction rod away from the connecting shaft is rotatably connected with an active rod, and the active rod is slidably connected with the traction block; the traction block is a cylindrical structure, and the outer circumference of the traction block is provided with An annular guide groove, the guide groove is a wave-shaped structure, and a sliding block matched with the guide groove is arranged on the active rod. The traction block includes a lower traction block connected with the traction screw rod and an upper traction block slidably connected with the lower traction block, the upper traction block is rotatably connected with the rotating block, and the guide groove is arranged on the upper traction block; the lower traction block A connecting rod is fixedly connected to the upper part, the connecting rod is slidably connected with the upper traction block, a buffer spring is sleeved on the connecting rod, and the two ends of the buffer spring are respectively connected with the upper traction block and the lower traction block; the lower traction block is provided with a guide The gear box is provided with a guide block matched with the guide shaft.

Description of drawings

Fig. 1 is the structural principle diagram of the present invention;

Fig. 2 is the front view of the present invention;

Fig. 3 is the rear view of the present invention;

Fig. 4 is the top view of the present invention;

Fig. 5 is the axonometric view of the feeding device in the present invention;

Fig. 6 is the top view of the feeding device in the present invention;

Fig. 7 is the sectional view of Fig. 6A-A in the present invention;

Fig. 8 is the sectional view of Fig. 6B-B in the present invention;

Fig. 9 is the axonometric view of the grinding device in the present invention;

10 is a front view of the grinding device in the present invention;

Fig. 11 is the sectional view of Fig. 10C-C in the present invention;

Figure 12 is an axonometric view of the mixing device of the present invention;

Figure 13 is a front view of the mixing device of the present invention;

Figure 14 is a cross-sectional view of Figures 13D-D in the present invention;

Figure 15 is an axonometric view of a stirring paddle structure in the present invention;

Figure 16 is a top view of the stirring paddle structure in the present invention;

Figure 17 is a cross-sectional view of Figures 16E-E in the present invention;

Figure 18 is an axonometric view of the gearbox in the present invention;

In the figure: 1. Feeding device, 101, first motor, 102, feed port, 103, feed cavity, 104, push plate, 105, discharge port, 106, first hydraulic rod, 107, drain port , 108, temporary storage pipeline, 109, temporary storage room, 110, second hydraulic rod, 111, push rod, 112, connecting plate, 113, spiral blade, 114, filter screen, 115, rotary cutter, 116, spindle, 117, sealing plate; 2, homogeneous material structure, 201, homogeneous material chamber, 202, homogeneous material inlet, 203, homogeneous material paddle; 3, grinding structure, 301, grinding chamber, 302, grinding motor, 303, grinding discharge Port, 304, Grinding plate, 305, Discharge paddle, 306, Synchronous shaft, 307, Grinding feed port; 4. Mixing device, 401, Mixing cavity, 402, Pillar, 403, Mixing motor, 404, Mixing outlet, 405, mixed inlet, 406, support sleeve, 407, guide shaft, 408, guide block, 409, gear box, 410, traction screw, 411, lower traction block, 412, guide groove, 413, upper traction block, 414 , Active rod, 415, rotating block, 416, stirring paddle, 417, draw rod, 418, connecting shaft, 419, connecting block, 420, connecting rod, 421, driven wheel, 422, rotating sleeve, 423, driving wheel; 5. Drainage cavity, 6. Oil-water cavity, 7. Oil-water separator, 8. Water inlet pipe, 9. Extrusion dehydration cavity, 10. Oil outlet, 11. Oil connection cavity.

Detailed ways

A food residue processor, as shown in Figures 1-18, includes a feeding device, a grinding device, a mixing device, and a stirring device; it is characterized in that: the feeding device includes a feeding structure and a feeding structure communicated with the feeding structure. Temporary storage structure; the feeding structure includes a feeding cavity, one end of the feeding cavity is provided with a feeding port, and the other end of the feeding cavity is provided with a discharging port corresponding to the uniform material structure, and the temporary storage structure includes a feeding port corresponding to the feeding cavity. The temporary storage chamber communicated with the material cavity is connected with a temporary storage pipeline connected with the temporary storage chamber on the feeding port; the end of the temporary storage chamber close to the feeding cavity is slidably connected with a baffle plate, and the feeding cavity is provided with a baffle plate a first hydraulic rod corresponding to the plate; a push rod is slidably connected to the temporary storage chamber, and a push plate is connected to the end of the push rod close to the baffle; a second hydraulic rod is arranged on one side of the temporary storage chamber, and the second hydraulic rod is The telescopic end of the rod is connected with a connecting plate, and the connecting plate is connected with the end of the push rod away from the baffle; the feeding structure is connected with a grinding device, and the grinding device includes a homogenizing structure communicated with the feeding structure. The structure includes an equalizing cavity, and the equalizing cavity is provided with an equalizing inlet opposite to the discharge port; the equalizing cavity is provided with an equalizing shaft, and the equalizing shaft is provided with an equalizing blade, and the equalizing cavity is provided with an equalizing blade. There is an equalizing outlet corresponding to the equalizing blade; the equalizing structure is connected with a grinding structure; the grinding structure includes a grinding cavity, a grinding motor is arranged on the grinding cavity, and the output end of the grinding motor is connected with a synchronous shaft , the synchronizing shaft is connected with the homogenizing shaft; the grinding chamber is provided with a grinding feed port which is connected to the equalizing outlet; The cavity is provided with a grinding discharge port corresponding to the discharge paddle; the grinding structure is connected with a mixing device, the mixing device is connected with an extrusion dehydration cavity, the extrusion dehydration cavity is connected with a drainage cavity, and the extrusion dehydration cavity is connected with There is an extrusion inlet; the stirring device includes a mixing chamber, a mixing shaft is arranged on the mixing chamber, a mixing motor corresponding to the mixing shaft is arranged on the mixing chamber, and a stirring paddle device is arranged on the mixing shaft; There is a mixing outlet corresponding to the extrusion inlet; an oil-water separator is connected to the feed structure, and the oil-water separator is connected with an oil-water cavity and an oil-receiving cavity corresponding to the oil-water cavity; the lower end of the oil-water cavity is provided with an inlet The flushing structure is connected with the material structure, and the upper part of the oil-water cavity is provided with a drainage pipe that communicates with the drainage cavity.

One end of the extrusion dehydration chamber away from the extrusion inlet is provided with an extrusion motor, the output end of the extrusion motor is connected with an extrusion screw, and an extrusion sleeve is screwed on the extrusion screw, and the extrusion sleeve is far away from the extrusion. One end of the screw rod is connected with a squeeze plate that is slidably connected to the squeeze dehydration chamber; one end of the squeeze dehydration chamber close to the squeeze inlet is provided with a water outlet communicated with the drainage chamber, and a filter screen is arranged on the water outlet; One end of the extrusion dehydration chamber close to the extrusion inlet is provided with a slag outlet, a slag outlet is slidably connected with a slag outlet, and a third hydraulic rod corresponding to the slag outlet is arranged on the extrusion dehydration chamber; the flushing The structure includes a circulating pump communicated with the oil-water cavity, the circulating pump is connected with a water inlet pipe, and the other end of the water inlet pipe is connected with the end of the feeding cavity close to the material outlet.

The end of the feeding cavity close to the feeding port is provided with a first motor, the output end of the first motor is connected with a main shaft, and the main shaft is sequentially provided with a spiral blade and a rotary cutter along the feeding port; There is a liquid discharge port corresponding to the oil-water separator, a filter screen is rotatably connected to the inner wall of the feeding chamber, and a drive rod connected to the filter screen is arranged on the main shaft; The sealing plate is provided with push blocks corresponding to the push plates at both ends of the sealing plate.

The stirring paddle device includes a support sleeve sleeved on the stirring shaft, one end of the support sleeve is connected with a gear box, the gear box is provided with a driving wheel sleeved on the stirring shaft, and a pair of rotating sleeves are rotatably connected in the gear box. The outer wall of the rotating sleeve is sleeved with a driven wheel that meshes with the driving wheel; the inner walls of a pair of the rotating sleeves are screwed with a traction screw, and the end of the traction screw away from the support sleeve is connected with a traction block. sleeved on the stirring shaft; a rotating block is rotatably connected to the traction block, the rotating block is slidably connected with the stirring shaft, the stirring shaft is provided with a sliding shaft matched with the rotating block, and the rotating block is provided with a sliding shaft matched with the sliding shaft A chute; two connecting blocks are symmetrically connected on the rotating block, a connecting shaft is rotatably connected to the two connecting blocks, and a stirring paddle is connected to the connecting shaft.

The connecting shaft is vertically connected with a traction rod, and an end of the traction rod away from the connecting shaft is rotatably connected with an active rod, and the driving rod is slidably connected with the traction block; the traction block is a cylindrical structure, and an annular guide is arranged on the outer circumference of the traction block The guide groove is a wave-shaped structure, and a sliding block matched with the guide groove is arranged on the active rod. The traction block includes a lower traction block connected with the traction screw rod and an upper traction block slidably connected with the lower traction block, the upper traction block is rotatably connected with the rotating block, and the guide groove is arranged on the upper traction block; the lower traction block A connecting rod is fixedly connected to the upper part, the connecting rod is slidably connected with the upper traction block, a buffer spring is sleeved on the connecting rod, and the two ends of the buffer spring are respectively connected with the upper traction block and the lower traction block; the lower traction block is provided with a guide The gear box is provided with a guide block matched with the guide shaft.

The working process of the present invention: when the present invention is in use, the motor rotates, the motor drives the spiral blade and the rotary cutter to rotate, the user puts the garbage into the feeding cavity from the feeding port, the garbage moves from the spiral blade to the rotary cutter, and the rotary The cutter shreds the garbage; during the movement of the garbage from the spiral blade to the rotary cutter, the filter screen rotates along the inner wall of the feeding cavity under the action of the main shaft and the driving rod, and the filter screen keeps rotating to prevent the filter screen from being blocked and the waste in the garbage. After the oil and water are separated by the oil-water separator, the oil enters the oil-connecting cavity, and the oil in the oil-connecting cavity is discharged through the oil outlet; the oil-water enters the oil-water cavity; the water in the oil-water cavity passes through the oil-water cavity. For a long time, it enters the drainage cavity through the drainage pipe to prevent excessive oil and water in the oil-water cavity from affecting the operation of the oil-water separator; the oil-water in the oil-water cavity enters the rear of the feeding cavity through the circulating pump and the water inlet pipe, so that the oil and water are mixed with the garbage and improve the rotary cutter. The rotary cutting effect reduces the power consumption of the first motor, the mixture of garbage and water is more conducive to the grinding of the garbage by the grinding structure, and improves the integration of the ground garbage into the water.

When too much garbage is poured in, the spiral blades cannot handle it in time, so that after the garbage overflows the temporary storage pipeline, the garbage enters the temporary storage room through the temporary storage pipeline. When the garbage enters too much, the second hydraulic rod acts, and the second hydraulic rod passes through the push plate. Squeeze the garbage to increase the storage volume of the temporary storage chamber; when the amount of garbage in the temporary storage chamber reaches the set maximum, the first hydraulic rod actuates the traction baffle to connect the temporary storage chamber with the feeding chamber, and the second hydraulic rod The second hydraulic rod slowly pushes the garbage into the feeding cavity through the push plate, and the garbage enters the rotary cutter under the action of the feeding cavity; The sealing plate is driven to close the temporary storage pipeline, and when the push plate moves in the opposite direction, the sealing plate is driven by the push block to open the temporary storage pipeline.

The garbage chopped by the rotary cutter enters the equalizing chamber, and the equalizing chamber evenly distributes the garbage to the four equalizing outlets. The garbage enters the grinding chamber through the equalizing outlet, and the grinding plate of the grinding chamber grinds the garbage. The garbage enters the discharging paddle, and the garbage enters the mixing chamber through the discharging paddle; the stirring paddle device in the mixing chamber stirs and mixes the garbage to improve the integration of the garbage into the water; when the stirring paddle device is in use, the stirring shaft rotates and passes through the guide shaft and the sliding plate. The groove drives the rotating block to rotate along the traction block, and the rotating block drives the stirring paddle to rotate the garbage liquid through the connecting block and the connecting shaft for stirring; during the stirring process, the rotation of the stirring shaft drives the driving wheel to rotate, the driving wheel meshes with the passive wheel, and the passive wheel passes through the rotating sleeve. The cylinder rotates along the inner wall of the gear box with the driving wheel. Since the inner wall of the rotating sleeve is screwed with the traction screw, the traction screw moves up and down with the rotation of the rotating sleeve. The traction screw drives the traction block to move up and down, and the traction block drives the rotation. The block moves up and down through the guide shaft and the chute; when the stirring device is in use, the stirring paddle moves up and down during the rotation process through the driving of the traction screw and the traction block, fully stirring the garbage liquid and improving the uniformity of stirring.

During the rotation of the stirring paddle, the connecting shaft drives the active rod to rotate. During the rotation of the active rod, the slider and the guide groove rotate. Since the guide groove is a wave-shaped structure, the active rod moves up and down relative to the rotating block, and the active rod passes through The traction rod drives the connecting shaft to rotate repeatedly along the connecting block, and the connecting shaft drives the stirring paddle to rotate repeatedly. During the rotation process of the stirring paddle, the continuous rotation exerts the force on the upper and lower rotation of the dialysate to improve the stirring effect of the stirring paddle.

When the traction block is in use, the lower traction block buffers the movement of the upper traction block through the connecting rod and the buffer spring. When the active rod rotates along the guide groove, the lower traction block buffers the active rod to the upper traction block through the connecting rod and the buffer spring. When the traction screw pulls the lower traction block, the lower traction block buffers the force between the upper traction block and the rotating block through the connecting rod and the buffer spring; use the upper traction block, the lower traction block and the connecting rod buffer spring on it , to buffer the movement process of the stirring paddle and improve the stability of the present invention; the guide shaft and the guide block are used to guide the up and down movement of the traction block to improve the stability of the stirring paddle device.

The mixed garbage enters the extrusion dehydration chamber, the water in the garbage enters the drainage chamber through the extrusion dehydration chamber, and the extrusion motor acts, the extrusion screw is screwed with the extrusion sleeve, and the extrusion sleeve pushes the extrusion plate to The garbage is squeezed, the water after extrusion enters the drainage cavity and flows out, and the dry garbage is discharged through the slag outlet.

Claims (5)

1. a kind of food residue processor, including feeding device, grinding device, mixing arrangement, agitating device；It is characterized by: The temporary structure that the feeding device includes feeding structure and is connected with feeding structure；The feeding structure includes feed cavity, Feed cavity one end is equipped with feed inlet, and the feed cavity other end is equipped with discharge port corresponding with homocline structure, the temporary structure packet The temporary room being connected with feed cavity is included, the temporary pipeline being connected with temporary room is communicated on feed inlet；The temporary room leans on One end of nearly feed cavity slidably connects baffle, and feed cavity is equipped with the first hydraulic stem corresponding with baffle；The temporary room On slidably connect push rod, push rod is connected with push plate close to one end of baffle；The temporary room side is equipped with the second hydraulic stem, the The telescopic end of two hydraulic stems is connected with connecting plate, and connecting plate is connected with push rod far from one end of baffle；The feeding structure connects It is connected to grinding device, grinding device includes the homocline structure being connected with feeding structure, and the homocline structure includes homocline chamber, Material chamber be equipped with and discharge port relative to homocline import；The homocline is intracavitary to be equipped with homocline axis, and homocline axis is equipped with homocline paddle Leaf, homocline chamber are exported equipped with homocline corresponding with homocline blade；Abrasive structure is connected in the homocline structure；It is described to grind Mill structure includes grinding chamber, and grinding chamber is equipped with grinding motor, and the output end for grinding motor is connected with synchronizing shaft, synchronizing shaft and Material axis is connected；The grinding chamber, which is equipped with, exports the grinding feed inlet being connected with homocline；The synchronizing shaft top is equipped with and grinds Nog plate, synchronizing shaft lower part are equipped with discharging blade, and grinding chamber is equipped with grinding discharging opening corresponding with discharging blade；The grinding Structure is connected with mixing arrangement, and mixing arrangement is connected with extrusion dehydration chamber, and extrusion dehydration chamber is connected with drainage cavity, and described squeeze takes off Water cavity, which is equipped with, squeezes import；The agitating device includes mixing chamber, and mixing chamber is equipped with mixing axis, and mixing chamber is equipped with and mixes The corresponding hybrid electric motor of sympodium, mixing axis are equipped with agitating paddle device；Mixing chamber is equipped with corresponding with import is squeezed mixed Close outlet；It is connected with oil water separator on the feeding structure, oil water separator is connected with grease chamber and corresponding with grease chamber Connect oil pocket；Grease chamber lower end is equipped with the flushing mechanism being connected with feeding structure, and grease chamber top is equipped with and drainage cavity The drainpipe being connected.

2. food residue processor as described in claim 1, it is characterised in that: the extrusion dehydration chamber is far from extruding import One end, which is equipped with, squeezes motor, and the output end for squeezing motor is connected with extruding screw rod, squeezes and is bolted with extruding sleeve on screw rod, squeezes Sleeve is connected with the stripper plate being slidably connected with extrusion dehydration chamber far from the one end for squeezing screw rod；The extrusion dehydration chamber is close to crowded The one end for being pressed into mouth is equipped with the water outlet being connected with drainage cavity, and water outlet is equipped with filter screen；The extrusion dehydration chamber is close The one end for squeezing import is equipped with slag notch, and slag plate is slidably connected out on slag notch, and extrusion dehydration chamber is equipped with and slag plate phase out Corresponding third hydraulic stem；The flushing mechanism includes the circulating pump being connected with grease chamber, is connected with water inlet pipe on circulating pump, The water inlet pipe other end is connected with feed cavity close to the end of discharge port.

3. food residue processor as described in claim 1, it is characterised in that: the feed cavity is set close to one end of feed inlet There is a first motor, the output end of first motor is connected with main shaft, is successively arranged helical blade and peeling knife along feed inlet on main shaft； The feed cavity is equipped with leakage fluid dram corresponding with oil water separator, and charging cavity wall is rotatably connected to filter screen, on main shaft Equipped with the drive rod being connected with filter screen；The temporary chamber interior walls slidably connect sealing plate corresponding with temporary pipeline, Sealing board ends are equipped with pushing block corresponding with push plate.

4. food residue processor as described in claim 1, it is characterised in that: the agitating paddle device includes being sheathed on stirring Stop sleeve on axis, stop sleeve one end are connected with gear-box, are equipped with the driving wheel being socketed on agitating shaft, tooth in gear-box A pair of of rotational sleeve is rotatably connected in roller box, rotational sleeve outer wall is socketed with the driven wheel being meshed with driving wheel；A pair of of institute It states rotational sleeve inner wall and is bolted with traction screw rod, draw screw rod far from one end of stop sleeve and be connected with guiding piece, guiding piece It is sheathed on agitating shaft；Rotating block is rotatably connected on the guiding piece, rotating block is slidably connected with agitating shaft, and agitating shaft is equipped with The sliding axle matched with rotating block, rotating block are equipped with the sliding slot matched with sliding axle；Two are symmetrically connected on rotating block A link block is rotatably connected to connecting shaft on two link blocks, is connected with agitating paddle in connecting shaft.

5. food residue processor as claimed in claim 4, it is characterised in that: be vertically connected with traction in the connecting shaft Bar, draw bar are rotatably connected to driving lever far from one end of connecting shaft, and driving lever is slidably connected with guiding piece；The guiding piece is Cylindrical structure, guiding piece periphery are equipped with the guide groove of annular, and guide groove is wavy shaped configuration, and driving lever is equipped with and guiding The sliding block that slot matches.The guiding piece includes the lower guiding piece being connected with traction screw rod and is slidably connected with lower guiding piece Upper guiding piece, upper guiding piece and rotating block are rotatablely connected, and guide groove is set on upper guiding piece；The company of being connected on the lower guiding piece Extension bar, connecting rod are slidably connected with upper guiding piece, are arranged with buffer spring in connecting rod, buffer spring both ends respectively with upper traction Block is connected with lower guiding piece；The lower guiding piece is equipped with guiding axis, and gear-box is equipped with the guiding matched with guiding axis Block.