CN212093681U - Movable kitchen waste rapid reduction treatment system - Google Patents

Abstract

The application relates to a movable kitchen waste rapid reduction treatment system. The application portable quick decrement processing system of kitchen garbage include: comprises a box body, a garbage pretreatment device, a moving assembly and a feeding control assembly; the garbage pretreatment device is arranged in the box body, and the plurality of moving assemblies are sequentially arranged at the bottom of the box body; a feed inlet is formed in the top surface of the box body, and the feed control assembly is arranged at the feed inlet; the garbage pretreatment device comprises a garbage squeezing device and a garbage separating device, wherein an inlet of the garbage squeezing device is connected with the feeding hole, a solid-phase outlet of the garbage squeezing device penetrates through the box body, and a liquid-phase outlet of the garbage squeezing device is communicated with an inlet of the garbage separating device; and a liquid phase outlet of the garbage separating device is communicated with the box body. The application discloses quick decrement processing system of portable kitchen garbage has the advantage of small-size intensification processing rubbish.

Description

Movable kitchen waste rapid reduction treatment system

Technical Field

The application relates to a waste treatment system, in particular to a movable kitchen waste rapid reduction treatment system.

Background

The existing kitchen waste treatment system is usually formed by combining a plurality of functional block devices, and the required treatment capacity and the treatment capacity are large, so that the whole system of the kitchen waste treatment system in the prior art is large in size and needs to be provided with a special treatment site. With the continuous improvement of people's material life, more and more garbage is produced in daily life, and more kitchen garbage disposal places or larger garbage pretreatment devices need to be arranged. Obviously, these methods multiply the cost of waste disposal and are not suitable for the needs of economic development.

SUMMERY OF THE UTILITY MODEL

Based on this, the aim at of this application provides portable quick decrement processing system of kitchen garbage, and it has through small-size intensive processing system, convenient and fast to the kitchen garbage preliminary treatment to the advantage that has reduced total treatment cost when making things convenient for waste disposal.

One aspect of the application provides a movable rapid kitchen waste reduction treatment system, which comprises a box body, a waste pretreatment device, a moving assembly and a feeding control assembly; the garbage pretreatment device is arranged in the box body, and the plurality of moving assemblies are sequentially arranged at the bottom of the box body; a feed inlet is formed in the top surface of the box body, and the feed control assembly is arranged at the feed inlet;

the garbage pretreatment device comprises a garbage squeezing device and a garbage separating device, wherein an inlet of the garbage squeezing device is connected with the feeding hole, and a liquid phase outlet of the garbage squeezing device is communicated with an inlet of the garbage separating device; a liquid phase outlet of the garbage separating device penetrates through the box body; and the solid phase outlet of the garbage separation device is converged with the solid phase outlet of the garbage squeezing device.

The application portable quick decrement processing system of kitchen garbage thereby provides intensive refuse treatment's space through setting up the box, carry out abundant processing with rubbish in the box through rubbish preprocessing device to make rubbish can be handled in the box. The movable assembly provides that the box body is movable, and the position of the box body is convenient to change. The feeding control assembly can control feeding, so that on one hand, the feeding amount can be controlled, and on the other hand, the feeding control assembly can be guaranteed to be closed when not feeding to prevent odor in the box body from diffusing out of the box body. The garbage squeezing device of the garbage pretreatment device squeezes the fed garbage, so that water and oil in the large garbage or wet garbage are squeezed out, and the garbage is conveniently classified for treatment; and separating the squeezed garbage in a garbage separating device, and sending out the garbage which is divided into a solid phase, a water phase and an oil phase.

Furthermore, the garbage pretreatment device further comprises a crushing device, wherein an inlet of the crushing device is connected with the feeding hole, an outlet of the crushing device is connected with the garbage squeezing device, and the crushing device is arranged above the garbage squeezing device.

Further, the feeding control assembly comprises a feeding hopper, a feeding baffle, a limiting frame body and a feeding driving cylinder, the feeding hopper is installed on the feeding port and arranged above the box body, the limiting frame body is arranged inside the box body and surrounds the feeding port, a limiting groove is formed in the limiting frame body, the feeding baffle is transversely placed and arranged in the limiting groove, the feeding driving cylinder is arranged in the box body, the top end of a piston rod of the feeding driving cylinder is fixedly connected with the feeding baffle, and when the piston rod reciprocates, the feeding baffle is enabled to reciprocate relative to the limiting frame body so as to open or close the feeding port.

Furthermore, the moving assembly comprises universal wheels with brake pieces, and a plurality of universal wheels are uniformly distributed on the bottom surface of the box body.

Further, the device also comprises a hot air generating device; and an air outlet of the hot air generating device is connected with an inlet of the garbage squeezing device, so that hot air of the hot air generating device enters the garbage squeezing device.

Further, the negative pressure generating device is further included, the negative pressure generating device is connected with the box body, and an air inlet of the negative pressure generating device is communicated with the inner cavity of the box body.

Further, still include and purify the subassembly, should purify the subassembly and set up in the box, and arrange in negative-pressure air fan's entry.

The garbage pretreatment device comprises a garbage pretreatment device, a garbage bin and a separation product treatment device, wherein the garbage bin is internally provided with a garbage bin body;

the separation product processing device comprises a buffer container, an ultraviolet lamp and a solid phase receiving container, wherein a buffer cavity is formed in the buffer container, and the ultraviolet lamp is arranged on the inner wall of the buffer container and is placed in the buffer cavity;

the buffer container is arranged in the box body and is connected with the garbage pretreatment device through a pipeline, and the solid-phase containing container is arranged outside the box body and is arranged below the buffer container.

The garbage separating device is characterized by further comprising a liquid phase containing container, a solid phase joint assembly and a liquid phase joint assembly, wherein a liquid phase discharge port is formed in the bottom of the box body, and a liquid phase outlet of the garbage separating device is connected with the liquid phase discharge port through a pipeline;

the solid phase container and the liquid phase container are respectively arranged outside the box body;

the solid phase joint component is movably connected with the solid phase receiving container; the liquid phase joint assembly is arranged at the liquid phase discharge port and is movably connected with the liquid phase containing container.

The garbage pretreatment device comprises a garbage pretreatment device, a garbage storage device, a garbage disposal device and a plurality of solar cells, wherein the garbage pretreatment device and the garbage disposal device are arranged in a box body respectively;

the low-energy consumption user comprises an illuminating lamp which is arranged in the box body, and the solar cell is electrically connected with the illuminating lamp.

For a better understanding and practice, the present application is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic perspective view of a portion of a removed housing of an exemplary movable rapid kitchen waste reduction treatment system according to the present application;

fig. 2 is a schematic perspective view of another perspective view of the mobile kitchen waste rapid reduction processing system according to the present application;

FIG. 3 is a front view of a portion of a removed housing of an exemplary mobile kitchen waste rapid reduction treatment system of the present application;

FIG. 4 is a bottom view of an exemplary feed control assembly of the present application in connection with a housing;

FIG. 5 is a schematic perspective view of an exemplary waste pre-treatment device of the present application coupled to a hot air generator;

FIG. 6 is a schematic view in half section of an exemplary water gas exchanger of the present application;

FIG. 7 is a schematic view of a half-section of an exemplary solid phase joint assembly, screw and housing connection structure of the present application;

FIG. 8 is a perspective view of an exemplary solid phase joint assembly, screw and housing connection structure of the present application.

Detailed Description

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

FIG. 1 is a schematic perspective view of a portion of a removed housing of an exemplary movable rapid kitchen waste reduction treatment system according to the present application; fig. 2 is a schematic perspective view of another perspective view of the mobile kitchen waste rapid reduction processing system according to the present application; FIG. 3 is a front view of a portion of a removed housing of an exemplary mobile kitchen waste rapid reduction treatment system of the present application; FIG. 4 is a bottom view of an exemplary feed control assembly of the present application in connection with a housing.

Referring to fig. 1-4, an exemplary movable kitchen waste rapid reduction treatment system of the present application includes a housing 10, a waste pretreatment device, a moving assembly 12 and a feeding control assembly 11; the garbage pretreatment device is arranged in the box body 10, and a plurality of moving assemblies 12 are sequentially arranged at the bottom of the box body 10; a feeding hole is formed in the top surface of the box body 10, and the feeding control assembly 11 is arranged at the feeding hole;

the garbage pretreatment device comprises a garbage squeezing device 30 and a garbage separating device 40, wherein an inlet of the garbage squeezing device 30 is connected with the feeding hole, a solid-phase outlet of the garbage squeezing device 30 is connected with a buffer container 71, and a liquid-phase outlet of the garbage squeezing device 30 is communicated with an inlet of the garbage separating device 40; the liquid phase outlet of the garbage separating device 40 penetrates through the box body 10; the solid phase outlet of the waste separation device 40 is merged with the solid phase outlet of the waste press device 30.

In some preferred embodiments, the box body further includes a controller, and the controller may be a central processing unit or a PLC module, or may be a control device such as a single chip microcomputer, and is used to automatically control each device in the whole box body 10.

In some preferred embodiments, the garbage pre-treatment device further comprises a crushing device 20, the inlet of the crushing device 20 is connected with the feeding port, the outlet of the crushing device 20 is connected with the garbage pressing device 30, and the crushing device 20 is arranged above the garbage pressing device 30.

In some preferred embodiments, the garbage pretreatment device is arranged in the box body 10, and the feeding device is arranged on the side wall of the box body 10;

the feeding device comprises a feeding motor 91, a crawler belt 92, a feeding claw 94 and a claw support 93, the feeding motor 91 is arranged on the box body 10 and connected with the crawler belt 92, the crawler belt 92 is longitudinally arranged on the box body 10 and movably connected with the box body 10, the claw support 93 is fixedly connected with the crawler belt 92, and the feeding claw 94 is arranged on the claw support 93; the feeding motor 91 drives the caterpillar track 92 to rotate, so that the feeding claw 94 is lifted and lowered longitudinally;

a trash can disposed around the case 10;

the identification assembly includes a color identification module 95, and the color identification module 95 is disposed on the claw bracket 93 to identify the color of the trash can.

The color of the trash can is identified by the color identifying module 95 of the identifying component, so that the type of the trash can is judged, and the trash can of the specified type can be processed. When recognizing the garbage bin of appointed type, promote the garbage bin through loading attachment, the material loading claw hand 94 snatchs the garbage bin, perhaps grasps the garbage bin, material loading motor 91 drives track 92 and rotates, thereby drive claw support 93 and rise, thereby claw support 93 rises makes the material loading claw promote, the material loading claw promotes and drives the garbage bin and promotes, finally promote the garbage bin to the top of box 10, then the garbage bin mouth aims at the feed inlet of box 10, pour rubbish into box 10, and handle in rubbish preprocessing device.

In some further embodiments, the color recognition module 95 comprises a camera and a processor, the camera is disposed on the claw holder 93, and the shooting direction of the camera is toward the outside of the box 10; the processor is arranged on the box body 10 and is electrically connected with the camera. In some further embodiments, the color recognition module 95 further comprises a controller disposed on the housing 10 and electrically connected to the processor; the feeding motor 91 is electrically connected with the controller.

In some further embodiments, the trash can includes green trash cans (not shown) and other color trash cans (not shown).

In some further embodiments, a lighting lamp is further included, which is provided on the claw bracket 93 to illuminate the outside of the case 10.

In some further embodiments, the loading device further comprises a load cell (not shown) disposed at the junction of the loading gripper and the gripper bracket 93; the weighing sensor is electrically connected with the controller.

In some further embodiments, the load cell further comprises a memory electrically connected to the load cell.

In some further embodiments, the portable electronic device further comprises a GPS locator and a signal transmission component, the GPS locator and the signal transmission component are respectively arranged in the box body 10, and the GPS locator and the signal transmission component are respectively electrically connected with the controller.

In some further embodiments, it further comprises a conveyor (not shown) disposed beside said box 10 and placed below said feeding device; so as to convey the garbage can to the feeding device.

In some preferred embodiments, the feeding control assembly 11 includes a feeding funnel, a feeding baffle 111, a limiting frame 112 and a feeding driving cylinder 113, the feeding funnel is installed on the feeding port and is placed above the box 10, the limiting frame 112 is disposed inside the box 10 and surrounds the feeding port, a limiting groove is disposed on the limiting frame 112, the feeding baffle 111 is transversely placed and placed in the limiting groove, the feeding driving cylinder 113 is disposed in the box 10, and the top end of a piston rod of the feeding driving cylinder 113 is fixedly connected to the feeding baffle 111, when the piston rod reciprocates, the feeding baffle 111 reciprocates relative to the limiting frame 112 to open or close the feeding port. Through set up the feed inlet on box 10 to set up feeding control assembly 11, convenience when guaranteeing the rubbish feeding, the leakproofness of box 10 when refuse treatment moreover. The feeding baffle 111 is pushed to reciprocate relative to the limiting frame 112 through the feeding driving cylinder 113, so that the opening and closing of the feeding port are realized, and the materials are conveniently sealed with the box body 10. Through the sealed box body 10, the peculiar smell in the box body 10 is ensured not to flow out easily, and further, the air freshness of the field environment is ensured.

In some further embodiments, the feeding control assembly 11 further comprises a sealing gasket (not shown) disposed in the limiting groove of the limiting frame 112 and wrapping the edge of the feeding baffle 111.

In some further embodiments, the cross-sectional area of the feed baffle 111 is greater than the cross-sectional area of the feed inlet such that the feed baffle 111 may completely block the feed inlet.

In some further embodiments, the feed drive cylinder 113 is a pneumatic or hydraulic cylinder.

In some further embodiments, the moving assembly 12 includes a universal wheel with a brake, and a plurality of the universal wheels are uniformly distributed on the bottom surface of the box 10.

Fig. 5 is a schematic perspective view illustrating a connection between an exemplary garbage pretreatment device and a hot air generating device according to the present application. Referring to fig. 5, in some preferred embodiments, a hot air generating device 50 is further included; an air outlet of the hot air generating device 50 is connected with an inlet of the garbage squeezing device 30, so that hot air of the hot air generating device 50 enters the garbage squeezing device 30. By providing the hot air generating device 50, the environment inside the housing 10 and the material entering the garbage press device 30 are heated, so that the temperature of the material to be processed can be conveniently processed. When box 10 is located ambient temperature lower or the air temperature is lower, the grease in the kitchen garbage takes place to solidify easily, is difficult to squeeze and separate these kitchen garbage this time, through heating these kitchen garbage for grease wherein forms liquid and flows easily, thereby is convenient for squeeze and separate these kitchen garbage, and then when guaranteeing winter or ambient temperature is lower, the normal operating of the temperature compensation formula removal kitchen garbage processing system of this application. In addition, the temperature compensation type mobile kitchen waste treatment system is a miniaturized treatment system, is usually placed in an open air and well ventilated environment, and is easy to reduce the internal temperature along with the reduction of the air temperature. By arranging the hot air generating device 50, the influence caused by low temperature can be effectively solved, and the normal operation of a miniaturized processing system is ensured.

In some further embodiments, an air inlet is formed at the top of the sidewall of the garbage squeezing device 30, a limiting sleeve is arranged at the air inlet, and an outlet of the hot air generating device 50 is sleeved with the limiting sleeve through a hose 51. In some further examples, a hose is connected to the feed of the comminution apparatus to provide heat to the feed. Further, an air outlet is further formed in the top of the garbage squeezing device 30, and the air outlet is communicated with the inner cavity of the box body 10. Further, the hot air generating device 50 further comprises a branch pipe 52, wherein one end of the branch pipe 52 is communicated with the middle of the hose 51, and the other end is communicated with the inner cavity of the box body 10. Further, the hot air generating device 50 further comprises a first control valve and a second control valve, the first control valve is arranged on the hose 51 section between the branch pipe 52 and the limiting sleeve, and the second control valve is arranged on the branch pipe 52.

In some further embodiments, the waste pre-treatment device further comprises a filter (not shown) disposed over the exhaust port.

In some further embodiments, an insulating lining layer (not shown) is further included, and covers the inner wall of the box body 10.

In some further embodiments, the hot wind generating device 50 includes a blower and a heating wire, the heating wire is disposed at the blower outlet, and the blower and the heating wire are respectively disposed in the case 10; the air outlet of the blower is connected with the inlet of the garbage squeezing device 30 through a pipeline, so that hot air enters the feeding end of the garbage squeezing device 30.

In some further embodiments, a feeding infrared sensor (not shown) is further included, and the feeding infrared sensor is disposed at the feeding port of the box body 10 to detect the feeding of the feeding port.

In some further embodiments, a temperature sensor (not shown) is further included, and the temperature sensor and the controller are respectively disposed in the box 10; the air blower, the heating wire, the feeding infrared sensor and the temperature sensor are respectively electrically connected with the controller.

In some preferred embodiments, the vacuum cleaner further comprises a negative pressure generating device, the negative pressure generating device is connected with the box body 10, and an air inlet of the negative pressure generating device is communicated with an inner cavity of the box body 10. The negative pressure generating device is arranged to be matched with the miniaturized equipment of the garbage disposal system. In the miniaturized mobile form of the garbage disposal system, the large garbage disposal system is generally disposed in a place where the flow of people is small, unlike the conventional large-scale equipment, since it is dispersedly disposed and disposed in an environment where the flow of people is large. Therefore, the miniaturization of the equipment requires the relevant equipment for removing the peculiar smell. This application is through setting up negative pressure generating device for the inside negative pressure that forms of box 10, thereby prevent that the inside stink of box 10 from flowing out from the box 10 gap, and carry out the unified processing of the inside stink of box 10 easily, guaranteed the air quality of box 10 surrounding environment.

In some further embodiments, the negative pressure generating device comprises a negative pressure fan 61, the negative pressure fan 61 is fixed on the box body 10, an inlet of the negative pressure fan is communicated with the inner cavity of the box body 10, and an outlet of the negative pressure fan is arranged outside the box body 10.

In some further embodiments, a purge assembly is included, which is disposed within the enclosure 10 and is disposed at the inlet of the negative pressure fan 61.

FIG. 6 is a schematic view of a half-section of an exemplary water gas exchanger of the present application. In some further embodiments, referring to fig. 6, the purification assembly includes a circulating water system and a water-gas exchanger 64, two ends of the circulating water system are respectively connected to two ends of the water phase of the water-gas exchanger 64, respectively a water-phase inlet end 641 and a water-phase outlet end 642, a gas-phase inlet end 643 of the water-gas exchanger 64 is communicated with the inner cavity of the box 10, and a gas-phase outlet end 644 of the water-gas exchanger 64 is connected to the inlet of the negative pressure fan 61. Further, the purification assembly further comprises a filter screen, and the filter screen is arranged between the gas phase outlet 644 of the water-gas exchanger 64 and the inlet of the negative pressure fan 61 in multiple layers. Further, the purification assembly further comprises a plurality of spray pipes 62, a plurality of water spray holes are formed in the spray pipes 62, and one ends of the spray pipes 62 are connected with the circulating water system; the plurality of shower pipes 62 are sequentially arranged at the purification assembly. Further, the purification assembly further comprises a water recovery frame 63, the water recovery frame 63 is arranged in the box body 10 and is positioned below the spray pipe 62, and the water recovery frame 63 is connected with the water supply end of the circulating water system through a pipeline. Further, the purification assembly comprises an adsorption cylinder and an adsorption filler, the adsorption filler is filled in the adsorption cylinder, and the adsorption cylinder is placed in the box body 10.

In some preferred embodiments, the water gas exchanger 64 is a plate-fin heat exchanger or a plate heat exchanger, water flows down from the upper portion of the heat exchanger, air flows up from the lower portion of the heat exchanger, and the water and air are counter-currently contacted on the heat exchange plates 645, whereby the substances in the air are dissolved in the water, and the odorous substances in the air are carried away and removed with the water flow.

In some further embodiments, the water circulating system (not shown) includes a water tank, a water circulating pump and a plurality of connecting lines, the water tank is connected to the inlet end of the water circulating pump through the connecting lines, the outlet end of the water circulating pump is connected to the water phase inlet end of the water gas exchanger 64, and the water phase outlet end of the water gas exchanger 64 is connected to the water tank through the connecting lines.

In some further embodiments, a plurality of the negative pressure generating devices are included, and the plurality of the negative pressure generating devices are respectively disposed on the top surface and the side wall of the box body 10.

In some preferred embodiments, further comprises a separation product treatment device disposed within the tank 10, the separation product treatment device being connected to the waste pretreatment device; the separation product treatment device comprises a buffer container 71, an ultraviolet lamp 72 and a solid phase receiving container 711, wherein a buffer cavity is formed in the buffer container 71, and the ultraviolet lamp 72 is arranged on the inner wall of the buffer container 71 and is placed in the buffer cavity; the buffer container 71 is arranged in the box body 10 and connected with the garbage pretreatment device through a solid phase discharge pipe 76, and the solid phase receiving container 711 is arranged outside the box body 10 and is arranged below the buffer container 71. The treatment device for the separation product irradiates the treated garbage output by the garbage separation device with an ultraviolet lamp 72 to eliminate some microorganisms and toxic and harmful substances of the treated garbage, so that the effects of sterilization and disinfection are achieved, and the breeding of germs and microorganisms is reduced to a certain extent.

In some further embodiments, the separated product treatment apparatus further comprises an ozone generator 70 and an ozone delivery pipe, wherein the ozone generator 70 is connected to the top of the buffer container 71 through the ozone delivery pipe and is communicated with the buffer cavity; the ozone generator 70 and the ozone delivery pipe are respectively provided in the case 10.

In some further embodiments, the separated product processing apparatus further comprises an agitation mechanism connected to the buffer container 71 and extending through the buffer container 71 and disposed within the buffer cavity. Further, the stirring mechanism comprises a stirring motor 73 and a stirring drill bit 74, the stirring drill bit 74 is rotatably connected with the stirring motor 73, the stirring motor 73 is arranged in the box body 10 and is arranged outside the buffer container 71, and the stirring drill bit 74 is arranged in the buffer container 71.

In some further embodiments, the separation processing apparatus further comprises an infrared sensor and a weighing sensor, the infrared sensor is disposed on the case 10 and faces the solid phase container 711; the weighing sensor is disposed at the bottom end of the solid phase container 711.

Further, the infrared sensor and the weighing sensor are respectively electrically connected with the controller.

FIG. 7 is a schematic view of a half-section of an exemplary solid phase joint assembly, screw and housing connection structure of the present application; FIG. 8 is a perspective view of an exemplary solid phase joint assembly, screw and housing connection structure of the present application. With reference to fig. 7 and 8, in some preferred embodiments, the garbage separation apparatus further includes a liquid phase receiving container (not shown), a solid phase joint assembly (not shown), and a liquid phase joint assembly (not shown), the bottom of the tank 10 is respectively opened with a solid phase discharge port and a liquid phase discharge port, and the liquid phase outlet of the garbage separation apparatus 40 is connected to the liquid phase discharge port through a pipeline;

the solid phase container 711 and the liquid phase container are respectively disposed outside the case 10; the solid phase joint assembly is arranged at the solid phase discharge port and is movably connected with the solid phase containing container 711; the liquid phase joint assembly is arranged at the liquid phase discharge port and is movably connected with the liquid phase containing container.

In some further embodiments, the solid phase joint assembly comprises a solid phase discharge pipe 76, a solid phase control valve 78, and a solid phase pushing assembly, wherein one end of the solid phase discharge pipe 76 is fixed to the solid phase discharge port, the solid phase control valve 78 is disposed on the solid phase discharge pipe 76, and the solid phase pushing assembly is disposed in the box 10 and can push the materials in the solid phase discharge pipe 76 to move;

the solid phase receptacle 711 includes a solid phase barrel and a solid phase tubular connector, the solid phase tubular connector penetrates through the wall of the solid phase barrel and communicates with the inside of the solid phase barrel, and the solid phase tubular connector can be sleeved with the solid phase discharge pipe 76.

In some further embodiments, the solid phase receptacle 711 further comprises a solid phase baffle 79 and a torsion spring (not shown), wherein the solid phase baffle 79 is hinged to the end of the solid phase tubular joint through the torsion spring.

In some further embodiments, the solid phase pushing assembly comprises a driving motor and a screw 77, the driving motor is disposed in the housing 10, the screw 77 is disposed in the solid phase discharge pipe 76 and is located at one side of the solid phase control valve 78, and a rotating shaft of the driving motor is connected to the screw 77 to rotate the screw 77. The driving motor drives the screw 77 to rotate through the bevel gear, and the screw 77 drives the garbage in the buffer container 71 to be transported to the solid phase container 711. The screw 77 is sleeved with a limiting sleeve to be limited in the solid phase discharge pipe 76.

In some further embodiments, the liquid phase joint assembly includes a liquid phase discharge pipe fixed at the liquid phase discharge port and a liquid phase control valve provided on the liquid phase discharge pipe; the liquid phase receiving container comprises a liquid phase barrel body and a liquid phase tubular joint, and the liquid phase tubular joint can be sleeved with the liquid phase discharge pipe; the liquid phase tubular joint is communicated with the inner cavity of the liquid phase barrel body. Further, the liquid phase containing container also comprises a liquid phase baffle and a torsion spring, and the liquid phase baffle is hinged with the end part of the liquid phase tubular joint through the torsion spring.

In some further embodiments, the apparatus further comprises a transfer mechanism (not shown), a plurality of the transfer mechanisms are respectively disposed below the solid phase adapter assembly and the liquid phase adapter assembly, a plurality of the solid phase containers 711 are disposed on the corresponding transfer mechanism, and a plurality of the liquid phase containers are disposed on the corresponding transfer mechanism. Further, the transfer mechanism includes a motor-driven turntable, the motor of the motor-driven turntable is fixed to the box 10, the turntable is transversely disposed and can rotate relative to the box 10, and the plurality of solid phase containers 711 are disposed on the corresponding turntable and below the solid phase joint assembly; the liquid phase receiving containers are arranged on the corresponding turntables and are arranged below the liquid phase joint assemblies.

In some further embodiments, the solid phase pushing assembly, the solid phase control valve 78 and the liquid phase control valve are each electrically connected to the controller.

In some preferred embodiments, a low energy consumption user (not shown) and a solar cell 80 are further included, the garbage pre-treatment device and the low energy consumption user are respectively disposed in the box 10, a plurality of the solar cells 80 are covered on the outer surface of the box 10, and the solar cell 80 is electrically connected with the low energy consumption user; the low-power-consumption user includes an illumination lamp provided in the case 10, and the solar cell 80 is electrically connected to the illumination lamp. The solar cell 80 is arranged outside the box body 10, and the electric quantity generated by the solar cell 80 is transmitted to the low-energy-consumption user in the box body 10 or on the box body 10, so that the power is supplied to the low-energy-consumption user, and the energy-saving effect is realized. Since the small-sized garbage disposal system has a small size and strong mobility, there is a problem of power supply in general, and the problem of user tension can be improved by providing the solar cell 80, so that the small-sized garbage disposal system can be realized well.

In some further embodiments, a battery (not shown) is included, and a plurality of the solar cells 80 are electrically connected to the battery, which is electrically connected to the low energy consumer. Further, the storage battery is electrically connected with the controller to provide power for the controller.

The application discloses an exemplary working principle of a movable kitchen waste rapid reduction treatment system:

the garbage bin that holds rubbish is placed in loading attachment department to being discerned by the discernment subassembly, judging the colour of garbage bin after, carrying out the transport material loading. The garbage can is grabbed by the feeding claw 94 and lifted by the caterpillar band 92 under the drive of the motor. After the garbage bin is lifted to the feeding port, the feeding control component 11 controls the feeding port to be opened, and then the garbage in the garbage bin is conveyed into the crushing device 20 in the box body 10 to be crushed. After all the garbage in the garbage can enters the box body 10, the feeding control assembly 11 closes the feeding hole. The crushed garbage falls into the garbage squeezing device 30, and after being squeezed, the garbage is separated into a solid phase and a liquid phase and is sent out, wherein the solid phase enters the buffer container 71, and the liquid phase enters the garbage separating device 40. The three-phase centrifugal separation is performed in the garbage separation device 40 to separate a solid phase, a water phase and an oil phase, the solid phase separated by the garbage separation device 40 enters the buffer container 71, and the water phase and the oil phase respectively enter the corresponding liquid phase receiving containers through the corresponding liquid phase joint assemblies. The solid phase in the buffer container 71 is sterilized and then sent to the corresponding solid phase container 711. The liquid-phase container and the solid-phase container 711 are sealed and then can be removed. Of course, the water phase can be directly discharged to a trench after being purified, so that the workload of subsequent treatment is reduced.

In the whole treatment process, the odor generated in the box body 10 is treated by the negative pressure generating device and the purifying assembly, so that clean air is kept in the box body 10, and the discharged odor is clean. Heat is generated by the hot wind generating device 50 to supply heat to the pulverizing device 20 and the garbage press device 30, to heat the feed material therein, to prevent the equipment from freezing at a low temperature, and to improve the treatment efficiency. Because the box body 10 is placed outdoors, the illumination is sufficient, partial electric quantity is supplied through the solar battery 80, the power supply of low-energy users is ensured, and the energy is saved and the consumption is reduced.

According to the movable kitchen waste rapid reduction treatment system, through the scheme, advanced treatment before waste recovery treatment is finally achieved, so that the total waste treatment capacity of cities or towns is reduced. And the structure of the box body 10 is adopted, so that the placement is easy, the movement is convenient, and the occupied area is small. After the waste is treated in advance, the water phase is treated and discharged on the spot, so that the amount of the water phase conveyed to a waste treatment plant is reduced, and the solid phase and the oil phase are separately conveyed, thereby facilitating the subsequent treatment. The box body 10 is an important element, can ensure convenient manufacture and transportation of garbage miniaturization treatment, and provides good guarantee for the miniaturization scale treatment.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (10)

1. The utility model provides a quick decrement processing system of portable kitchen garbage which characterized in that: comprises a box body, a garbage pretreatment device, a moving assembly and a feeding control assembly; the garbage pretreatment device is arranged in the box body, and the plurality of moving assemblies are sequentially arranged at the bottom of the box body; a feed inlet is formed in the top surface of the box body, and the feed control assembly is arranged at the feed inlet;

the garbage pretreatment device comprises a garbage squeezing device and a garbage separating device, wherein an inlet of the garbage squeezing device is connected with the feeding hole, and a liquid phase outlet of the garbage squeezing device is communicated with an inlet of the garbage separating device; a liquid phase outlet of the garbage separating device penetrates through the box body; and the solid phase outlet of the garbage separation device is converged with the solid phase outlet of the garbage squeezing device.

2. The movable kitchen waste rapid reduction treatment system according to claim 1, characterized in that: the garbage pretreatment device further comprises a crushing device, wherein an inlet of the crushing device is connected with the feeding hole, an outlet of the crushing device is connected with the garbage squeezing device, and the crushing device is arranged above the garbage squeezing device.

3. The movable kitchen waste rapid reduction treatment system according to claim 2, characterized in that: the feeding control assembly comprises a feeding hopper, a feeding baffle, a limiting frame and a feeding driving cylinder, the feeding hopper is installed on the feeding port and arranged above the box, the limiting frame is arranged inside the box and surrounds the feeding port, a limiting groove is formed in the limiting frame, the feeding baffle is transversely placed and arranged in the limiting groove, the feeding driving cylinder is arranged in the box, the top end of a piston rod of the feeding driving cylinder is fixedly connected with the feeding baffle, the piston rod reciprocates to enable the feeding baffle to move oppositely to the limiting frame to move reciprocally so as to open or close the feeding port.

4. The movable kitchen waste rapid reduction treatment system according to claim 3, characterized in that: the moving assembly comprises universal wheels with brake pieces, and a plurality of universal wheels are uniformly distributed on the bottom surface of the box body.

5. The movable kitchen waste rapid reduction treatment system according to claim 2, characterized in that: the hot air generating device is also included; and an air outlet of the hot air generating device is connected with an inlet of the garbage squeezing device, so that hot air of the hot air generating device enters the garbage squeezing device.

6. The movable kitchen waste rapid reduction treatment system according to claim 2, characterized in that: the negative pressure generating device is connected with the box body, and an air inlet of the negative pressure generating device is communicated with the inner cavity of the box body.

7. The movable kitchen waste rapid reduction treatment system according to claim 6, characterized in that: the negative pressure generating device is characterized by further comprising a purifying assembly, wherein the purifying assembly is arranged in the box body and is arranged at an inlet of the negative pressure generating device.

8. The movable kitchen waste rapid reduction treatment system according to claim 2, characterized in that: the separation product treatment device is arranged in the box body and is connected with the garbage pretreatment device;

the separation product processing device comprises a buffer container, an ultraviolet lamp and a solid phase receiving container, wherein a buffer cavity is formed in the buffer container, and the ultraviolet lamp is arranged on the inner wall of the buffer container and is placed in the buffer cavity;

the buffer container is arranged in the box body and is connected with the garbage pretreatment device through a pipeline, and the solid-phase containing container is arranged outside the box body and is arranged below the buffer container.

9. The movable kitchen waste rapid reduction treatment system according to claim 8, characterized in that: the garbage separating device is characterized by further comprising a liquid phase containing container, a solid phase joint assembly and a liquid phase joint assembly, wherein a liquid phase discharge port is formed in the bottom of the box body, and a liquid phase outlet of the garbage separating device is connected with the liquid phase discharge port through a pipeline;

the solid phase container and the liquid phase container are respectively arranged outside the box body;

the solid phase joint component is movably connected with the solid phase receiving container; the liquid phase joint assembly is arranged at the liquid phase discharge port and is movably connected with the liquid phase containing container.

10. The movable kitchen waste rapid reduction treatment system according to claim 2, characterized in that: the garbage pretreatment device comprises a garbage pretreatment device body, a garbage pretreatment device and a plurality of solar cells, wherein the garbage pretreatment device body is arranged in the garbage pretreatment device body, the garbage pretreatment device body is arranged in;

the low-energy consumption user comprises an illuminating lamp which is arranged in the box body, and the solar cell is electrically connected with the illuminating lamp.

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