CN107838173B - Sorting mechanism for garbage disposal - Google Patents

Abstract

The invention relates to the technical field of garbage treatment, in particular to a sorting mechanism for garbage treatment, which comprises a garbage treatment device body, wherein a supporting rod is arranged in the garbage treatment device body, one end of the supporting rod is fixedly connected to the inner wall of the garbage treatment device body, the end head of the other end of the supporting rod is rotatably connected with the end head of one end of a movable rod, and the other end of the movable rod is connected to the bottom surface of a supporting plate; the top of the supporting plate is provided with an accommodating cavity, the top and the right side of the accommodating cavity are both opened, and the bottom of the accommodating cavity is provided with an electromagnetic chuck; a feeding funnel is arranged corresponding to the containing cavity up and down, and the feeding funnel is positioned at the top of the garbage disposal device body; this internal baffle that is equipped with of refuse treatment device, baffle divide into magnetic refuse collection groove and refuse treatment groove with refuse treatment device body the latter half, and magnetic refuse collection groove is located the backup pad below, and refuse treatment groove is located magnetic refuse collection groove's right side. The invention can effectively sort out the magnetic garbage in the garbage disposal process.

Description

Sorting mechanism for garbage disposal

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a sorting mechanism for garbage treatment.

Background

The garbage is solid waste generated in daily life and production of human beings, has large discharge amount, complex and various components, pollution, resource and socialization, needs harmless, resource, reduction and socialization treatment, and can pollute the environment, influence the environmental sanitation, waste resources, destroy the safety of production and life and destroy the social harmony if the garbage cannot be properly treated. The garbage disposal is to rapidly remove the garbage, perform harmless treatment and finally reasonably utilize the garbage. The garbage disposal methods widely used today are sanitary landfills, high temperature composting and incineration. The purpose of garbage treatment is harmlessness, resource utilization and reduction.

However, the above-mentioned treatment method cannot effectively recycle the recycled resources in the garbage, which causes resource waste, and the treatment process is easy to cause environmental pollution and destroy the ecological environment.

Disclosure of Invention

To overcome some or all of the disadvantages of the prior art, the present invention provides a sorting mechanism for waste disposal.

The sorting mechanism for garbage disposal comprises a garbage disposal device body, wherein a supporting rod is arranged in the garbage disposal device body, one end of the supporting rod is fixedly connected to the inner wall of the garbage disposal device body, the end head of the other end of the supporting rod is rotatably connected with the end head of one end of a movable rod, and the other end of the movable rod is connected to the bottom surface of a supporting plate; the top of the supporting plate is provided with an accommodating cavity, the top and the right side of the accommodating cavity are both opened, and the bottom of the accommodating cavity is provided with an electromagnetic chuck; a feeding funnel is arranged corresponding to the containing cavity up and down, and the feeding funnel is positioned at the top of the garbage disposal device body;

a partition plate is arranged in the garbage treatment device body, the lower half part of the garbage treatment device body is divided into a magnetic garbage collection tank and a garbage treatment tank by the partition plate, the magnetic garbage collection tank is positioned below the supporting plate, and the garbage treatment tank is positioned on the right side of the magnetic garbage collection tank;

the garbage treatment device also comprises a device body, wherein the device body is positioned in the garbage treatment groove; a feeding cavity, a crushing cavity and a screening cavity are sequentially arranged in the equipment body from top to bottom, and the feeding cavity, the crushing cavity and the screening cavity are communicated and separated by a first pulling plate and a second pulling plate; three side edges of the first pulling plate and three side edges of the second pulling plate are respectively clamped and embedded on three corresponding side walls of the equipment body, and the fourth side edge of the first pulling plate and the fourth side edge of the second pulling plate penetrate through the corresponding side walls of the equipment body and then are connected with respective handles;

a horizontal crushing shaft is arranged in the crushing cavity, a plurality of steel teeth for crushing garbage are arranged on the side wall of the crushing shaft in the circumferential direction, and the crushing shaft can rotatably penetrate through the corresponding side wall of the equipment body and is driven by a first servo motor;

a plurality of support columns are vertically arranged in the screening cavity, and any support column is divided into two sections and connected by a spring; the top ends of the plurality of support columns are connected to the bottom surface of a vibrating plate, the vibrating plate is obliquely arranged, the top of the vibrating plate is provided with a drainage groove, and the bottom of the drainage groove is provided with a plurality of sieve holes; an eccentric wheel used for driving the vibration plate to vibrate through rotation is arranged below the vibration plate, the eccentric wheel is sleeved on a driving rod, and two ends of the driving rod are respectively connected to corresponding side walls of the equipment body in a rotating mode and driven to rotate by a second servo motor;

the top of the garbage disposal device body is provided with an atomizing nozzle for spraying liquid into the garbage disposal device body, and the atomizing nozzle is connected with a water pump through a liquid conveying pipe; the water pump is positioned in a liquid storage tank, and deodorizing liquid is filled in the liquid storage tank.

In the sorting mechanism for garbage treatment, the feeding hopper and the accommodating cavity are arranged up and down correspondingly, so that garbage entering from the feeding hopper can fall into the accommodating cavity; the top and the right side of the containing cavity are both opened, so that garbage can flow out from the right side of the containing cavity. Electromagnet sets up in holding chamber bottom, and this makes, the magnetism rubbish that falls into in the rubbish of holding chamber bottom can be attracted by electromagnet, can sort and filter the magnetism rubbish in the rubbish, and the recovery of the magnetism rubbish of being convenient for can the resource recycle, very energy saving. The movable rod can rotate on the support rod, so that the support plate can rotate by taking the rotating connection position of the movable rod and the support rod as an axis, when the support plate rotates to a proper angle, the accommodating cavity is aligned with the garbage disposal groove, and the accommodating cavity can guide the non-magnetic garbage into the garbage disposal groove, so that the non-magnetic garbage can be further disposed conveniently; when the supporting plate continues to rotate and the containing cavity is aligned with the magnetic garbage collecting tank, the electromagnetic chuck is powered off, and the magnetic garbage falls into the magnetic garbage collecting tank. Through the rotation of backup pad, can last in collecting the magnetic waste collecting vat with the magnetic waste in the rubbish, it is efficient, easy operation.

After the feeding chamber is filled with rubbish, through pulling open first arm-tie, the rubbish of feeding intracavity flows into broken intracavity, accomplishes the back with rubbish breakage in broken intracavity, through pulling open the second arm-tie, the rubbish of broken intracavity flows into the screening intracavity, then carries out the screening of rubbish in the screening intracavity. Through the control of first arm-tie and second arm-tie for conversion between rubbish feeding, breakage and the screening is very rapid, relies on the gravity of rubbish to flow into next treatment chamber automatically moreover, and is very convenient, practices thrift the cost. In the crushing process, the first servo motor drives the crushing shaft to rotate, and the steel teeth on the side wall of the crushing shaft rotate along with the crushing shaft, so that garbage can be effectively crushed. In the screening process, the second servo motor drives the eccentric wheel to rotate, the rotation of the eccentric wheel enables the vibrating plate to vibrate up and down, and the fine garbage on the drainage groove also vibrates along with the vibrating plate, and is screened out from the sieve holes.

The water pump is with the deodorant liquid pump sending atomizer blowout in the liquid storage tank, and it is originally internal to spray the garbage disposal device with deodorant liquid, and this internal peculiar smell of garbage disposal device can be detached effectively to this, also can prevent the production of peculiar smell in the rubbish.

Preferably, the end head of the other end of the support rod is provided with an installation groove, and one end of the movable rod is rotatably arranged in the installation groove through a rotating shaft; the rotating shaft penetrates through the movable rod and is fixedly connected with the movable rod, and both ends of the rotating shaft are rotatably arranged on the inner wall of the mounting groove; one end of the rotating shaft penetrates out of the side wall of the mounting groove and is connected with an output shaft of a motor, the motor is used for driving the movable rod to rotate in a reciprocating mode through the rotating shaft, and the motor is arranged on the outer wall of the supporting rod.

In the sorting mechanism for garbage disposal, the rotation of the rotating shaft drives the movable rod to rotate, and the rotating shaft is driven by the motor to realize the automatic rotation of the movable rod, so that the supporting plate can automatically adjust the angle.

Preferably, a blind hole is formed in one groove wall of the mounting groove, a through hole is formed in the other groove wall of the mounting groove, first bearings are arranged in the blind hole and the through hole, and the rotating shaft is located in the first bearings.

In the sorting mechanism for garbage disposal, the blind holes and the first bearings in the through holes are arranged, so that the rotating shaft can rotate stably in the mounting grooves.

Preferably, the movable rod is vertically connected to the middle of the bottom surface of the support plate.

In the sorting mechanism for garbage disposal, the movable rod is vertically connected with the supporting plate, so that the supporting rod is more firmly connected with the movable rod, and the supporting rod rotates more stably.

Preferably, the electromagnetic chuck comprises two power connectors, wherein any power connector penetrates through the supporting plate and protrudes from the bottom surface of the supporting plate, and the two power connectors are connected with the power supply and the switch in series through conducting wires.

In the sorting mechanism for garbage disposal, the electromagnetic chuck is connected with the power supply through the two power connectors to realize power on and power off, and the power connectors are positioned in the support plate, so that the electromagnetic chuck and the support plate are more stably connected. The power supply terminals protrude from the bottom surface of the support plate, which makes the power supply terminals less susceptible to refuse.

Preferably, the top surface of the partition plate is gradually inclined downward from left to right.

In the sorting mechanism for garbage disposal of the present invention, the top surface of the partition plate is gradually inclined downward from left to right, which enables the non-magnetic garbage falling onto the top surface of the partition plate to fall into the garbage disposal groove.

Preferably, the minimum distance from the axis of the rotating shaft to the partition plate is not less than the maximum distance from the axis of the rotating shaft to the support plate.

In the sorting mechanism for garbage disposal, the minimum distance between the axis of the rotating shaft and the partition plate is not less than the maximum distance between the axis of the rotating shaft and the support plate, so that the partition plate does not obstruct the rotation of the support plate, and the partition plate can better catch the nonmagnetic garbage flowing down from the right side of the accommodating cavity.

Drawings

Fig. 1 is a perspective view of a support plate in embodiment 1;

FIG. 2 is a schematic configuration diagram of a sorting mechanism for garbage disposal according to embodiment 1;

FIG. 3 is a schematic structural view of a mounting groove in embodiment 1;

FIG. 4 is a perspective view of a garbage disposal apparatus according to embodiment 2;

FIG. 5 is a schematic structural view of a garbage disposal apparatus provided with an odor elimination mechanism according to example 2;

FIG. 6 is a schematic view of the structure of a holding apparatus in embodiment 2;

FIG. 7 is a schematic view showing the structure of a vent hole in example 2;

FIG. 8 is a schematic right view of a vent hole in example 2;

FIG. 9 is a schematic view showing the structure of a garbage disposal apparatus according to embodiment 3;

FIG. 10 is an enlarged view of the structure of the rotating chamber in embodiment 3;

fig. 11 is a schematic right view of a crushing chamber according to example 3;

figure 12 is a schematic perspective view of a screening chamber according to example 3.

Detailed Description

For a further understanding of the invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention and not limiting.

Example 1

As shown in fig. 1, 2 and 3, the present embodiment provides a sorting mechanism for garbage disposal, which includes a garbage disposal device body 110, a supporting rod 120 is disposed in the garbage disposal device body 110, one end of the supporting rod 120 is fixedly connected to the inner wall of the garbage disposal device body 110, the other end of the supporting rod 120 is rotatably connected to one end of a movable rod 130, and the other end of the movable rod 130 is connected to the bottom surface of a supporting plate 140; the top of the supporting plate 140 is provided with an accommodating cavity 141, the top and the right side of the accommodating cavity 141 are both open, and the bottom of the accommodating cavity 141 is provided with an electromagnetic chuck 142; a feeding funnel 150 is arranged corresponding to the containing cavity 141 up and down, and the feeding funnel 150 is positioned at the top of the garbage disposal device body 110;

the garbage disposal device body 110 is internally provided with a partition 160, the lower half part of the garbage disposal device body 110 is divided into a magnetic garbage collection tank 170 and a garbage disposal tank 180 by the partition 160, the magnetic garbage collection tank 170 is positioned below the support plate 140, and the garbage disposal tank 180 is positioned on the right side of the magnetic garbage collection tank 170.

The feeding hopper 150 and the accommodating cavity 141 are arranged in an up-and-down corresponding manner, so that garbage entering from the feeding hopper 150 can fall into the accommodating cavity 141; the receiving chamber 141 is open at both the top and right side, which allows the garbage to flow out from the right side of the receiving chamber 141. The electromagnetic chuck 142 is arranged at the bottom of the accommodating cavity 141, so that the magnetic garbage falling into the garbage at the bottom of the accommodating cavity 141 can be attracted by the electromagnetic chuck 142, the magnetic garbage in the garbage can be sorted and screened, the recovery of the magnetic garbage is facilitated, the resources can be recycled, and the energy is saved. The movable rod 130 can rotate on the support rod 120, so that the support plate 140 can rotate by taking the rotating connection position of the movable rod 130 and the support rod 120 as an axis, when the support plate 140 rotates to a proper angle, the accommodating cavity 141 is aligned with the garbage disposal groove 180, and the accommodating cavity 141 can guide the non-magnetic garbage into the garbage disposal groove 180, so that the non-magnetic garbage can be further disposed; when the supporting plate 140 continues to rotate and the accommodating cavity 141 is aligned with the magnetic garbage collecting tank 170, the electromagnetic chuck 142 is powered off, and the magnetic garbage falls into the magnetic garbage collecting tank 170. Through the rotation of backup pad 140, can continuously collect the magnetism rubbish in the magnetism rubbish collecting vat 170, it is efficient, easy operation.

In this embodiment, the end of the other end of the supporting rod 120 is provided with a mounting groove 121, and one end of the movable rod 130 is rotatably disposed in the mounting groove 121 through a rotating shaft 191; the rotating shaft 191 penetrates through the movable rod 130 and is fixedly connected with the movable rod 130, and both ends of the rotating shaft 191 are rotatably arranged on the inner wall of the mounting groove 121; one end of the rotating shaft 191 penetrates out of the side wall of the mounting groove 121 and is connected with an output shaft of a motor 192, the motor 192 is used for driving the movable rod 130 to rotate in a reciprocating mode through the rotating shaft 191, and the motor 192 is arranged on the outer wall of the supporting rod 120.

The rotation of the rotation shaft 191 drives the rotation of the movable lever 130, and the rotation shaft 191 is driven by the motor 192 to realize the automatic rotation of the movable lever 130, which also enables the support plate 140 to automatically adjust the angle.

In this embodiment, a blind hole 122 is formed on one wall of the mounting groove 121, a through hole 123 is formed on the other wall of the mounting groove 121, the first bearing 190 is disposed in both the blind hole 122 and the through hole 123, and the rotating shaft 191 is disposed in the first bearing 190.

The provision of the first bearing 190 in the blind hole 122 and the through hole 123 makes the rotation shaft 191 rotate stably in the mounting groove 121.

In this embodiment, the movable bar 130 is vertically connected to the middle of the bottom surface of the support plate 140.

The movable bar 130 and the support plate 140 are vertically connected, which makes the connection of the support plate 140 and the movable bar 130 more firm and the rotation of the support plate 140 more stable.

In this embodiment, the electromagnetic chuck 142 includes two power connectors 1421, each power connector 1421 protrudes from the bottom surface of the supporting plate 140 through the supporting plate 140, and the two power connectors 1421 are connected in series with the power supply and the switch through wires.

The electromagnetic chuck 142 is connected to a power supply through two power connectors 1421 to achieve power on/off, and the power connector 1421 is located in the supporting plate 140, so that the electromagnetic chuck 142 is more stably connected to the supporting plate 140. The power connector 1421 protrudes from the bottom surface of the support plate 140, which makes the power connector 1421 less susceptible to debris.

In this embodiment, the top surface of the partition 160 is gradually inclined downward from left to right.

The partition 160 is gradually inclined downward from left to right in the top surface thereof, which allows the non-magnetic trash falling on the top surface of the partition 160 to fall into the trash disposal groove 180.

In this embodiment, the minimum distance from the axis of the rotating shaft 191 to the partition 160 is not less than the maximum distance from the axis of the rotating shaft 191 to the support plate 140. This allows the partition 160 not to obstruct the rotation of the support plate 140, and the partition 160 can preferably catch the non-magnetic trash flowing down from the right side of the receiving chamber 141.

Example 2

As shown in fig. 4, 5, 6, 7 and 8, the present embodiment provides a garbage disposal device with a smell removing mechanism, which includes a garbage disposal device body 110, a mounting hole 210 is formed on the left side of the garbage disposal device body 110, a row of fans 211 for blowing air to the garbage disposal device body 110 is installed in the mounting hole 210, a containing device 220 is arranged on the right side of the mounting hole 210, the containing device 220 is located in the garbage disposal device body 110, and perfume 230 is filled in the containing device 220;

the right side of the garbage disposal device body 110 is provided with a vent hole 240, two hole openings of the vent hole 240 are respectively provided with a grid plate 241, the vent hole 240 is internally provided with active carbon particles 250, the grid plates 241 can block the active carbon particles 250, the vent hole 240 is connected with a suction fan 262 through a gas pipe 261, and the suction fan 262 is positioned in a gas storage chamber 260;

the top of the garbage disposal device body 110 is provided with an atomizing nozzle 270 for spraying liquid into the garbage disposal device body 110, and the atomizing nozzle 270 is connected with a water pump 282 through a liquid conveying pipe 281; the water pump 282 is located within a fluid reservoir 280, the fluid reservoir 280 containing a deodorizing fluid.

The fan 211 can blow air into the garbage disposal apparatus main body 110 to enhance the air flow in the garbage disposal apparatus main body 110. The accommodating device 220 is located at the right side of the mounting hole 210, and the fan 211 in the mounting hole 210 can blow the fragrance of the perfume in the accommodating device 220 into the garbage disposal device body 110, which can preferably reduce the odor in the garbage disposal device body 110. After the suction fan 262 works, the peculiar smell in the garbage disposal device body 110 can be sucked into the air storage chamber 260, and then the air storage chamber 260 carries out subsequent treatment on the peculiar smell; the activated carbon particles 250 in the vent holes 240 can not only prevent garbage from entering the vent holes 240, but also absorb peculiar smell in the air suction process, thereby reducing the processing time of the peculiar smell. Through the blowing of the fan 211 and the suction of the suction fan 262, the cooperation between the two can better enhance the air flow in the garbage disposal device body 110, and can effectively remove the odor in the garbage disposal device body 110.

The water pump 282 pumps the deodorant solution in the liquid storage tank 280 to the atomizing nozzle 270 to spray the deodorant solution into the garbage disposal apparatus body 110, and the deodorant solution can be effectively diffused to any corner in the garbage disposal apparatus body 110 due to the effect of the fan 211 and the suction fan 262 on enhancing the air flow, so that the peculiar smell in the garbage disposal apparatus body 110 can be effectively removed, and the peculiar smell in the garbage can be prevented from being generated.

In this embodiment, a receiving space 2201 is provided in the receiving device 220, the receiving space 2201 is communicated with the mounting hole 210 and is partitioned by a baffle plate 212, a plurality of first air outlets 225 are provided on a right side wall of the receiving device 220, a plurality of second air outlets 2121 are provided on the baffle plate 212, and the first air outlets 225 and the second air outlets 2121 are in one-to-one horizontal correspondence.

The wind generated by the fan 211 is blown into the garbage disposal apparatus body 110 preferably through the receiving space 2201 by the horizontal correspondence of the first and second air outlet holes 225 and 2121. Here, the diameters of the fragrance 230 are larger than the diameters of the first and second outlet holes 225 and 2121, so that the fragrance 230 does not fall out of the receiving space 2201.

In this embodiment, the upper portion of the accommodating space 2201 is communicated with a feeding port 221, and the feeding port 221 is located at the top of the garbage disposal device body 110 and is plugged by a first plug 222.

This makes it possible to easily feed the perfume 230 into the containing space 2201 by providing the feed port 221. This can prevent the odor from entering into the containing space 2201 by the arrangement of the first stopper 222.

In this embodiment, the bottom surface of the accommodating space 2201 is lower than the mounting hole 210, the left side of the accommodating space 2201 is communicated with a discharge port 223, the discharge port 223 is located in the left side wall of the garbage disposal device body 110, and the discharge port 223 is plugged by a second plug 224.

Through the arrangement of the discharge port 223, the perfume 230 in the accommodating space 2201 can be conveniently discharged, and the replacement of the perfume 230 is convenient. The second cap 224 can block the perfume 230 and prevent the perfume 230 from falling off.

In this embodiment, the top of the vent 240 is connected to a feed hole 242, and the feed hole 242 is plugged by a first plug 2421; the bottom of the vent 240 is connected to a discharge opening 243, the discharge opening 243 is closed by a second opening plug 2431, and the feed opening 242 and the discharge opening 243 are both located in the right side wall of the garbage disposal device body 110.

The provision of the feed holes 242 and the discharge holes 243 facilitates the addition and replacement of the activated carbon particles 250 in the ventilation holes 240, the first hole stopper 2421 prevents the offensive odor from falling into the feed holes 242, and the second hole stopper 2431 prevents the falling off of the activated carbon particles 250.

In this embodiment, the perfume 230 is one or more of rhizoma Atractylodis, rhizoma Kaempferiae, radix Angelicae Dahuricae, rhizoma Acori Calami, herba Agastaches, herba Eupatorii, rhizoma Ligustici Chuanxiong, rhizoma Cyperi, herba Menthae, fructus Citri, flos Magnoliae, folium Artemisiae Argyi, and Borneolum Syntheticum.

The perfume 230 is one or a mixture of two or more of rhizoma Atractylodis, rhizoma Kaempferiae, radix Angelicae Dahuricae, rhizoma Acori Calami, herba Agastaches, herba Eupatorii, rhizoma Ligustici Chuanxiong, rhizoma Cyperi, herba Menthae, fructus Citri, flos Magnoliae, folium Artemisiae Argyi, and Borneolum Syntheticum, and has good fragrance and can effectively reduce the odor in the garbage disposal device body 110.

In this example, the deodorant solution is a mixture of a deodorant and water at a weight ratio of 1:100, and the deodorant contains lactic acid bacteria, actinomycetes, filamentous fungi, yeast and bacillus.

The deodorant liquid contains lactic acid bacteria, actinomycetes, filamentous fungi, saccharomycetes and bacillus, and the malodorous substances are absorbed in the microorganisms by the microorganisms and degraded by the metabolic activity of the microorganisms, so that the deodorant liquid is very effective and environment-friendly.

Example 3

As shown in fig. 9, 10, 11 and 12, the present embodiment provides a garbage disposal apparatus including an apparatus body 300; a feeding cavity 301, a crushing cavity 302 and a screening cavity 303 are sequentially arranged in the equipment body 300 from top to bottom, and the feeding cavity 301, the crushing cavity 302 and the screening cavity 303 are communicated and separated by a first pulling plate 311 and a second pulling plate 312; three side edges of the first pulling plate 311 and three side edges of the second pulling plate 312 are respectively clamped on three corresponding side walls of the device body 300, and the fourth side edge of the first pulling plate 311 and the fourth side edge of the second pulling plate 312 penetrate through the corresponding side walls of the device body 300 and then are connected with respective handles 313;

a horizontal crushing shaft 320 is arranged in the crushing cavity 302, a plurality of steel teeth 321 for crushing garbage are arranged on the side wall of the crushing shaft 320 in the circumferential direction, and the crushing shaft 320 can rotatably penetrate through the corresponding side wall of the equipment body 300 and is driven by a first servo motor 330;

a plurality of supporting columns 340 are vertically arranged in the screening cavity 303, and any supporting column 340 is divided into two sections and connected by a spring 341; the top ends of the support columns 340 are all connected to the bottom surface of a vibrating plate 350, the vibrating plate 350 is obliquely arranged, the top of the vibrating plate is provided with a drainage groove 351, and the bottom of the drainage groove 351 is provided with a plurality of sieve holes 352; an eccentric wheel 360 for driving the vibration plate 350 to vibrate by rotating is arranged below the vibration plate 350, the eccentric wheel 360 is sleeved on a driving rod 361, and two ends of the driving rod 361 are respectively connected to corresponding side walls of the device body 300 in a rotating manner and driven to rotate by a second servo motor 362.

After the feeding cavity 301 is filled with the garbage, the garbage in the feeding cavity 301 flows into the crushing cavity 302 by pulling the first pulling plate 311, and after the garbage is crushed in the crushing cavity 302, the garbage in the crushing cavity 302 flows into the screening cavity 303 by pulling the second pulling plate 312, and then the garbage is screened in the screening cavity 303. Through the control of first arm-tie 311 and second arm-tie 312 for the conversion between rubbish feeding, breakage and the screening is very quick, relies on the gravity of rubbish to flow into next treatment chamber automatically moreover, and is very convenient, practices thrift the cost.

During the crushing process, the first servo motor 330 drives the crushing shaft 320 to rotate, and the steel teeth 321 on the side wall of the crushing shaft 320 rotate along with the rotation, which can effectively crush the garbage. In the screening process, the second servo motor 362 drives the eccentric wheel 360 to rotate, the rotation of the eccentric wheel 360 enables the vibrating plate 350 to vibrate up and down, and the fine garbage on the drainage groove 351 also vibrates along with the vibrating plate, and is screened out from the sieve holes 352.

In this embodiment, the top of the supporting column 340 is hinged to the bottom surface of the vibrating plate 350, and the supporting column 340 is provided with an electric telescopic rod, so that the length can be adjusted, the inclination of the vibrating plate 350 can be adjusted, the garbage can flow conveniently, but during adjustment, the vibrating plate 350 is attached to the eccentric wheel 360, and the vibrating function of the vibrating plate 350 is ensured.

In this embodiment, a material receiving device 370 is arranged below the vibrating plate 350, a material receiving cavity 371 with an upward opening is arranged in the material receiving device 370, the material receiving cavity 371 vertically corresponds to the plurality of sieve holes 352, a material discharging hole 372 is arranged at the bottom of the material receiving cavity 371, and the material discharging hole 372 is connected with a fertilizer fermentation tank 380.

The material receiving device 370 is used for receiving the screened fine garbage, and then conveying the fine garbage into the fertilizer fermentation tank 380, so that the prepared fertilizer raw materials are not required to be screened, the prepared fertilizer is better, the garbage is recycled, and the energy is saved.

In this embodiment, a storage tank 390 is disposed below the opening of the drainage groove 351, and the storage tank 390 is communicated with the methane tank.

Thick rubbish flows into storage pond 390 through drainage groove 351 in, then carries the methane-generating pit with thick rubbish in the storage pond 390 in for produce marsh gas in the methane-generating pit, resource recycle, energy saving.

In this embodiment, the crushing chamber 302 is circular in cross-section.

The crushing chamber 302 is circular in cross-section, which results in a more thorough crushing in the crushing chamber 302.

In this embodiment, a rotating cavity 322 is provided on the corresponding side wall of the apparatus body 300, a second bearing 323 is provided in the rotating cavity 322, the crushing shaft 320 passes through the second bearing 323 to be connected with a first servo motor 330, and the first servo motor 330 is fixed outside the apparatus body 300; a coaxial baffle disc 324 for blocking garbage from entering the rotating cavity 322 is sleeved on the crushing shaft 320, the baffle disc 324 is positioned in the crushing cavity 302, and the baffle disc 324 is positioned at the inner cavity opening of the rotating cavity 322.

The provision of the second bearing 323 in the rotation chamber 322 makes the rotation of the crushing shaft 320 more stable. The blocking disc 324 is arranged to prevent garbage from entering the rotating cavity 322 and blocking the rotation of the crushing shaft 320.

In this embodiment, the length of the screening chamber 303 is greater than the length of the crushing chamber 302.

The length of the screening chamber 303 is greater than the length of the crushing chamber 302, which enables the drainage grooves 351 in the vibrating plate 350 in the screening chamber 303 to be aligned with the crushing chamber 302.

In this embodiment, the upper side and the right side of the drainage groove 351 are both open structures, and the left side wall of the drainage groove 351 is positioned on the left side of the left side wall of the crushing cavity 302 or aligned up and down.

The upper side and the right side of the drainage groove 351 are both of an open structure, so that garbage in the drainage groove 351 can only flow into the storage tank 390 from the right side; the left side wall of the drainage groove 351 is located to the left of the left side wall of the crushing chamber 302 or is aligned above and below this so that all the waste flowing from the crushing chamber 302 into the screening chamber 303 falls into the drainage groove 351.

Example 4

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, the present embodiment provides a garbage disposal device capable of pre-treating garbage, which includes a garbage disposal device body 110, a supporting rod 120 is disposed in the garbage disposal device body 110, one end of the supporting rod 120 is fixedly connected to the inner wall of the garbage disposal device body 110, the other end of the supporting rod 120 is rotatably connected to one end of a movable rod 130, and the other end of the movable rod 130 is connected to the bottom surface of a supporting plate 140; the top of the supporting plate 140 is provided with an accommodating cavity 141, the top and the right side of the accommodating cavity 141 are both open, and the bottom of the accommodating cavity 141 is provided with an electromagnetic chuck 142; a feeding funnel 150 is arranged corresponding to the containing cavity 141 up and down, and the feeding funnel 150 is positioned at the top of the garbage disposal device body 110;

a partition plate 160 is arranged in the garbage disposal device body 110, the partition plate 160 divides the lower half part of the garbage disposal device body 110 into a magnetic garbage collection tank 170 and a garbage disposal tank 180, the magnetic garbage collection tank 170 is positioned below the support plate 140, and the garbage disposal tank 180 is positioned on the right side of the magnetic garbage collection tank 170;

a mounting hole 210 is formed in the left side of the garbage disposal device body 110, a row of fans 211 for blowing air to the garbage disposal device body 110 are mounted in the mounting hole 210, a containing device 220 is arranged on the right side of the mounting hole 210, the containing device 220 is positioned in the garbage disposal device body 110, and spices 230 are filled in the containing device 220;

the right side of the garbage disposal device body 110 is provided with a vent hole 240, two openings of the vent hole 240 are respectively provided with a grid plate 241, the vent hole 240 is internally provided with active carbon particles 250, the vent hole 240 is connected with a suction fan 262 through a gas pipe 261, and the suction fan 262 is positioned in a gas storage chamber 260;

the top of the garbage disposal device body 110 is provided with an atomizing nozzle 270 for spraying liquid into the garbage disposal device body 110, and the atomizing nozzle 270 is connected with a water pump 282 through a liquid conveying pipe 281; the water pump 282 is located within a fluid reservoir 280, the fluid reservoir 280 containing a deodorizing fluid.

In this embodiment, the end of the other end of the supporting rod 120 is provided with a mounting groove 121, and one end of the movable rod 130 is rotatably disposed in the mounting groove 121 through a rotating shaft 191; the rotating shaft 191 penetrates through the movable rod 130 and is fixedly connected with the movable rod 130, and both ends of the rotating shaft 191 are rotatably arranged on the inner wall of the mounting groove 121; one end of the rotating shaft 191 penetrates out of the side wall of the mounting groove 121 and is connected with an output shaft of a motor 192, the motor 192 is used for driving the movable rod 130 to rotate in a reciprocating mode through the rotating shaft 191, and the motor 192 is arranged on the outer wall of the supporting rod 120.

In this embodiment, a blind hole 122 is formed on one wall of the mounting groove 121, a through hole 123 is formed on the other wall of the mounting groove 121, the first bearing 190 is disposed in both the blind hole 122 and the through hole 123, and the rotating shaft 191 is disposed in the first bearing 190.

In this embodiment, the electromagnetic chuck 142 includes two power connectors 1421, each power connector 1421 protrudes from the bottom surface of the supporting plate 140 through the supporting plate 140, and the two power connectors 1421 are connected in series with the power supply and the switch through wires.

In this embodiment, a receiving space 2201 is provided in the receiving device 220, the receiving space 2201 is communicated with the mounting hole 210 and is partitioned by a baffle plate 212, a plurality of first air outlets 225 are provided on the right side wall of the receiving device, a plurality of second air outlets 2121 are provided on the baffle plate 212, and the first air outlets 225 and the second air outlets 2121 are in one-to-one horizontal correspondence.

In this embodiment, the upper portion of the accommodating space 2201 is communicated with a feeding port 221, and the feeding port 221 is located at the top of the garbage disposal device body 110 and is plugged by a first plug 222.

In this embodiment, the bottom surface of the accommodating space 2201 is lower than the mounting hole 210, the left side of the accommodating space 2201 is communicated with a discharge port 223, the discharge port 223 is located in the left side wall of the garbage disposal device body 110, and the discharge port 223 is plugged by a second plug 224.

In this embodiment, the top of the vent 240 is connected to a feed hole 242, and the feed hole 242 is plugged by a first plug 2421; the bottom of the vent 240 is connected to a discharge opening 243, the discharge opening 243 is closed by a second opening plug 2431, and the feed opening 242 and the discharge opening 243 are both located in the right side wall of the garbage disposal device body 110.

The embodiment also provides a treatment method of the garbage treatment device capable of pretreating garbage, which comprises the following steps:

firstly, preparation before treatment: controlling the motor 192 to rotate the supporting plate 140 to incline the supporting plate 140, so that the right side of the accommodating cavity 141 on the supporting plate 140 is aligned with the garbage disposal groove 180; energizing the electromagnetic chuck 142; turning on the fan 211 to blow air into the garbage disposal apparatus body 110, and turning on the suction fan 262 to suck air into the garbage disposal apparatus body 110;

secondly, a certain amount of garbage is continuously poured into the garbage disposal device body 110 from the feeding hopper 150; at this time, the garbage falls into the supporting plate 140, the magnetic garbage is attracted by the electromagnetic chuck 142 and left on the supporting plate 140, and the non-magnetic garbage flows into the garbage disposal groove 180 along with the guiding function of the supporting plate 140 and the blowing function of the fan 211 for further disposal;

thirdly, after the garbage stops flowing, the supporting plate 140 is adjusted through the motor 192, the right side of the accommodating cavity 141 on the supporting plate 140 is aligned to the magnetic garbage collection tank 170, then the electromagnetic chuck 142 is powered off, and the magnetic garbage enters the magnetic garbage collection tank 170;

in the second embodiment, after the certain amount of garbage is poured into half, the inclination angle of the supporting plate 140 is adjusted by the motor 192 to incline the supporting plate more, so as to accelerate the flow of the non-magnetic garbage; in the second step, in the process of pouring the garbage, the water pump 282 is turned on, and the deodorizing liquid is sprayed out through the atomizing nozzle 270 to deodorize the garbage.

The method can effectively sort out the magnetic garbage in the garbage, and can also effectively remove the odor in the garbage disposal device body 110 to pretreat the garbage.

Example 5

As shown in fig. 1, 2, 3, 9, 10, 11 and 12, the present embodiment provides a garbage disposal apparatus capable of separating magnetic garbage, including a garbage disposal apparatus body 110, a supporting rod 120 is disposed in the garbage disposal apparatus body 110, one end of the supporting rod 120 is fixedly connected to the inner wall of the garbage disposal apparatus body 110, the other end of the supporting rod 120 is rotatably connected to one end of a movable rod 130, and the other end of the movable rod 130 is connected to the bottom surface of a supporting plate 140; the top of the supporting plate 140 is provided with an accommodating cavity 141, the top and the right side of the accommodating cavity 141 are both open, and the bottom of the accommodating cavity 141 is provided with an electromagnetic chuck 142; a feeding funnel 150 is arranged corresponding to the containing cavity 141 up and down, and the feeding funnel 150 is positioned at the top of the garbage disposal device body 110;

a partition plate 160 is arranged in the garbage disposal device body 110, the partition plate 160 divides the lower half part of the garbage disposal device body 110 into a magnetic garbage collection tank 170 and a garbage disposal tank 180, the magnetic garbage collection tank 170 is positioned below the support plate 140, and the garbage disposal tank 180 is positioned on the right side of the magnetic garbage collection tank 170;

the garbage treatment device further comprises a device body 300, wherein the device body 300 is positioned in the garbage treatment groove 180, a feeding cavity 301, a crushing cavity 302 and a screening cavity 303 are sequentially arranged in the device body 300 from top to bottom, the right side of the accommodating cavity 141 can be aligned to the feeding cavity 301, and the feeding cavity 301, the crushing cavity 302 and the screening cavity 303 are communicated and separated by a first pulling plate 311 and a second pulling plate 312; three side edges of the first pulling plate 311 and three side edges of the second pulling plate 312 are respectively clamped on three corresponding side walls of the device body 300, and the fourth side edge of the first pulling plate 311 and the fourth side edge of the second pulling plate 312 penetrate through the corresponding side walls of the device body 300 and then are connected with respective handles 313;

a horizontal crushing shaft 320 is arranged in the crushing cavity 302, a plurality of steel teeth 321 for crushing garbage are arranged on the side wall of the crushing shaft 320 in the circumferential direction, and the crushing shaft 320 can rotatably penetrate through the corresponding side wall of the equipment body 300 and is driven by a first servo motor 330;

a plurality of supporting columns 340 are vertically arranged in the screening cavity 303, and any supporting column 340 is divided into two sections and connected by a spring 341; the top ends of the support columns 340 are all connected to the bottom surface of a vibrating plate 350, the vibrating plate 350 is obliquely arranged, the top of the vibrating plate is provided with a drainage groove 351, and the bottom of the drainage groove 351 is provided with a plurality of sieve holes 352; an eccentric wheel 360 for driving the vibration plate 350 to vibrate by rotating is arranged below the vibration plate 350, the eccentric wheel 360 is sleeved on a driving rod 361, and two ends of the driving rod 361 are respectively connected to corresponding side walls of the device body 300 in a rotating manner and driven to rotate by a second servo motor 362.

In this embodiment, the end of the other end of the supporting rod 120 is provided with a mounting groove 121, and one end of the movable rod 130 is rotatably disposed in the mounting groove 121 through a rotating shaft 191; the rotating shaft 191 penetrates through the movable rod 130 and is fixedly connected with the movable rod 130, and both ends of the rotating shaft 191 are rotatably arranged on the inner wall of the mounting groove 121; one end of the rotating shaft 191 penetrates out of the side wall of the mounting groove 121 and is connected with an output shaft of a motor 192, the motor 192 is used for driving the movable rod 130 to rotate in a reciprocating mode through the rotating shaft 191, and the motor 192 is arranged on the outer wall of the supporting rod 120.

In this embodiment, a blind hole 122 is formed on one wall of the mounting groove 121, a through hole 123 is formed on the other wall of the mounting groove 121, the first bearing 190 is disposed in both the blind hole 122 and the through hole 123, and the rotating shaft 191 is disposed in the first bearing 190.

In this embodiment, the electromagnetic chuck 142 includes two power connectors 1421, each power connector 1421 protrudes from the bottom surface of the supporting plate 140 through the supporting plate 140, and the two power connectors 1421 are connected in series with the power supply and the switch through wires.

In this embodiment, a material receiving device 370 is arranged below the vibrating plate 350, a material receiving cavity 371 with an upward opening is arranged in the material receiving device 370, the material receiving cavity 371 vertically corresponds to the plurality of sieve holes 352, a material discharging hole 372 is arranged at the bottom of the material receiving cavity 371, and the material discharging hole 372 is connected with a fertilizer fermentation tank 380.

In this embodiment, a storage tank 390 is disposed below the opening of the drainage groove 351, and the storage tank 390 is communicated with the methane tank.

In this embodiment, a rotating cavity 322 is provided on the corresponding side wall of the apparatus body 300, a second bearing 323 is provided in the rotating cavity 322, the crushing shaft 320 passes through the second bearing 323 to be connected with a first servo motor 330, and the first servo motor 330 is fixed outside the apparatus body 300; a coaxial baffle disc 324 for blocking garbage from entering the rotating cavity 322 is sleeved on the crushing shaft 320, the baffle disc 324 is positioned in the crushing cavity 302, and the baffle disc 324 is positioned at the inner cavity opening of the rotating cavity 322.

In this embodiment, the upper side and the right side of the drainage groove 351 are both open structures, and the left side wall of the drainage groove 351 is positioned on the left side of the left side wall of the crushing cavity 302 or aligned up and down.

Example 6

The present embodiment provides a garbage disposal apparatus, which has all the structures of embodiments 1 to 5, and it should be understood that those skilled in the art can delete the structures of embodiments 1 to 5 at will or combine them at will according to the actual needs, so as to realize different functions.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Claims (7)

1. A letter sorting mechanism for refuse treatment which characterized in that: the garbage treatment device comprises a garbage treatment device body (110), wherein a supporting rod (120) is arranged in the garbage treatment device body (110), one end of the supporting rod (120) is fixedly connected to the inner wall of the garbage treatment device body (110), the end head of the other end of the supporting rod (120) is rotatably connected with the end head of one end of a movable rod (130), and the other end of the movable rod (130) is connected to the bottom surface of a supporting plate (140); the top of the supporting plate (140) is provided with an accommodating cavity (141), the top and the right side of the accommodating cavity (141) are both opened, and the bottom of the accommodating cavity (141) is provided with an electromagnetic chuck (142); a feeding funnel (150) and the accommodating cavity (141) are arranged in a vertically corresponding manner, and the feeding funnel (150) is positioned at the top of the garbage disposal device body (110);

a partition plate (160) is arranged in the garbage disposal device body (110), the partition plate (160) divides the lower half part of the garbage disposal device body (110) into a magnetic garbage collection tank (170) and a garbage disposal tank (180), the magnetic garbage collection tank (170) is positioned below the supporting plate (140), and the garbage disposal tank (180) is positioned on the right side of the magnetic garbage collection tank (170);

the garbage treatment device also comprises a device body (300), wherein the device body (300) is positioned in the garbage treatment groove (180); a feeding cavity (301), a crushing cavity (302) and a screening cavity (303) are sequentially arranged in the equipment body (300) from top to bottom, the feeding cavity (301), the crushing cavity (302) and the screening cavity (303) are communicated and separated by a first pulling plate (311) and a second pulling plate (312); three side edges of the first pulling plate (311) and three side edges of the second pulling plate (312) are respectively clamped and embedded on three corresponding side walls of the equipment body (300), and the fourth side edge of the first pulling plate (311) and the fourth side edge of the second pulling plate (312) penetrate through the corresponding side walls of the equipment body (300) and then are connected with respective handles (313);

a horizontal crushing shaft (320) is arranged in the crushing cavity (302), a plurality of steel teeth (321) for crushing garbage are arranged on the side wall of the crushing shaft (320) in the circumferential direction, and the crushing shaft (320) can rotatably penetrate through the corresponding side wall of the equipment body (300) and is driven by a first servo motor (330);

a plurality of supporting columns (340) are vertically arranged in the screening cavity (303), and any supporting column (340) is divided into two sections and connected by a spring (341); the top ends of the support columns (340) are connected to the bottom surface of a vibrating plate (350), the vibrating plate (350) is obliquely arranged, the top of the vibrating plate is provided with a drainage groove (351), and the bottom of the drainage groove (351) is provided with a plurality of sieve holes (352); an eccentric wheel (360) used for driving the vibration plate (350) to vibrate through rotation is arranged below the vibration plate (350), the eccentric wheel (360) is sleeved on a driving rod (361), and two ends of the driving rod (361) are respectively connected to corresponding side walls of the equipment body (300) in a rotating mode and driven to rotate by a second servo motor (362);

the top of the garbage disposal device body (110) is provided with an atomizing nozzle (270) used for spraying liquid into the garbage disposal device body (110), and the atomizing nozzle (270) is connected with a water pump (282) through a liquid conveying pipe (281); the water pump (282) is positioned in a liquid storage tank (280), and the liquid storage tank (280) is filled with deodorant liquid.

2. The sorting mechanism for waste disposal according to claim 1, wherein: the end head of the other end of the supporting rod (120) is provided with a mounting groove (121), and one end of the movable rod (130) is rotatably arranged in the mounting groove (121) through a rotating shaft (191); the rotating shaft (191) penetrates through the movable rod (130) and is fixedly connected with the movable rod (130), and two ends of the rotating shaft (191) are rotatably arranged on the inner wall of the mounting groove (121); one end of the rotating shaft (191) penetrates out of the side wall of the mounting groove (121) and is connected with an output shaft of a motor (192), the motor (192) is used for driving the movable rod (130) to rotate in a reciprocating mode through the rotating shaft (191), and the motor (192) is arranged on the outer wall of the supporting rod (120).

3. A sorting mechanism for waste disposal according to claim 2, wherein: be equipped with blind hole (122) on one cell wall of mounting groove (121), be equipped with through-hole (123) on another cell wall of mounting groove (121), all be equipped with first bearing (190) in blind hole (122) and through-hole (123), axis of rotation (191) are located first bearing (190).

4. A sorting mechanism for waste disposal according to claim 3, wherein: the movable rod (130) is vertically connected to the middle of the bottom surface of the supporting plate (140).

5. A sorting mechanism for waste disposal according to claim 4, wherein: the electromagnetic chuck (142) comprises two power connectors (1421), any power connector (1421) penetrates through the supporting plate (140) and protrudes from the bottom surface of the supporting plate (140), and the two power connectors (1421) are connected with a power supply and a switch in series through conducting wires.

6. A sorting mechanism for waste disposal according to claim 5, wherein: the top surface of the baffle (160) is gradually inclined downwards from left to right.

7. A sorting mechanism for waste disposal according to claim 6, wherein: the minimum distance between the axis of the rotating shaft (191) and the partition plate (160) is not less than the maximum distance between the axis of the rotating shaft (191) and the support plate (140).