CN114453093B

CN114453093B - Kitchen garbage treatment method

Info

Publication number: CN114453093B
Application number: CN202210132002.0A
Authority: CN
Inventors: 余红成
Original assignee: Jiangsu Qinyu Construction Engineering Co ltd
Current assignee: Jiangsu Qinyu Construction Engineering Co ltd
Priority date: 2022-02-14
Filing date: 2022-02-14
Publication date: 2023-11-24
Anticipated expiration: 2042-02-14
Also published as: CN114453093A

Abstract

The invention belongs to the field of kitchen waste treatment, and particularly relates to a kitchen waste treatment system and a using method thereof. The kitchen garbage treatment device comprises a frame, wherein a frame cavity is formed in the frame, a rotating and receiving mechanism is fixedly arranged on the frame cavity, a material basket is fixedly arranged on the rotating and receiving mechanism, two layers of outer cutter sliding grooves are formed in the material basket, outer cutter sliding blocks are arranged in each outer cutter sliding groove, outer cutters are fixedly arranged on each outer cutter sliding block, an opening mechanism is arranged at the bottom of the material basket, a motor is fixedly arranged on the frame, a main rotating shaft is fixedly arranged at the output end of the motor, two layers of eight fifth sliding grooves are formed in the main rotating shaft, a center sliding block capable of sliding in a reciprocating manner is arranged in each fifth sliding groove, a center rotating shaft capable of rotating freely is arranged on each center sliding block, a center swinging block is fixedly arranged on each center swinging block, fan blade cutters are symmetrically and fixedly arranged on each fan blade mandrel, and a plurality of material basket liquid draining through holes are formed in the material basket.

Description

Kitchen garbage treatment method

Technical Field

The invention belongs to the field of kitchen garbage treatment, and particularly relates to a kitchen garbage treatment method.

Background

Along with the development of society, people's life tends to be convenient and fast more and more, and the requirement on living environment is also higher and more, is no exception to kitchen garbage's treatment. Generally, kitchen garbage is not treated, is filled into garbage bags and is poured into garbage cans or garbage cans at roadsides, and is uniformly pulled to a garbage transfer station or is directly pulled to a garbage disposal site, and the placement time and the movement time are long, so that the environment is greatly affected. Because kitchen garbage is mostly organic matters, the recycling value is higher. Before the subsequent fermentation treatment, the crushing treatment is inevitably required, and the water is conveniently screened out. Therefore, the pulverizing ability is required to be enhanced against this problem.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a kitchen garbage disposal method.

In order to achieve the above purpose, the present invention adopts the following technical scheme: a kitchen garbage treatment method is carried out by matching with a kitchen garbage treatment device, the kitchen garbage treatment device comprises a frame, a frame cavity is arranged in the frame, a rotary bearing mechanism is fixedly arranged on the inner side surface of the frame cavity, a reversed table-shaped material basket is fixedly arranged on the output end of the rotary bearing mechanism, two layers of external cutter sliding grooves are arranged in the material basket, an external cutter sliding block capable of sliding back and forth is arranged in each external cutter sliding groove, an external cutter capable of extending into the inner cavity of the material basket is fixedly arranged on the side surface of each external cutter sliding block, an opening mechanism is arranged at the bottom of the material basket, the automatic material basket discharging machine is characterized in that a motor is fixedly arranged on the upper end face of the interior of the machine frame, a main rotating shaft is fixedly arranged at the output end of the motor, two layers of eight fifth sliding grooves are uniformly formed in the circumferential face of the main rotating shaft according to ninety degrees, a central sliding block capable of sliding in a reciprocating mode is arranged in each fifth sliding groove, a freely rotatable central rotating shaft is arranged in each central sliding block, a central swinging block is fixedly arranged on the outer circumferential face of the central rotating shaft, a fan-shaped mandrel is fixedly arranged on the end face of each central swinging block, fan-shaped cutters are symmetrically arranged on the outer circumferential face of each fan-shaped mandrel, and a plurality of material basket discharging through holes are formed in positions, close to the bottom, of the side faces of the material basket.

Preferably, the rotation bearing mechanism comprises a frame cavity, a lower rotating frame is fixedly arranged on the inner side surface of the frame cavity, a rolling ball capable of rotating freely is arranged on the upper end surface of the lower rotating frame, an upper rotating frame capable of rotating freely is arranged above the rolling ball, a material basket is fixedly arranged on the inner side surface of the upper rotating frame, and a lower rotating frame liquid drain channel is formed in the lower rotating frame.

Preferably, a second spring is fixedly arranged between each external cutter sliding block and the corresponding external cutter sliding groove, a third sliding groove is formed in each external cutter (76), a plurality of clamping grooves communicated with the third sliding groove are symmetrically and alternately formed in the inner side surface of each external cutter, a plurality of external cutter liquid collecting grooves communicated with the external cutter sliding grooves are formed in the inner side wall of each external cutter sliding groove, fourth sliding grooves which are not communicated with the external cutter sliding grooves are formed in the inner side wall of each external cutter sliding groove, fourth sliding blocks capable of freely sliding are arranged in each fourth sliding groove, a liquid feeding groove communicated with the fourth sliding groove on the upper side of each external cutter sliding groove and the liquid feeding groove of each external cutter liquid collecting groove are formed in the inner side wall of each material basket, a plurality of liquid discharging grooves communicated with each fourth sliding groove on the lower side of each external cutter sliding groove and capable of freely sliding are fixedly arranged on the side surface of each external cutter liquid collecting groove, a second sliding groove capable of freely sliding is symmetrically arranged in each second sliding groove, and a second sliding groove capable of freely sliding in each second sliding groove is fixedly arranged in each second sliding groove.

Preferably, the opening mechanism comprises a material basket, a material basket bottom plate is fixedly arranged at the bottom of the material basket, a bottom plate discharge opening is formed in the center of the material basket bottom plate, first sliding grooves are uniformly formed in the material basket bottom plate according to sixty degrees, second sliding blocks capable of sliding in a reciprocating mode and being connected with the bottom plate discharge opening in a on-off mode are arranged in the first sliding grooves, and a first spring is fixedly arranged between each second sliding block and each first sliding groove.

Preferably, each second slider is provided with a second slider sliding groove in the second slider, each second slider rotating groove is uniformly provided with a second slider rotating groove according to sixty degrees in the material basket bottom plate, each second slider rotating groove is provided with a second slider rotating shaft capable of freely rotating in the material basket bottom plate, each second slider rotating shaft is fixedly provided with a second slider spring on the outer circumferential surface, each second slider is fixedly provided with a second slider buckle on the side surface of the second slider rotating groove, the lower end surface of the second slider rotating shaft is fixedly provided with a second slider rotating shaft buckle, each second slider sliding groove is uniformly provided with a second slider sliding groove communicated with the second slider rotating groove according to sixty degrees in the material basket bottom plate, each second slider sliding groove is internally provided with a second slider capable of reciprocally sliding, each second slider sliding groove is fixedly provided with a second slider spring, each second slider buckle is fixedly provided with a second slider on the side surface of the second slider, each second slider buckle is fixedly provided with a second slider rope on the second slider rope corresponding to the second slider buckle.

Preferably, a fourth spring is fixedly arranged between each central sliding block and each fifth sliding groove, a soft belt capable of sealing the fifth sliding groove is fixedly arranged between each fifth sliding groove and each central sliding block, and main rotating shaft accommodating cavities capable of accommodating the sector mandrel and the sector cutters are uniformly formed in the main rotating shaft at ninety degrees.

Preferably, the inside up end of frame has set firmly the mounting bracket, set firmly in on the outside lower terminal surface of mounting bracket the clean frame of main pivot, main pivot main liquid way has been seted up to the inside of main pivot, main pivot the inside according to ninety degrees evenly set up with main pivot inlet channel that main pivot main liquid was said and is linked together, the annular has been seted up to the inside of clean frame, the inside of clean frame seted up can with main pivot inlet channel with the inside groove of annular intercommunication, the interface has set firmly on the side of clean frame, the interface with the outside external passageway of intercommunication annular and external has been seted up to the inside of clean frame, the inside of main pivot be fixed with main pivot main liquid way communicating main pivot branch liquid way, every center pendulum piece, every center slider and every the inside of center pivot set firmly with the fan piece moves the liquid way that main pivot divides the liquid way intercommunication, every the inside of piece set firmly with the fan moves the piece.

Preferably, the outer circumferential surface of the main rotating shaft is symmetrically and fixedly provided with gear rotating shafts, the tail end of each gear rotating shaft is fixedly provided with a bevel gear, and the upper end surface of the material basket is fixedly provided with a bevel gear ring which is meshed with the bevel gear for transmission.

Preferably, the frame is provided with a feeding port convenient for feeding materials in the material basket, a detachable machine cover is arranged on the feeding port, a handle convenient for taking is fixedly arranged on the machine cover, a lower rotating frame liquid drain channel communicated with a liquid drain through hole of the material basket is arranged in the lower rotating frame, a detachable liquid collecting bottle is arranged on the frame cavity, a liquid collecting cavity is arranged in the liquid collecting bottle, the lower rotating frame and the liquid collecting bottle are fixedly connected with the lower rotating frame liquid drain channel and a liquid drain pipe of the liquid collecting cavity, a compression box is fixedly arranged on the frame, a compression cavity is arranged in the compression box, a hydraulic pump is fixedly arranged in the compression cavity, a hydraulic cavity is arranged in the hydraulic pump, a first sliding rod capable of sliding reciprocally is arranged in the hydraulic cavity, a sliding plate abutting against the sliding groove of the box cover is fixedly arranged on the first sliding rod, a hydraulic interface is fixedly arranged on the frame, the hydraulic interface and the compression box is fixedly connected with the compression box, the compression box cover is fixedly arranged in the frame, and the compression box cover is fixedly connected with the compression box cover, and the compression box cover is fixedly arranged on the frame, and the compression box cover is fixedly connected with the compression box cover.

The beneficial effects are that:

the invention provides a kitchen garbage treatment method through improvement, which has the following improvement and advantages compared with the prior art:

1. the separation of crushed and uncrushed materials can be realized by the mutual cooperation of the material basket, the first chute, the first spring, the second sliding block and the bottom plate discharge hole.

2. Through the cooperation of the material basket and the sector cutter and the external cutter, not only is the crushing of materials realized, but also the solid-liquid separation is realized.

3. Through the cooperation of the sliding plate, the first sliding rod, the hydraulic pump, the hydraulic cavity, the compression box, the compression cavity, the box cover rack and the box cover sliding chute, the compression treatment of materials is realized.

4. The recovery of residual liquid and thrown liquid can be realized through the material basket liquid discharge through hole, the lower rotating frame and the lower rotating frame liquid discharge channel, and the reasonable utilization of the non-emulsified cleaning liquid is realized.

5. Through the mutual cooperation of second slider knot, second slider spout, second slider bull stick, second slider change groove, second slider pivot knot, second slider rope, second slider cushion, second slider spout, second slider spring, can realize preventing that it from prematurely opening to the second slider.

6. The independent cleaning of the external cutter is realized through the mutual cooperation of the third sliding block, the third spring, the second sliding groove, the clamping groove and the third sliding groove.

7. Through the mutual cooperation of the fan blade mandrel, the fan blade cutter, the central rotating shaft, the central sliding block, the central swinging block, the soft belt, the fourth spring and the fifth sliding groove, the cutting of materials can be realized, the cutting range can be enlarged, and the materials can be prevented from flying out.

Drawings

FIG. 1 is a workflow diagram of the present design;

FIG. 2 is a front cross-sectional view of the present design;

FIG. 3 is a side cross-sectional view of a basket;

FIG. 4 is a cross-sectional view at A-A in FIG. 2;

FIG. 5 is a cross-sectional view at B-B in FIG. 2;

FIG. 6 is a cross-sectional view taken at C-C of FIG. 2;

FIG. 7 is a cross-sectional view taken at D-D of FIG. 3;

FIG. 8 is an enlarged view of a portion of FIG. 2 at E;

FIG. 9 is an enlarged view of a portion of FIG. 3 at F;

FIG. 10 is a partial enlarged view at G in FIG. 3;

FIG. 11 is an enlarged view of a portion of H in FIG. 3;

FIG. 12 is a cross-sectional view taken at I-I of FIG. 11;

in the drawing the view of the figure, frame 10, frame cavity 11, upper mounting frame 12, bevel gear 13, gear shaft 14, bevel gear ring 15, basket 16, upper rotating frame 17, ball 18, lower rotating frame 19, lower rotating frame drain 20, drain 21, collector bottle 22, collector cavity 23, compression tank 24, compression cavity 25, handle 26, lid 27, feed port 28, motor 29, main shaft 30, main shaft housing cavity 31, lid 32, basket drain hole 33, lid frame 34, lid chute 35, slide plate 36, first slide bar 37, hydraulic pump 38, hydraulic cavity 39, first slide 40, hydraulic tube 41, hydraulic interface 42, basket bottom plate 43, first chute 44, first spring 45, second slide 46, bottom plate drain 47, cleaning frame 48, 49, external channel 50, interface 51, main shaft feed channel 52, main shaft main channel 53, inner tank 54, lid chute 35, slide plate 44, and lid the parting blade 55, the parting blade 56, the parting blade mandrel 57, the parting blade moving liquid channel 58, the center swing block 60, the center slide block 63, the center rotating shaft 64, the main rotating shaft parting liquid channel 65, the external parting blade slide groove 67, the external parting blade slide block 68, the second slide bar 69, the second spring 70, the third slide block 71, the third spring 72, the second slide groove 73, the third slide groove 74, the clamping groove 75, the external parting blade 76, the lower liquid groove 77, the external parting blade liquid collecting groove 78 the upper liquid tank 79, the fourth sliding chute 80, the fourth sliding block 81, the fourth spring 82, the soft belt 83, the fifth sliding chute 84, the second sliding block slide button 85, the second sliding block sliding chute 86, the second sliding block rotating rod 87, the second sliding block rotating groove 88, the second sliding block rotating shaft 89, the second sliding block rotating shaft button 90, the second sliding block rope 91, the second sliding block cushion block 92, the second sliding block 93, the third sliding block sliding chute 94 and the second sliding block spring 95.

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.

In the description of the present invention, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

As shown in fig. 2 and 3, a kitchen garbage disposal device comprises a frame 10, a frame cavity 11 is formed in the frame 10, a rotation bearing mechanism is fixedly arranged on the inner side surface of the frame cavity 11, a reversed-table-shaped material basket 16 is fixedly arranged at the output end of the rotation bearing mechanism, two layers of outer cutter sliding grooves 67 are formed in the material basket 16, outer cutter sliding blocks 68 capable of sliding in a reciprocating manner are arranged in the outer cutter sliding grooves 67, outer cutters 76 capable of extending into the inner cavity of the material basket 16 are fixedly arranged on the side surface of each outer cutter sliding block 68, an opening mechanism is arranged at the bottom of the material basket 16, a motor 29 is fixedly arranged on the upper end surface of the inner part of the frame 10, a main rotating shaft 30 is fixedly arranged at the output end of the motor 29, two layers of eight fifth sliding grooves 84 are uniformly formed in ninety degrees on the circumferential surface of the main rotating shaft 30, a center sliding block 63 capable of sliding in a reciprocating manner is arranged in each center sliding groove 63, a freely rotatable center rotating shaft 64 is arranged in the inner part, a center swinging block 60 is fixedly arranged on the outer circumferential surface of each center rotating shaft 64, a center fan 57 is fixedly arranged on the outer circumferential surface of each center sliding block 60, a plurality of fan blades are fixedly arranged on the upper end surface of the center surface 60, a plurality of fan blades are fixedly arranged on the side surfaces of the center fan 57, and the center fan positions are close to the side surfaces of the material basket are fixedly arranged on the side surfaces of the material basket 16, and the side surfaces are fixedly arranged, and the center fan is fixedly arranged on the side surface of a position of a center fan, and the side surface of a position of a center fan.

As shown in fig. 2, the rotation bearing mechanism comprises a frame cavity 11, a lower rotating frame 19 is fixedly arranged on the inner side surface of the frame cavity 11, a freely rotatable rolling ball 18 is arranged on the upper end surface of the lower rotating frame 19, a freely rotatable upper rotating frame 17 is arranged above the rolling ball 18, a material basket 16 is fixedly arranged on the inner side surface of the upper rotating frame 17, and a lower rotating frame liquid drain channel 20 is arranged in the lower rotating frame 19.

As shown in fig. 8 and 9, a second spring 70 is fixedly arranged between each external cutter sliding block 68 and the corresponding external cutter sliding groove 67, a third sliding groove 74 is formed in each external cutter 76, a plurality of clamping grooves 75 communicated with the third sliding groove 74 are symmetrically and alternately formed in the inner side surface of each external cutter 76, a plurality of external cutter liquid collecting grooves 78 communicated with the external cutter sliding groove 67 are formed in the inner side wall of each material basket 16, fourth sliding grooves 80 which are not communicated with the external cutter sliding grooves 67 are formed in the inner side wall of each material basket 16, fourth sliding blocks 81 capable of freely sliding are arranged in the inner side of each fourth sliding groove 80, upper liquid grooves 79 communicated with the fourth sliding grooves 80 and the external cutter liquid collecting grooves 78 which are arranged on the upper side of each external cutter sliding groove 67 are formed in the inner side wall of each material basket 16, a fourth sliding groove 80 communicated with the lower liquid collecting grooves 77 which are arranged on the lower side of each external cutter sliding groove 67 are formed in the inner side wall of each material basket 16, fourth sliding grooves 80 capable of freely sliding are formed in the inner side wall of each external cutter sliding groove 74, second sliding grooves 73 are symmetrically and alternately formed in each second sliding groove 73 capable of freely sliding grooves 73, and each third sliding groove 73 can freely slide grooves 73 are formed in the inner side wall of each material basket 16, and each second sliding groove 71 is capable of freely sliding in the inner sliding grooves 73 is capable of freely sliding and can freely sliding and independently sliding grooves 73 are formed in each sliding grooves 73.

As shown in fig. 2, 3 and 7, the opening mechanism comprises a material basket 16, a material basket bottom plate 43 is fixedly arranged at the bottom of the material basket 16, a bottom plate discharge opening 47 is formed in the center of the material basket bottom plate 43, first sliding grooves 44 are uniformly formed in the material basket bottom plate 43 according to sixty degrees, second sliding blocks 46 capable of sliding back and forth and switching on and off the bottom plate discharge opening 47 are arranged in each first sliding groove 44, and a first spring 45 is fixedly arranged between each second sliding block 46 and the first sliding groove 44.

As shown in fig. 2, 3, 11 and 12, the second slide grooves 86 are formed in each second slide 46, the second slide rotating grooves 88 are uniformly formed in the material basket bottom plate 43 according to sixty degrees, the second slide rotating shafts 89 capable of freely rotating are arranged in each second slide rotating groove 88 in the material basket bottom plate 43, second slide springs 95 are fixedly arranged between each second slide 93 and each third slide rotating groove 94, second slide buckles 85 are fixedly arranged on the outer circumferential surface of each second slide rotating shaft 89, second slide rotating shafts 87 are driven to rotate in each second slide groove 86 and each second slide rotating groove 88, second slide rotating shaft buckles 90 are fixedly arranged on the lower end surface of each second slide rotating shaft 87, third slide grooves 94 communicated with the second slide rotating grooves 88 are uniformly formed in the material basket bottom plate 43 according to sixty degrees, second slide blocks 93 capable of reciprocally sliding are arranged in each third slide groove 94, second slide springs 95 are fixedly arranged between each second slide block 93 and each third slide groove 94, second slide blocks 85 are fixedly arranged on the side surfaces of each second slide blocks 93, second slide blocks 85 are fixedly arranged on the side surfaces of the second slide blocks and correspond to the second slide blocks 92, and the second slide blocks 87 are fixedly arranged on the second side surfaces of the second slide blocks 93.

As shown in fig. 2, 3 and 10, a fourth spring 82 is fixed between each central slide block 63 and the fifth slide groove 84, a soft belt 83 capable of closing the fifth slide groove 84 is fixed between each fifth slide groove 84 and the central slide block 63, and a main rotating shaft accommodating cavity 31 capable of accommodating the fan blade spindle 57 and the fan blade cutter 56 is uniformly formed on the side surface of the main rotating shaft 30 at ninety degrees.

As shown in fig. 2, 4, 5 and 6, an upper mounting frame 12 is fixedly arranged on the upper end surface of the interior of the frame 10, a cleaning frame 48 which is abutted against the main rotating shaft 30 is fixedly arranged on the lower end surface of the exterior of the upper mounting frame 12, the main rotating shaft main liquid channel 53 is arranged in the main rotating shaft 30, the main rotating shaft liquid inlets 52 which are communicated with the main rotating shaft main liquid channel 53 are uniformly arranged in the main rotating shaft 30 according to ninety degrees, the annular grooves 49 are arranged in the cleaning frame 48, the inner grooves 54 which can be communicated with the main rotating shaft liquid inlets 52 and the annular grooves 49 are arranged in the cleaning frame 48, the interfaces 51 are fixedly arranged on the side surfaces of the cleaning frame 48, the inner parts of the interfaces 51 and the cleaning frame 48 are provided with the external connecting channels 50 which are communicated with the annular grooves 49 and the outside, the main rotating shaft liquid channels 65 which are communicated with the main rotating shaft main liquid channel 53 are fixedly arranged in the interior of the main rotating shaft 30, the fan moving liquid channels 58 which are communicated with the main rotating shaft liquid channels 65 are fixedly arranged in the interior of each central swinging block 60, each central sliding block 63 and each central rotating shaft 64, and the fan moving liquid channels 58 are communicated with the fan moving channels 55.

As shown in fig. 2, the outer circumference of the main rotating shaft 30 is symmetrically fixed with gear rotating shafts 14, the tail end of each gear rotating shaft 14 is fixed with a bevel gear 13, and the upper end surface of the material basket 16 is fixed with a bevel ring 15 meshed with the bevel gear 13.

As shown in fig. 2, a feeding port 28 for feeding materials into the material basket 16 is formed in the frame 10, a detachable cover 27 is arranged on the feeding port 28, a handle 26 for taking is fixedly arranged on the cover 27, a lower rotating frame liquid drain 20 communicated with a material basket liquid drain through hole 33 is formed in the lower rotating frame 19, a detachable liquid collecting bottle 22 is arranged on the frame cavity 11, a liquid collecting cavity 23 is formed in the liquid collecting bottle 22, a liquid drain pipe 21 for communicating the lower rotating frame liquid drain 20 with the liquid collecting cavity 23 is fixedly arranged on the lower rotating frame 19 and the liquid collecting bottle 22, a compression box 24 is fixedly arranged on the frame 10, a compression cavity 25 is formed in the compression box 24, a hydraulic pump 38 is fixedly arranged in the compression cavity 25, a hydraulic cavity 39 is formed in the hydraulic pump 38, a first sliding block 40 capable of sliding reciprocally is arranged in the hydraulic cavity 39, a first sliding rod 37 extending out of the hydraulic cavity 39 is fixedly arranged on the first sliding block 40, a sliding plate 36 abutting against the box cover 35 is fixedly arranged on the first sliding block 37, a hydraulic interface 42 is fixedly arranged on the frame 10, a hydraulic interface 42, a hydraulic interface 40, a hydraulic box 39 is fixedly communicated with the compression box 24 and a hydraulic box cover 41 is fixedly arranged in the compression box 24, a compression box cover 25 is fixedly arranged in the compression box 25, a compression box 25 is fixedly connected with the compression box 25, a box cover is fixedly connected with the compression box cover 35, a sliding box cover is fixedly arranged in the frame 35, and a reciprocally slides is fixedly arranged in the compression box 35, and can be reciprocally and a sliding box cover 35 is slidably connected with a sliding box 35.

Initial position: the outer cutter 76 and the outer cutter slider 68 retract into the outer cutter slide 67. The third slider 71 is caught in the top end catching groove 75 of the outer cutter 76. The center slide 63 is located at the lower end of the fifth runner 84. The sector spindle 57 and the sector cutter 56 are located in the main spindle receiving chamber 31. The second slider 93 ejects the third slider chute 94 under the action of the second slider spring 95, and the second slider 93 pushes the second slider rotating rod 87 against the second slider through the second slider cushion block 92, so that the second slider rotating rod 87 is locked with the second slider 46 in the second slider chute 86. The second slider rope 91 is located between the second slider pads 92. The second slider 46 is pressed against and seals the bottom plate discharge opening 47 under the action of the first spring 45. The fourth slide 81 is located in the fourth chute 80 in a direction approaching the geometric center of the basket 16. A sliding plate 36 is located at the lower end of the compression chamber 25 in the compression box 24. The hydraulic interface 42 is externally connected with a hydraulic control system. The fourth chute 80 is provided with hydraulic oil therein. Interface 51 is externally connected to a cleaning fluid system.

The kitchen garbage treatment method comprises the following specific use steps:

the first step: and (5) feeding materials. The lid 27 is taken by the hand by the handle 26, the lid 27 is pulled away from the inlet 28, and the material is thrown into the cavity of the basket 16 through the lid 27.

And a second step of: crushing the materials. The motor 29 is periodically powered on, the motor 29 drives the main rotating shaft 30 to rotate, and along with the rotation of the main rotating shaft 30, the fan spindle 57 and the fan cutter 56 gradually drive the fan moving liquid channel 58 to rotate around the central rotating shaft 64 and leave the main rotating shaft accommodating cavity 31. Due to the vane shape of the sector cutter 56, the generated upward air flow drives the center slider 63 to slide upward along the fifth runner 84 against the resistance of the fourth spring 82, and the periodical change of the cutting angle of the sector cutter 56 and the telescopic height of the center slider 63 is achieved along with the periodical rotation of the main rotation shaft 30. To expand the cutting range and cutting angle of the sector cutter 56. The main rotating shaft 30 drives the gear rotating shaft 14 to rotate, the gear rotating shaft 14 drives the bevel gear 13 to rotate, the bevel gear 13 drives the bevel gear ring 15 to rotate through meshing with the bevel gear ring 15, and the bevel gear ring 15 drives the animal charging basket 16 to rotate. Due to the presence of the upper turret 17, the balls 18 and the lower turret 19, the basket 16 rotates slightly slower than the main shaft 30 and the attachment thereon. With the rotation of the basket 16, the fourth sliding block 81 slides to the outer side of the basket 16 under the comprehensive action of the force, hydraulic oil in the fourth sliding block 80 is extruded by the fourth sliding block 81 to enter the external cutter collecting tank 78 through the upper liquid tank 79, so that the external cutter sliding block 68 is pushed to slide in the external cutter sliding groove 67, and the external cutter sliding block 68 drives the external cutter 76 to slide out of the basket 16 in the external cutter sliding groove 67 along with the sliding of the external cutter sliding block 68 against the resistance of the second spring 70. The third slider 71 gradually overcomes the resistance of the third spring 72 and retracts into the second chute 73, and as the external cutter 76 continues to slide, the third slider 71 slides out along the second chute 73 under the action of the third spring 72 and is clamped into the clamping groove 75, and in the process, the third slider 71 periodically strikes the inner wall of the external cutter 76, so that the external cutter 76 is cleaned. When the rotation speed of the main rotation shaft 30 decreases, the force received by the fourth slider 81 becomes smaller. The second spring 70 pushes the external cutting slide block 68 to slide in the external cutting slide groove 67, hydraulic oil in the external cutting slide groove 67 enters the external cutting liquid collecting groove 78, and enters the fourth slide groove 80 through the upper liquid groove 79, so that the fourth slide block 81 is reset in the fourth slide groove 80.

And a third step of: the liquid is discharged. The periodic rotation of the motor 29, when the rotational speed is high, the external cutters 76 and the sector cutters 56 cut the crushed material and accelerate the water in the material out with the rotation of the basket 16. When the rotation speed is reduced, the thrown out water liquid falls down along the inner wall of the material basket 16 under the action of gravity, enters the material basket liquid discharge through hole 33 along with the rotation of the material basket 16, then enters the lower rotating frame liquid discharge channel 20 of the lower rotating frame 19, and is gathered into the liquid collecting cavity 23 of the liquid collecting bottle 22 along the liquid discharge pipe 21 along with the pushing of air flow generated under the rotation of the material basket 16. As the second spring 70 pushes the outer cutter slider 68 to slide in the outer cutter slide groove 67, the outer cutter slider 68 drives the outer cutter 76 to retract into the outer cutter slide groove 67. As the external cutter chute 67 is retracted, the third slider 71 gradually overcomes the resistance of the third spring 72 to retract into the second chute 73, and as the external cutter 76 continues to slide, the third slider 71 slides out along the second chute 73 under the action of the third spring 72 and is clamped into the clamping groove 75, and in this process, the third slider 71 periodically strikes the inner wall of the external cutter 76, so that the external cutter 76 is cleaned.

Fourth step: the material is removed and extruded. When the rotation speed reaches the set value, the second slider 93 overcomes the resistance of the second slider spring 95 under the combined action of the forces and slides along the third slider chute 94. Along with the sliding of the second slider 93, the second slider rope 91 is pulled by the second slider buckle 85, and then the second slider rotating rod 87 is driven by the second slider rotating shaft buckle 90 to rotate around the second slider rotating shaft 89 in the second slider sliding groove 86 of the second slider 46 and the second slider rotating groove 88 of the material basket bottom plate 43, and along with the continuous rotation of the second slider rotating rod 87, the second slider rotating rod 87 finally slides out of the second slider sliding groove 86 of the second slider 46 into the second slider rotating groove 88 of the material basket bottom plate 43, so that the unlocking of the second slider rotating rod 87 to the second slider 46 is realized. Because the resistance of the first spring 45 is smaller than that of the second slider spring 95, when the second slider rotating rod 87 releases the unlocking of the second slider 46, the second slider 46 also slides along the first chute 44 of the basket bottom plate 43 against the resistance of the first spring 45 under the combined action of the forces, and releases the closure of the bottom plate discharge opening 47 of the basket bottom plate 43. The shredded material is now discharged from the second slide 46 of the basket bottom 43. When the basket 16 is in operation, the lid 32 is retracted into the lid housing 34 of the basket drain through opening 33. The shredded materials in basket 16 enter compression chamber 25 of compression box 24. As material gradually accumulates in the compression chambers 25 of the compression box 24, the compression chambers 25 of the compression box 24 are gradually filled. At this time, the cover 32 is slid out of the cover slide groove 35 of the cover frame 34 to close the compression chamber 25 of the compression box 24. At this time, the hydraulic oil enters the hydraulic pipe 41 through the hydraulic interface 42, and then enters the hydraulic cavity 39 of the hydraulic pump 38, so as to push the first sliding block 40 to slide in the hydraulic cavity 39 of the hydraulic pump 38, the first sliding block 40 drives the first sliding rod 37 to move, and the first sliding rod 37 pushes the sliding plate 36 to slide in the compression cavity 25 of the compression box 24. The material in the compression chamber 25 of the compression box 24 is continuously extruded and formed under the pushing of the sliding plate 36, so that the occupied space is reduced. After compression is completed, the cover 32 is retracted into the cover chute 35 of the cover frame 34 and the material in the compression chamber 25 of the compression box 24 is removed.

Fifth step: a cleaning mechanism. After cutting, the cleaning liquid enters the external channel 50 through the interface 51, enters the annular groove 49 of the cleaning frame 48, continues to enter the main shaft liquid inlet channel 52 of the main shaft 30 through the internal groove 54, and finally enters the main shaft main liquid channel 53 of the main shaft 30. The motor 29 is powered on, the motor 29 drives the main rotating shaft 30 to rotate, and along with the rotation of the main rotating shaft 30, the fan spindle 57 and the fan cutter 56 gradually drive the fan moving liquid channel 58 to rotate around the central rotating shaft 64 and leave the main rotating shaft accommodating cavity 31. Due to the also vane shape of the vane cutter 56, the resulting upward air flow drives the center slider 63 to slide upward along the fifth runner 84 against the resistance of the fourth spring 82 and finally to connect the vane movement fluid passage 58 and the main spindle fluid passage 65. The cleaning liquid in the main shaft main liquid channel 53 of the main shaft 30 enters the fan moving liquid channel 58 through # and is thrown out from the opening of the dividing groove 55 to clean the outer surfaces of the fan cutter 56 and the fan spindle 57 and the inner surface of the material basket 16 under the combined action of the power of the external system and the forces of the fan cutter 56 and the fan spindle 57. Simultaneously, the main rotating shaft 30 drives the gear rotating shaft 14 to rotate, the gear rotating shaft 14 drives the bevel gear 13 to rotate, the bevel gear 13 drives the bevel gear 15 to rotate through meshing with the bevel gear 15, and the bevel gear 15 drives the animal basket 16 to rotate. Due to the presence of the upper turret 17, the balls 18 and the lower turret 19, the basket 16 rotates slightly slower than the main shaft 30 and the attachment thereon. With the rotation of the basket 16, the fourth sliding block 81 slides to the outer side of the basket 16 under the comprehensive action of the force, hydraulic oil in the fourth sliding block 80 is extruded by the fourth sliding block 81 to enter the external cutter collecting tank 78 through the upper liquid tank 79, so that the external cutter sliding block 68 is pushed to slide in the external cutter sliding groove 67, and the external cutter sliding block 68 drives the external cutter 76 to slide out of the basket 16 in the external cutter sliding groove 67 along with the sliding of the external cutter sliding block 68 against the resistance of the second spring 70. The third slider 71 gradually overcomes the resistance of the third spring 72 and retracts into the second chute 73, and as the external cutter 76 continues to slide, the third slider 71 slides out along the second chute 73 under the action of the third spring 72 and is clamped into the clamping groove 75, and in the process, the third slider 71 periodically strikes the inner wall of the external cutter 76, so that the external cutter 76 is cleaned. The outer cutter 76 is cleaned by being thrown out of the opening of the dividing groove 55. The cleaned residual liquid enters the lower rotating frame liquid drain channel 20 of the lower rotating frame 19 through the material basket liquid drain through hole 33, and then enters the liquid collecting cavity 23 of the liquid collecting bottle 22 through the liquid drain pipe 21.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. A kitchen waste disposal method, the method comprising the steps of:

s1, putting materials into an inner cavity of a material basket through a cover;

s2, crushing materials;

s3, discharging liquid;

s4, removing and extruding materials;

s5, performing S5; a cleaning mechanism;

the method is carried out by matching with a kitchen garbage disposal device, the kitchen garbage disposal device comprises a frame (10), a frame cavity (11) is arranged in the frame (10), a rotary bearing mechanism is fixedly arranged on the inner side surface of the frame cavity (11), a reversed table-shaped material basket (16) is fixedly arranged on the output end of the rotary bearing mechanism, two layers of eight outer cutter sliding grooves (67) are arranged in the material basket (16), each outer cutter sliding groove (67) is internally provided with an outer cutter sliding block (68) capable of sliding in a reciprocating manner, each outer cutter sliding block (68) is fixedly provided with an outer cutter (76) capable of extending into the inner cavity of the material basket (16) on the side surface of the outer cutter sliding block (68), an opening mechanism is arranged at the bottom of the material basket (16), a motor (29) is fixedly arranged on the inner upper end surface of the frame (10), a main rotating shaft (30) is fixedly arranged at the output end of the motor (29), two layers of eight fifth sliding grooves (84) are uniformly arranged on the circumference surface of the main rotating shaft (30), each inner center sliding block (64) is fixedly provided with a center (60) capable of sliding on the center sliding block (64), a sector cutter (56) is symmetrically and fixedly arranged on the outer circumferential surface of each sector mandrel (57), and a plurality of material basket liquid discharge through holes (33) are formed in the position, close to the bottom, of the side surface of each material basket (16).

2. A kitchen waste disposal method according to claim 1, characterized in that: the rotary bearing mechanism comprises a frame cavity (11), a lower rotating frame (19) is fixedly arranged on the inner side surface of the frame cavity (11), a rolling ball (18) capable of rotating freely is arranged on the upper end surface of the lower rotating frame (19), an upper rotating frame (17) capable of rotating freely is arranged above the rolling ball (18), a material basket (16) is fixedly arranged on the inner side surface of the upper rotating frame (17), and a lower rotating frame liquid drain channel (20) is formed in the lower rotating frame (19).

3. A kitchen waste disposal method according to claim 1, characterized in that: every external cutting slider (68) has set firmly second spring (70) between its corresponding external cutting spout (67), every the inside of external cutting slider (76) has seted up third spout (74), every external cutting slider (76)'s medial surface symmetry alternately set up a plurality of with the communicating draw-in groove (75) of third spout (74), the lateral wall inside of material basket (16) set up a plurality of with the communicating external cutting collecting tank (78) of external cutting spout (67), the lateral wall inside of material basket (16) at every external cutting spout (67) has seted up fourth spout (80) that do not communicate with it from top to bottom, every fourth spout (80)'s inside is equipped with fourth slider (81) that can freely slide, the lateral wall inside of material basket (16) has seted up the intercommunication and is located fourth spout (80) of external cutting spout (67) upside and the last cistern (79) of external cutting collecting tank (78), the lateral wall inside of material basket (16) has seted up every external cutting spout (67) and has been located the fourth spout (78) that can slide down in the side of reciprocal collecting tank (78), second sliding grooves (73) are symmetrically and alternately formed in the tail end of each second sliding rod (69), third sliding blocks (71) capable of sliding back and forth and freely entering and exiting in the clamping grooves (75) are arranged in each second sliding groove (73), and third springs (72) are fixedly arranged between each third sliding block (71) and each second sliding groove (73).

4. A kitchen waste disposal method according to claim 1, characterized in that: the opening mechanism comprises a material basket (16), a material basket bottom plate (43) is fixedly arranged at the bottom of the material basket (16), a bottom plate discharge opening (47) is formed in the center of the material basket bottom plate (43), first sliding grooves (44) are uniformly formed in the material basket bottom plate (43) according to sixty degrees, second sliding blocks (46) which can slide back and forth and can be used for connecting and disconnecting the bottom plate discharge opening (47) are arranged in the first sliding grooves (44), and first springs (45) are fixedly arranged between the second sliding blocks (46) and the first sliding grooves (44).

5. A kitchen waste disposal method according to claim 4, wherein: every second slider (46) inside has seted up second slider spout (86), second slider change groove (88) have evenly been seted up according to sixty degrees to the inside of material basket bottom plate (43), material basket bottom plate (43) in every second slider change groove (88) inside be equipped with second slider pivot (89) that can freely rotate, every second slider pivot (89) outer periphery on set firmly can second slider spout (86) with second slider change groove (88) internal pivoted drives second slider bull stick (87), set firmly second slider pivot knot (90) on the lower terminal surface of second slider bull stick (87), material basket bottom plate (43) inside according to sixty degrees evenly set up with second slider change groove (88) communicating third slider spout (94), every third slider spout (94) inside be equipped with can reciprocal slip second slider (93), every second slider (93) with second slider (95) have set firmly between the second slider rope (95) second slider knot (85), and second slider cushion blocks (92) which can prop against the second slider rotating rods (87) are symmetrically and fixedly arranged on the side surfaces of each second slider (93).

6. A kitchen waste disposal method according to claim 1, characterized in that: a fourth spring (82) is fixedly arranged between each central sliding block (63) and each fifth sliding groove (84), a soft belt (83) capable of sealing the fifth sliding grooves (84) is fixedly arranged between each fifth sliding groove (84) and each central sliding block (63), and main rotating shaft accommodating cavities (31) capable of accommodating the sector spindles (57) and the sector cutters (56) are uniformly formed in the side faces of the main rotating shafts (30) at ninety degrees.

7. A kitchen waste disposal method according to claim 6, characterized in that: an upper mounting frame (12) is fixedly arranged on the upper end surface of the interior of the frame (10), an inner groove (54) which can be communicated with the main rotating shaft (52) and the annular groove (49) is fixedly arranged on the lower end surface of the exterior of the upper mounting frame (12), a main rotating shaft main liquid channel (53) is arranged in the main rotating shaft (30), main rotating shaft liquid inlet channels (52) which are communicated with the main rotating shaft main liquid channel (53) are uniformly arranged in the main rotating shaft (30) according to ninety degrees, an annular groove (49) is arranged in the interior of the cleaning frame (48), an interface (51) is fixedly arranged on the side surface of the cleaning frame (48), an external connecting channel (50) which is communicated with the annular groove (49) and the outside is arranged in the interior of the cleaning frame (48), a main rotating shaft liquid inlet channel (52) which is communicated with the main rotating shaft main liquid channel (53) is fixedly arranged in the interior of the main rotating shaft (30), a center rotating shaft (65) which is communicated with a center rotating shaft (65) of each center rotating shaft (64) and a center rotating shaft (60) which is communicated with a center rotating shaft (60), a dividing groove (55) communicated with the fan moving liquid channel (58) is formed in each fan cutting knife (56).

8. A kitchen waste disposal method according to claim 1, characterized in that: the outer circumferential surface of the main rotating shaft (30) is symmetrically and fixedly provided with gear rotating shafts (14), the tail end of each gear rotating shaft (14) is fixedly provided with a bevel gear (13), and the upper end surface of the material basket (16) is fixedly provided with a bevel gear ring (15) which is meshed with the bevel gear (13) for transmission.

9. A kitchen waste disposal method according to claim 1, characterized in that: the utility model discloses a hydraulic sliding rod (37) of a reciprocating sliding rod (37) is characterized in that a feeding hole (28) which is convenient for feeding materials into a material basket (16) is formed in a frame (10), a detachable cover (27) is arranged on the feeding hole (28), a handle (26) which is convenient for taking is fixedly arranged on the cover (27), a lower rotating frame drain channel (20) which is communicated with a material basket drain through hole (33) is formed in a lower rotating frame (19), a detachable liquid collecting bottle (22) is arranged on the frame cavity (11), a liquid collecting cavity (23) is formed in the liquid collecting bottle (22), the lower rotating frame drain channel (19) and the liquid collecting bottle (22) are fixedly communicated, a compression box (24) is fixedly arranged on the frame (10), a compression cavity (25) is formed in the compression box (24), a hydraulic pump (38) is fixedly arranged in the compression cavity (25), a hydraulic cavity (39) is formed in the frame cavity (11), a first sliding rod (40) which can be fixedly connected with a sliding rod (37) which is fixedly connected with a sliding rod (37), the hydraulic interface (42) has been set firmly on frame (10), hydraulic interface (42) first slider (40) with set firmly in compression case (24) intercommunication hydraulic pressure chamber (39) and external hydraulic pressure pipe (41), set firmly case lid frame (34) on frame (10), set firmly case lid spout (35) in case lid frame (34), be equipped with in case lid spout (35) can reciprocate the slip and can seal and start case lid (32) of compression chamber (25).