CN213943458U - Garbage disposal equipment - Google Patents

Garbage disposal equipment Download PDF

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Publication number
CN213943458U
CN213943458U CN202022380176.8U CN202022380176U CN213943458U CN 213943458 U CN213943458 U CN 213943458U CN 202022380176 U CN202022380176 U CN 202022380176U CN 213943458 U CN213943458 U CN 213943458U
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conveying
assembly
crushing
materials
stirring
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CN202022380176.8U
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刘国雷
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Shanghai Saian Environmental Technology Co Ltd
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Shanghai Saian Environmental Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/20Fertilizers of biological origin, e.g. guano or fertilizers made from animal corpses

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Abstract

The utility model relates to the technical field of garbage treatment, and discloses a garbage treatment device, which comprises a pre-crushing device, a secondary crushing device, a first conveying device, a second conveying device and a reaction bin device; the wet garbage is pretreated by the first crushing device, and the materials with large volume are crushed into materials with smaller volume, so that the crushing difficulty of the next procedure can be reduced; the pretreated materials are conveyed to a secondary crushing device through a first conveying device, and meanwhile, waste water generated in the wet garbage conveying process can be recovered; the materials are secondarily crushed by the secondary crushing device, so that the subsequent dehydration and desalination treatment of the materials are facilitated; through the second conveyer with the material after the secondary crushing stir, dewater and the desalination after export carry out wet refuse treatment in reacting the storehouse device, and can retrieve the waste water that produces among wet refuse stirring, dehydration, the desalination course, reduce the waste water recovery degree of difficulty, solve waste water unrestrained and cause the problem of pollution to ground and air.

Description

Garbage disposal equipment
Technical Field
The utility model belongs to the technical field of refuse treatment, in particular to refuse treatment equipment.
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, quantitative reduction and socialization treatment, and pollutes the environment, influences the environmental sanitation and wastes resources 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 existing garbage treatment methods mainly comprise three methods of landfill, fertilizer preparation and incineration, wherein the fertilizer preparation method is to prepare organic garbage into organic fertilizer so as to convert the organic garbage into high-quality substance resources.
The fertilizer preparation is a raw material for converting wet garbage into organic fertilizer, and a reaction bin is required to be adopted for quickly treating the wet garbage.
Because the wet garbage contains more water, salt and oil, and the high oil content and the high salt content can limit the growth of microorganisms in the wet garbage conversion process, the wet garbage needs to be crushed, dehydrated and desalted before being conveyed into the reaction bin for wet garbage conversion treatment. However, in the process of crushing, dehydrating, desalting and transporting wet garbage, the generated sewage is difficult to collect and easily affects the surrounding environment.
SUMMERY OF THE UTILITY MODEL
In order to solve the above technical problem, an object of the present invention is to provide a garbage disposal apparatus.
In order to achieve the above object, the technical solution of the present invention is as follows.
A waste treatment apparatus comprising:
the pre-crushing device can pre-crush the materials; the secondary crushing device can perform secondary crushing treatment on the material; one end of the first conveying device is connected with the pre-crushing device, the other end of the first conveying device is connected with the secondary crushing device, the pre-crushed materials are conveyed into the secondary crushing device for secondary crushing treatment, and the first conveying device is provided with a first wastewater recovery structure capable of recovering wastewater generated in the material conveying process; the reaction bin device is used for carrying out wet garbage conversion treatment on the materials; and one end of the second conveying device is connected with the secondary crushing device, the other end of the second conveying device is connected with the reaction bin device, the materials subjected to secondary crushing treatment are stirred, dehydrated and desalted and then are output to the reaction bin device, and the second conveying device is provided with a second wastewater recovery structure capable of recovering wastewater generated in the wet garbage stirring, dehydrating and desalting treatment process.
A material distribution device is further arranged between the second conveying device and the reaction bin device, the material distribution device is provided with a third feeding port, a first material distribution port and a second material distribution port, the first material distribution port is connected with the reaction bin device, the second material distribution port is connected with the reaction bin device, and the material distribution device is provided with a transmission piece capable of changing the transmission direction and outputting materials from the first material distribution port or the second material distribution port; through feed divider's setting, can connect 2 reaction storehouse devices respectively, can handle a large amount of wet rubbish. The pre-crushing device is provided with a first feeding hole and a first discharging hole, so that wet garbage enters the pre-crushing device from the first feeding hole for pre-crushing treatment and then is output from the first discharging hole; the secondary crushing device is provided with a second feeding hole and a second discharging hole, so that wet garbage enters the secondary crushing device from the second feeding hole for secondary crushing treatment and then is output from the second discharging hole; one end of the first conveying device is connected with the first discharge hole, the other end of the first conveying device is connected with the second feed port, one end of the second conveying device is connected with the second discharge hole, and the other end of the second conveying device is connected with the third feed port.
The material distributing device further comprises a shell, an accommodating space is formed in the shell, a transmission piece is arranged in the accommodating space, a third feeding port is arranged above the shell and communicated with the accommodating space, a first material distributing port and a second material distributing port are respectively arranged at two ends of the bottom of the shell, the first material distributing port and the second material distributing port are both communicated with the accommodating space, materials fall into the accommodating space from the third feeding port, and the materials are output from the first material distributing port through the transmission piece or are output from the second material distributing port through the transmission piece; first branch material mouth all is provided with the baffle with the second branch material mouth, and the baffle is provided with the automatic re-setting structure, and when making the material fall into the baffle of first branch material mouth or second branch material mouth, the baffle can be opened and make the material output, and after the material output, the baffle can reset and block in first branch material mouth or second branch material mouth department. The pre-crushing device comprises a first driving piece, a first transmission assembly, a crushing assembly capable of rotating to crush materials and a front crushing assembly capable of rotating to tear the materials, wherein the crushing assembly is arranged below the front crushing assembly, the front crushing assembly is provided with a first feeding hole, the crushing assembly is provided with a first discharging hole, and the first driving piece is used for providing driving force; the crushing assembly is provided with a first connecting end and a second connecting end, and the first connecting end of the crushing assembly is arranged at the output end of the first driving piece so that the crushing assembly rotates under the action of the first driving piece; the second link of broken subassembly is connected with preceding broken subassembly through first transmission assembly to broken subassembly rotates before the drive. The crushing assembly comprises a first crushing piece and a bearing piece, an accommodating space is formed in the bearing piece, two ends of the first crushing piece extend out of the accommodating space to form a first connecting end and a second connecting end respectively, namely one end of the first crushing piece is fixedly arranged at the output end of the first driving piece, the first crushing piece rotates to crush materials under the driving of the first driving piece, and the other end of the first crushing piece is connected with the front crushing assembly through a first transmission assembly; in order to improve the structural stability, the pre-crushing device also comprises a rack, the first driving piece and the first transmission assembly are respectively arranged on two sides of the rack, and the front crushing assembly and the crushing assembly are both arranged on the rack, so that the structural compactness can be improved; still be provided with the weighing piece in the frame, and the weighing piece is located the outside of first material fill, when the material (like wet rubbish) enters into first material fill, the material can be applyed first material fill and frame gravity, the weight of the current material that gets into first material fill can be surveyed to the piece of weighing from this, and can record material weight data, like this, can add up the record and enter into the material weight in the first material fill at every turn, when weight reaches the predetermined value, send signal to feed divider, make the transmission direction of transmission piece change.
The first crushing member comprises a first rotating assembly and a second rotating assembly, and a first processing channel for crushing materials is formed between the first rotating assembly and the second rotating assembly; the two ends of the first rotating assembly are provided with first adjusting positions, and first adjusting pieces capable of enabling the first rotating assembly to move left and right are installed on the first adjusting positions so as to adjust the distance between the first rotating assembly and the second rotating assembly and adjust the size of the first processing channel.
The first conveying device comprises a material conveying assembly and a first water collecting piece, the material conveying assembly is provided with a feeding end and a discharging end, the feeding end of the material conveying assembly is connected with the first discharging port, the discharging end of the material conveying assembly is connected with the second feeding port, and a first area for conveying materials is formed in the front face of the material conveying assembly; the material conveying assembly is provided with a waste water recovery channel which is obliquely arranged, the waste water recovery channel is of a first waste water recovery structure, and the first area is communicated with the first water collecting piece through the waste water recovery channel. Second conveyer's below is provided with the second piece that catchments, second conveyer's one end is provided with the material input, second conveyer's the other end is provided with the material output, the material output is connected with third feed inlet, the material input is connected with the second discharge gate, second conveyer still is provided with and can transmits the material to the material output from the material input, and stir the material, the conveying piece of desalination and dehydration, second conveyer's bottom is provided with the drainage layer, the drainage layer is second waste water recovery structure, the drainage layer upwards sets up along second conveyer's length direction slope, the lower extreme and the second piece that catchments on drainage layer communicate. The secondary crushing device comprises a second material hopper, a stirring assembly, a crusher, a second transmission assembly and a second driving piece, wherein a second feeding hole is formed in the upper portion of the second material hopper, the crusher is provided with a second discharging hole, the stirring assembly is arranged in the second material hopper, the crusher is arranged below the second material hopper, a material input end is located below the crusher, the second driving piece is connected with the second transmission assembly, the stirring assembly and the crusher are all connected with the transmission assembly, and the second driving piece can drive the stirring assembly and the crusher to work through the transmission assembly.
The conveying device further comprises a third driving piece and a conveying seat, a cavity for containing materials and conveying pieces is formed in the conveying seat, the conveying seat is arranged obliquely, a material input end is arranged at the lower end of the conveying seat, a material output end is arranged at the upper end of the conveying seat, the third driving piece is arranged at the lower end of the conveying seat and is connected with the conveying pieces, a filter screen is arranged on the outer cover of each conveying piece, and a drainage layer is formed between the filter screen and the inner wall of the bottom of the conveying seat.
The reaction bin device comprises a device body, wherein a bin body which can convert materials into organic fertilizers is arranged in the device body, a stirring device which can stir the materials in the bin body is arranged in the bin body, stirring structures which can stir the materials at the end parts of the bin body are arranged at two ends of the inner part of the bin body, and the stirring structures are connected with the stirring device.
The beneficial effects of the utility model reside in that: compared with the prior art, the garbage treatment equipment carries out the pretreatment of wet garbage through the first crushing device, and the large-size material is crushed into the small-size material in advance, so that the crushing difficulty of the subsequent process can be reduced; the pretreated materials are conveyed to a secondary crushing device through a first conveying device, and meanwhile, waste water generated in the wet garbage conveying process can be recovered; the materials are secondarily crushed by the secondary crushing device, so that the subsequent dehydration and desalination treatment of the materials are facilitated; through the second conveyer with the material after the secondary crushing stir, the dehydration and the desalination after export carry out wet rubbish rapid processing to reacting the storehouse device, the conversion forms the raw materials of fertilizer, can retrieve the waste water that produces in wet rubbish stirring, dehydration and the desalination processing process simultaneously, reduce the waste water recovery degree of difficulty, solve simultaneously that waste water is unrestrained and cause the problem of pollution to ground and air.
Drawings
Fig. 1 is a schematic structural view of the garbage disposal apparatus of the present invention.
Fig. 2 is a schematic view of a first view angle structure of the pre-crushing device of the present invention.
Fig. 3 is a schematic diagram of a second view structure of the pre-crushing device of the present invention.
Fig. 4 is a schematic diagram of the internal structure of the pre-crushing device of the present invention.
Fig. 5 is a schematic structural view of the front crushing assembly of the present invention.
Fig. 6 is a schematic structural view of the crushing unit and the first driving member according to the present invention.
Fig. 7 is a schematic view of a first perspective structure of the crushing assembly of the present invention.
Fig. 8 is a schematic diagram of a second perspective structure of the crushing assembly of the present invention.
Fig. 9 is a schematic structural diagram of the first conveying device of the present invention.
Fig. 10 is an exploded schematic view of a first conveyor of the present invention.
Fig. 11 is a schematic structural view of the first conveying device of the present invention, which is provided with a turnover member.
Fig. 12 is a schematic structural view of a buckle structure of the first conveying device of the present invention.
Fig. 13 is an exploded view of the buckle structure of the first conveyor according to the present invention.
Fig. 14 is a schematic structural view of the frame body of the present invention.
Fig. 15 is a schematic structural view of the secondary crushing device and the second conveying device of the present invention disposed in the frame body.
Fig. 16 is a schematic structural view of the secondary crushing apparatus of the present invention.
Fig. 17 is an internal structure schematic diagram of the secondary crushing device of the present invention.
Fig. 18 is a schematic structural view of a second transfer device according to the present invention.
Fig. 19 is a schematic cross-sectional view of a second transfer device according to the present invention.
Fig. 20 is a schematic view of the internal structure of the second transfer device of the present invention.
Fig. 21 is an exploded view of the connection structure of the present invention.
Fig. 22 is a schematic structural diagram of the material separating device of the present invention.
Fig. 23 is a schematic structural view of the material separating device of the present invention when the baffle is hidden.
Fig. 24 is a schematic view of the internal structure of the material separating device of the present invention.
Fig. 25 is a schematic structural view of a baffle plate of the material separating device of the present invention.
Fig. 26 is a schematic structural diagram of an automatic reset structure of the material separating device of the present invention.
Fig. 27 is a schematic structural view of the reaction chamber device of the present invention.
Fig. 28 is a schematic view of the internal structure of the reaction chamber device of the present invention.
Fig. 29 is a schematic view of the first viewing angle structure of the hidden side plate and the end surface of the bin body of the reaction bin device of the present invention.
Fig. 30 is a schematic view of a second view angle structure of the hidden side plate and the end surface of the bin body of the reaction bin device of the present invention.
Fig. 31 is a schematic structural view of a stirring device and a stirring structure of the reaction chamber device of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.
Example 1: referring to fig. 1 to 31, the present embodiment provides a garbage disposal apparatus, which includes a pre-crushing device 1, a secondary crushing device 3, a first conveying device 2, a second conveying device 4, and a reaction bin device 5; the pre-crushing device 1 is provided with a first feeding hole 11 and a first discharging hole 12, so that wet garbage enters the pre-crushing device 1 from the first feeding hole 11 to be pre-crushed and then is output from the first discharging hole 12; the secondary crushing device 3 is provided with a second feeding hole 31 and a second discharging hole 32, so that the wet garbage enters the secondary crushing device 3 from the second feeding hole 31 for secondary crushing treatment and then is output from the second discharging hole 32; one end of the first conveying device 2 is connected with the first discharge hole 12, the other end of the first conveying device 2 is connected with the second feed hole 31, wet garbage output from the first discharge hole 12 is conveyed to the second feed hole 31, and meanwhile, waste water generated in the wet garbage conveying process can be recovered; second conveyer 4 is connected with second discharge gate 32, stirs wet rubbish, dewaters and outputs to reaction bin device 5 after the desalination and carries out wet rubbish rapid draing, and the raw materials that form the fertilizer is transformed, can retrieve the waste water that produces in wet rubbish stirring, dehydration and the desalination processing simultaneously.
In the utility model, the garbage treatment equipment carries out the pretreatment of wet garbage through the first crushing device, and the large-volume material is pre-crushed into the small-volume material, so that the crushing difficulty of the subsequent process can be reduced; the pretreated materials are conveyed to a secondary crushing device 3 through a first conveying device 2, and meanwhile, waste water generated in the wet garbage conveying process can be recovered; the secondary crushing device 3 is used for carrying out secondary crushing on the materials, so that the subsequent dehydration and desalination treatment of the materials are facilitated; through second conveyer 4 with the material after the secondary crushing stir, dewater and the desalination after export carry out wet rubbish transformation and handle in reacting storehouse device 5, can retrieve the waste water that produces in wet rubbish stirring, dehydration and the desalination process simultaneously, reduce the waste water recovery degree of difficulty, solve simultaneously that waste water is unrestrained and cause the problem of pollution to ground and air.
In this embodiment, a material distribution device 6 is further disposed between the second conveying device 4 and the reaction bin device 5, the material distribution device 6 is provided with a third feeding port 61, a first material distribution port 62 and a second material distribution port 63, the third feeding port 61 is connected with the second conveying device 4, the first material distribution port 62 is connected with the reaction bin device 5, the second material distribution port 63 is connected with the reaction bin device 5, the material distribution device 6 is provided with a conveying member 64 capable of changing a conveying direction, and the material can be output from the first material distribution port 62 or the second material distribution port 63; through feed divider 6's setting, can connect 2 reaction bin devices 5 respectively, can handle a large amount of wet rubbish, fill up the back when one of them reaction bin device 5, can change transmission direction through transmission piece 64, pack subsequent wet rubbish into another reaction bin device 5 automatically, need not manual operation, not only reduce the cost of labor, improve work efficiency moreover.
Example 2: referring to fig. 23-26, the present embodiment is optimized and defined based on embodiment 1. The material distributing device 6 further comprises a shell 65, an accommodating space is arranged inside the shell 65, a transmission piece 64 is arranged in the accommodating space, a third feeding port 61 is arranged above the shell 65 and communicated with the accommodating space, a first material distributing port 62 and a second material distributing port 63 are respectively arranged at two ends of the bottom of the shell 65, the first material distributing port 62 and the second material distributing port 63 are both communicated with the accommodating space, the material falls into the accommodating space from the third feeding port 61, and the material is output from the first material distributing port 62 through the transmission piece 64 or is output from the second material distributing port 63 through the transmission piece 64; first branch material mouth 62 all is provided with baffle 66 with second branch material mouth 63, and baffle 66 is provided with automatic re-setting structure 67, and when making the material fall into the baffle 66 of first branch material mouth 62 or second branch material mouth 63, baffle 66 can open and make the material output, and after the material output, baffle 66 can reset and block in first branch material mouth 62 or second branch material mouth 63 department. The utility model discloses in, first feed divider 62 communicates two reaction storehouse devices 5 that are used for wet rubbish conversion to handle respectively with second feed divider 63, through the setting of above-mentioned feed divider 6, can follow the first feed divider 62 at both ends about casing 65 with the material respectively, export in the second feed divider 63, thereby realize the conveying material of two directions, thereby realize through the direction of transfer that changes transmission 64 can with material transmission to about in the reaction storehouse device 5 at both ends, after the material falls into the reaction storehouse, can set up through the automatic re-setting of baffle 66, prevent to control two reaction storehouses and appear scurrying the condition of flavor.
As shown in fig. 27, the automatic reset structure 67 includes a first plate 671, a second plate 672, a limiting shaft 673 and a limiting spring, the first plate 671 is blocked at the bottom edge of the baffle 66, the second plate 672 is fixedly connected with the housing 65, a first hollow cylinder 674 is arranged at one side of the first plate 671, a second hollow cylinder 675 is arranged at one side of the second plate 672, the limiting shaft 673 passes through the first hollow cylinder 674 and the second hollow cylinder 675 to realize the rotatable connection between the first plate 671 and the second plate 672, so as to form a hinge structure, the limiting spring is sleeved on the limiting shaft 673, and one end of the limiting spring is fixedly connected with the first plate 671. The utility model discloses in, when rubbish fell into on the baffle 66, because the action of gravity makes first plate body 671 down rotate for baffle 66 can down open, when rubbish output, when external force disappeared, because the resilience force of spacing spring drives first plate body 671 and resets, drives baffle 66 simultaneously and resets to blockking in first branch material mouth 62 or second branch material mouth 63 department, the condition of scurrying flavor appears in two reaction bins about preventing.
The utility model discloses in, through the setting of above-mentioned automatic re-setting structure 67, can make things convenient for baffle 66 to realize opening when rubbish falls, automatic re-setting's function behind the rubbish output still has low in production cost's advantage simultaneously because simple structure. The automatic reset structure 67 can also be realized by other modes, such as sensing the gravity change after the garbage falls into the baffle 66 by using a pressure sensor, so as to control the baffle 66 to be opened through the prior art, and control the baffle 66 to be closed after the garbage falls into the baffle.
As shown in fig. 26, the baffle 66 includes a left plate body and a right plate body, one side of the left plate body is connected to the left side of the first material dividing port 62 or the second material dividing port 63 through the automatic resetting structure 67, the other side of the left plate body is abutted against one side of the right plate body, and the other side of the right plate body is connected to the right side of the first material dividing port 62 or the second material dividing port 63 through the automatic resetting structure 67. The utility model discloses in, set up baffle 66 into the left side baffle 66 and the right side baffle 66 of components of a whole that can function independently, can make rubbish fall down from between left side baffle 66 and the right side baffle 66, make rubbish output more easily, also make things convenient for the restoration of baffle 66 moreover.
Wherein, the top of casing 65 is provided with the lamina tecti 651, and third feed inlet 61 opens in the middle part of lamina tecti 651, and four sides of casing 65 are provided with side shield 652, and the bottom of casing 65 is provided with bottom plate 653, and first branch material mouth 62 sets up in both ends about bottom plate 653 respectively with second branch material mouth 63. The utility model discloses in, above-mentioned structure sets up simply, and convenient equipment, reduction in production cost can prevent moreover that rubbish stink from diffusing, reduces and scurries the flavor probability.
Wherein, transmission piece 64 is including conveyer belt 641, and conveyer belt 641 sets up in accommodation space, and is located the below of third feed inlet 61, and conveyer belt 641 passes through drive assembly 68 drive, and the material falls into behind the conveyer belt 641, drives conveyer belt 641 through drive assembly 68 and conveys toward the direction of first branch material mouth 62 or second branch material mouth 63 to make the material export from first branch material mouth 62 or second branch material mouth 63. The utility model discloses in, can be according to actual conditions control conveyer belt 641's direction of transfer, can only convey the material toward an orientation at the control conveyer belt 641 of earlier stage, after the reaction storehouse material of this orientation is full, the conveying material toward another orientation of the control conveyer belt 641 of again.
The driving assembly 68 comprises a motor, a speed reducer and a first transmission shaft 681, the motor is connected with the speed reducer, the speed reducer is connected with the first transmission shaft 681, the first transmission shaft 681 is connected with the conveyor belt 641, when the motor rotates forwards, the first transmission shaft 681 can be driven to rotate through the speed reducer, so that the conveyor belt 641 is driven to convey towards the first material distribution port 62, and when the motor rotates backwards, the first transmission shaft 681 can be driven to rotate through the speed reducer, so that the conveyor belt 641 is driven to convey towards the second material distribution port 63; alternatively, when the motor rotates forward, the first transmission shaft 681 can be driven to rotate through the speed reducer, so as to drive the conveyor belt 641 to convey toward the second material distribution opening 63, and when the motor rotates backward, the first transmission shaft 681 can be driven to rotate through the speed reducer, so as to drive the conveyor belt 641 to convey toward the first material distribution opening 62. The utility model discloses in, adopt above-mentioned setting to realize realizing the material conveying of two directions through the positive and negative commentaries on classics of a motor.
The first transmission shaft 681 is disposed in the middle of the conveyor belt 641, the second transmission shaft 682 and the third transmission shaft 683 are disposed at two ends of the conveyor belt 641, the first transmission shaft 681, the second transmission shaft 682 and the third transmission shaft 683 are perpendicular to the length direction of the conveyor belt 641, and bearings are connected to front and rear ends of the first transmission shaft 681, the second transmission shaft 682 and the third transmission shaft 683 and fixed to the frame 17 of the housing 65 through the bearing housing 684. Through the setting of three transmission shaft and bearing, can make things convenient for the motor to drive conveyer belt 641 conveying material more.
Wherein, the edge of the first material dividing opening 62 and the second material dividing opening 63 is further provided with a sealing rubber strip 69. The utility model discloses in, through the lamina tecti 651, bottom plate 653 and the side shield 652 of casing 65 to and the joint strip 69 of first branch material mouth 62 and second branch material mouth 63 and the setting of baffle 66, can make this feed divider 6 be encapsulated situation, prevent that the stink from diffusing, reduce moreover and scurry the flavor probability.
Example 3: referring to fig. 2-8, the present embodiment is optimized and defined based on embodiment 1. The pre-crushing device 1 comprises a first driving piece 13, a first transmission assembly 14, a crushing assembly 15 capable of rotating and crushing materials and a front crushing assembly 16 capable of rotating and tearing materials, wherein the crushing assembly 15 is arranged below the front crushing assembly 16, the front crushing assembly 16 is provided with a first feeding hole 11, the crushing assembly 15 is provided with a first discharging hole 12, and the first driving piece 13 is used for providing driving force; the crushing assembly 15 is provided with a first connecting end 151 and a second connecting end 152, the first connecting end 151 of the crushing assembly 15 is mounted at the output end of the first driving piece 13, so that the crushing assembly 15 rotates under the action of the first driving piece 13; the second connecting end 152 of the crushing assembly 15 is connected to the front crushing assembly 16 through the first transmission assembly 14 to rotate the front crushing assembly 16.
The utility model discloses in, this refuse handling installation provides drive power through first driving piece 13 to install the output at first driving piece 13 with first link 151 of broken subassembly 15, second link 152 of broken subassembly 15 is connected with preceding broken subassembly 16 through the drive assembly, transmit power, understandably, first driving piece 13 can provide power for broken subassembly 15 and preceding broken subassembly 16 simultaneously, only use single first driving piece 13, can reduce the energy consumption, and for using a plurality of driving pieces, can save occupation space.
Wherein, in order to make the structure simpler, the first connection end 151 of the crushing assembly 15 is installed on the output end of the first driving member 13, and the first driving member 13 can be a combination of an existing motor and a speed reducer.
Example 4: referring to fig. 2-8, the present embodiment is optimized and defined based on embodiment 3. The crushing assembly 15 includes a first crushing member 153 and a bearing member 1536, an accommodating space is formed inside the bearing member 1536, a first discharge port 12 is formed at the bottom of the bearing member 1536, two ends of the first crushing member 153 extend out of the accommodating space to form a first connection end 151 and a second connection end 152, respectively, that is, one end of the first crushing member 153 is fixedly mounted at an output end of the first driving member 13, the first crushing member 153 rotates to crush the material under the driving of the first driving member 13, and the other end of the first crushing member 153 is connected to the front crushing assembly 16 through the first transmission assembly 14;
the front crushing assembly 16 comprises a first material hopper 161, a first rotating member 162 and a second rotating member 163, the first material hopper 161 is arranged at the top of the crushing assembly 15, and is particularly arranged at the top of the bearing member 1536, the material which is crushed in the first material hopper 161 in front can flow out from the bottom outlet of the first material hopper 161 and enter the bearing member 1536, the first rotating member 162 and the second rotating member 163 can be rotating shafts, at least two first cutters 164 capable of tearing the material are arranged on the first rotating member 162, and the first rotating member 162 drives the first cutters 164 to rotate, so that the first cutters 164 can cut the material (such as watermelon) with a large volume while rotating; at least two second cutters 165 capable of tearing the materials are arranged on the second rotating member 163, and the second rotating member 163 drives the second cutters 165 to rotate, so that the second cutters 165 can cut the materials with larger volumes while rotating; a material inlet and a material outlet are formed at the upper end and the lower end of the first material hopper 161 respectively, the material inlet is a first feeding hole 11, and a pre-crushing channel is formed inside the first material hopper 161; the first rotating member 162 and the second rotating member 163 are installed in the first material hopper 161, and both ends of the first rotating member 162 and the second rotating member 163 extend out from the inside of the first material hopper 161; the second connecting end 152 of the crushing assembly 15 is connected to the input ends of the first rotating member 162 and the second rotating member 163 through the first transmission assembly 14, so as to drive the first rotating member 162 and the second rotating member 163 to rotate.
In the utility model, the front crushing component 16 has a simple structure; when materials enter the pre-crushing channel from the material inlet, the materials are pre-crushed under the action of the first cutter 164 and the second cutter 165, the materials leave the pre-crushing channel from the material outlet after the pre-crushing is finished, the materials with large volume are pre-crushed into the materials with small volume, and then the materials flow out from the material outlet to enter a subsequent crushing process.
In order to improve the installation stability of the first cutter 164, at least two first cutter mounting plates 1641 are installed on the first rotating member 162, the first cutter mounting plates 1641 are distributed along the axial direction of the first rotating member 162, any angle can be formed between adjacent first cutter mounting plates 1641, and preferably, an included angle of 90 degrees is formed between adjacent first cutter mounting plates 1641; in order to facilitate mounting of the first cutter 164, a first mounting opening is formed in the first cutter 164, and the first mounting opening can be welded and fixed on the first cutter mounting plate 1641; also in order to improve the mounting stability of the second cutter 165, at least two second cutter mounting plates 1651 are mounted on the second rotating member 163, and the second cutter mounting plates 1651 are identical in structure and position to the first cutter mounting plates 1641 on the second rotating member 163, as well as in the first rotating member 162.
In order to realize the stable operation of the first rotating member 162 and the second rotating member 163, the front crushing assembly 16 further includes a first chain wheel 166, a second chain wheel 167, and a first transmission chain; the first chain wheel 166 is fixedly installed on the second rotating member 163 to rotate following the second rotating member 163; the second chain wheel 167 is fixedly mounted on the first rotating member 162, and the second chain wheel 167 is connected to the first chain wheel 166 through the first transmission chain so as to rotate under the action of the first chain wheel 166, thereby driving the first rotating member 162 to rotate. Wherein, the first hopper 161 may be integrally tapered; the first hopper 161 is gradually reduced in size from top to bottom; the first rotating member 162 and the second rotating member 163 are installed on the first material hopper 161, and both ends of the first rotating member 162 and both ends of the second rotating member 163 extend outward from both inner sides of the first material hopper 161.
Wherein, the top of first material hopper 161 is provided with two at least first shower 168 that are used for spraying the material, and first shower 168 can be the shower nozzle, can connect external water supply installation, and first shower 168 sprays the material and can reduce the salt concentration in the material, can also make the taste (such as stink) of material fade. Wherein, movable mounting has left apron 1611 and right apron 1612 on the material import of first material hopper 161, and left apron 1611 and right apron 1612 cover fit on first material hopper 161 to prevent that operating personnel from dropping into in first material hopper 161. In order to improve the structural stability, the pre-crushing device 1 further comprises a rack 17, the first driving part 13 and the first transmission component 14 are respectively arranged on two sides of the rack 17, and the front crushing component 16 and the crushing component 15 are both arranged on the rack 17, so that the structural compactness can be improved; the frame 17 is further provided with a weighing member 18, the weighing member 18 is located on the outer side of the first material hopper 161, when materials (such as wet garbage) enter the first material hopper 161, the materials can apply gravity to the first material hopper 161 and the frame 17, so that the weighing member 18 can measure the weight of the materials currently entering the first material hopper 161 and can record material weight data, in this way, the weight of the materials entering the first material hopper 161 every time can be recorded in an accumulated mode, and when the weight reaches a preset value, a signal is sent to the material distributing device 6, so that the transmission direction of the transmission member 64 is changed. The weighing member 18 is a pressure sensor. In order to improve the structural stability, the frame 17 includes a fixing frame 171 and supporting columns 172 arranged in parallel at four corners of the fixing frame 171, the fixing frame 171 is fixedly installed at the tops of the supporting columns 172, the first material hopper 161 is fixedly installed on the fixing frame 171, and the bottom end of the first material hopper 161 extends into a space surrounded by the supporting columns 172; each support column 172 is fixedly provided with a weighing member 18.
The device also comprises a control system which can exchange data with the weighing part 18, the control system is electrically connected with the weighing part 18, and the control system can be an existing control system with functions of data calculation and the like. In combination with the above, the pressure sensor measures the pressure value applied to the supporting column 172, and transmits a pressure value signal to the control system, the control system converts the weight of the material according to the prior art, and can record the weight, when the accumulated weight value reaches a preset value, it indicates that one of the reaction bin devices 5 has sent enough material amount, the material transmission direction can be converted, the control system sends a signal to the material distribution device 6, the motor of the material distribution device 6 is controlled to change the direction of rotation, so that the feeding direction of the transmission piece 64 is changed, and the material is transmitted to the other reaction bin device 5.
Example 5: referring to fig. 6-8, the present embodiment is optimized and defined based on embodiment 4. The first crushing member 153 includes a first rotating assembly 1531, a second rotating assembly 1532, and a third rotating assembly 1534, one side of the second rotating assembly 1532 and the first rotating assembly 1531 forming a first processing channel, and the other side of the second rotating assembly 1532 and the third rotating assembly 1534 forming a second processing channel for processing materials; a first adjusting position 1533 is disposed at two ends of the first rotating assembly 1531, and a first adjusting member capable of moving the first rotating assembly 1531 left and right is mounted on the first adjusting position 1533 to adjust a distance between the first rotating assembly 1531 and the second rotating assembly 1532, so as to adjust a size of the first processing channel; the second adjusting positions 1535 are disposed at two ends of the third rotating assembly 1534, and a second adjusting member capable of moving the third rotating assembly 1534 left and right is installed on the second adjusting positions 1535 to adjust the distance between the second rotating assembly 1532 and the third rotating assembly 1534, so as to adjust the size of the second processing channel.
The utility model discloses in, first runner assembly 1531, second runner assembly 1532 and third runner assembly 1534 all can rotate, and the material gets into first processing passageway and second processing passageway respectively, then is stirred the bits of broken glass under first runner assembly 1531 and second runner assembly 1532, and second runner assembly 1532 and third runner assembly 1534's effect respectively. Meanwhile, the device of the present invention adjusts the distance between the first rotating assembly 1531 and the second rotating assembly 1532 by setting the first adjusting position 1533 and the first adjusting member at both sides of the first rotating assembly 1531, and the first adjusting member makes the first rotating assembly 1531 move left or right, and the first adjusting position 1533 and the first adjusting member are set at both sides of the first rotating assembly 1531, and the second adjusting position 1535 and the second adjusting member are set at both sides of the third rotating assembly 1534 to adjust the size of the second processing channel, so that the size of the first processing channel and the second processing channel can be changed according to the actual size of the material, which is suitable for the material with different specifications, and improves the flexibility of the whole device, and in addition, the size of the two processing channels can be changed after the material enters the two processing channels, to process the material with different degrees, thereby controlling the processing condition of the materials. In order to improve the structural stability, the first rotating assembly 1531, the second rotating assembly 1532 and the third rotating assembly 1534 are mounted on the supporting member 1536, and two ends of the first rotating assembly 1531, two ends of the second rotating assembly 1532 and two ends of the third rotating assembly 1534 extend out from two sides of the supporting member 1536.
The first rotating assembly 1531, the second rotating assembly 1532 and the third rotating assembly 1534 may have the same structure, and each of the first rotating assembly 1531, the second rotating assembly 1532 and the third rotating assembly 1534 includes a rotating shaft 1537 and a tearing member 1538, and has a simple structure, the rotating shafts 1537 of the first rotating assembly 1531, the second rotating assembly 1532 and the third rotating assembly 1534 are rotatably mounted on the supporting member 1536, and both ends of the rotating shaft 1537 extend out from both sides of the supporting member 1536, one end of the rotating shaft 1537 of the first rotating assembly 1531, the second rotating assembly 1532 and the third rotating assembly 1534 is mounted at the output end of the first driving member 13, and the other end is connected to the front crushing assembly 16 through the first transmission assembly 14;
a first movable groove 15361 is formed at each of two ends of the supporting member 1536, a first movable block 15362 is installed in the first movable groove 15361, and a first adjusting position 1533 is formed between the first movable block 15362 and the first movable groove 15361, specifically, a first adjusting position 1533 is formed between two inner side walls corresponding to the first movable groove 15361 and both left and right sides of the first movable block 15362; the first adjusting member is installed in any first adjusting position 1533 to adjust the first movable block 15362 to move left or right, so that the first rotating shaft 1537 moves left and right, and the size of the first processing channel is adjusted; the first movable groove 15361 and the first movable block 15362 are respectively provided with a first via hole and a second via hole, and the outer end of the first rotating shaft 1537 respectively passes through the first via hole and the second via hole. The first adjusting portion 1533 is a strip shape, and the first adjusting member is a block shape. Wherein, the position of second axis of rotation 1537 is unchangeable, and first regulating part can select for use the first regulating part that thickness is 1-3mm, changes the thickness of first regulating part wantonly to install first regulating part in first regulation position 1533, for example, can select for use 1mm and 2 mm's first regulating part, install in the first regulation position 1533 that is located first movable block 15362 both sides, change the clearance between the tear piece 1538 of first runner assembly 1531 and the tear piece 1538 of second runner assembly 1532, can be applicable to the material of different specifications, can also lead to the fact the breakage of different degrees to the material.
The tearing elements 1538 may be gear blades, and the gaps 218 are disposed between adjacent tearing elements 1538, the gaps 218 are fixedly mounted on the rotating shaft 1537, and the gaps 218 are annular. The spacers 218 serve to space adjacent tear elements 1538 apart to provide a uniform array of tear elements 1538. The two ends of the bearing element 1536 are further provided with a second movable groove 15363, a second movable block 15364 is installed in the second movable groove 15363, a second adjusting position 1535 is formed between the second movable block 15364 and the second movable groove 15363, and the specific structures of the second adjusting position 1535 and the second adjusting element are respectively the same as the structures of the first adjusting position 1533 and the first adjusting element, and the specific adjusting manner is also the same. Wherein, the first rotating assembly 1531, the second rotating assembly 1532 and the tearing member 1538 of the third rotating assembly 1534 cooperate to crush the materials, so as to improve the working efficiency of the crushing assembly 15, a first gear 15381 is mounted on one end of the tearing member 1538 of the first rotating assembly 1531 close to the driving assembly 68, the first gear 15381 follows the rotation of the first rotating assembly 1531, and the first gear 15381 is generally fixed on the tearing member 1538 of the first rotating assembly 1531;
a second gear 15382 is installed at one end of the tearing element 1538 of the second rotating element 1532, and the second gear 15382 is engaged with the first gear 15381 to drive the tearing element 1538 of the second rotating element 1532 to rotate; the third gear 15383 is mounted on one end of the tearing member 1538 of the first rotating assembly 1531 close to the driving assembly, the fourth gear 15384 is mounted on the outer side wall of the carrier 1536, the fifth gear 15385 is mounted on the end of the tearing member 1538 of the third rotating assembly 1534, and both side walls of the fourth gear 15384 are respectively engaged with the third gear 15383 and the fifth gear 15385.
The utility model discloses in, the single first driving piece 13 of accessible drives the piece 1538 that tears of installing first runner assembly 1531, second runner assembly 1532 and third runner assembly 1534 on bearing piece 1536 and rotates, comes the material breakage, and this kind of drive transmission connection relation is rationally distributed, and transmission mode is simple.
Wherein the first driving assembly 14 comprises a first driving wheel 141, a second driving wheel 142 and a second driving chain, the first driving wheel 141 is mounted at the second connecting end 152 of the crushing assembly 15 to rotate along with the crushing assembly 15, and specifically, the first driving wheel 141 can be mounted at the rotating shaft 1537 of the first rotating assembly 1531 to rotate along with the tearing member 1538 of the first rotating assembly 1531; the second transmission wheel 142 is installed at the input end of the front crushing assembly 16, that is, the second transmission wheel 142 is installed on the second rotating member 163 of the front crushing assembly 16, and the second transmission wheel 142 is connected to the first transmission wheel 141 through a second transmission chain to drive the front crushing assembly 16 to rotate.
Example 6: referring to fig. 9-13, the present embodiment is optimized and defined based on embodiment 1. The material conveying assembly 21 is provided with a feeding end 211 and a discharging end 212, the feeding end 211 of the material conveying assembly 21 is connected with the first discharging hole 12, the discharging end 212 of the material conveying assembly 21 is connected with the second feeding hole 31, the structure is simple, and a first area 213 for conveying materials (such as wet garbage) is formed on the front surface of the material conveying assembly 21; be equipped with the waste water recovery passageway 214 that the slant set up on defeated material subassembly 21, first region 213 is through waste water recovery passageway 214 and first catchment piece 22 intercommunication, understandably, waste water recovery passageway 214 slant sets up, be favorable to utilizing gravity to let waste water from last down flow down, set up waste water recovery passageway 214 on defeated material subassembly 21, waste water recovery passageway 214 is first waste water recovery structure, first region 213 is through waste water recovery passageway 214 and first catchment piece 22 intercommunication, the material is in first region 213 transportation process, waste water flows into first catchment piece 22 along waste water recovery passageway 214 downwards, be favorable to retrieving the waste water in the rubbish, reduce the waste water recovery degree of difficulty, solve waste water simultaneously and spill and cause the problem of pollution to ground and air.
The conveying component 21 comprises a bearing part 215, a mounting main body 216 and a conveying belt 217 for conveying materials, the structure is simple, the bearing part 215 and the first water collecting part 22 are respectively mounted at the top and the bottom of the mounting main body 216, the mounting main body 216 and the bearing part 215 form an angle, an obtuse angle is usually formed, and similarly, the mounting main body 216 and the first water collecting part 22 also form an obtuse angle; the conveying belt 217 is installed on the installation body 216, and two ends of the conveying belt 217 extend into the bearing part 215 and the first water collecting part 22 respectively;
the front surface of the conveyor belt 217 forms a first region 213, and the waste water recovery passage 214 is formed between the rear surface of the conveyor belt 217 and the mounting body 216. The feeding assembly 21 further includes a motor for driving the conveyor belt 217, and the motor is mounted on the outer sidewall of the receiving member 215. Wherein, in order to reduce the waste water recycling degree of difficulty, feed end 211 and discharge end 212 set up in the both ends of conveyer belt 217, and in feed end 211 and discharge end 212 stretched into receiving piece 215 and first catchment piece 22 respectively, left interval 218 between the inside wall of feed end 211 and first catchment piece 22, make waste water also can flow into first catchment piece 22 in feed end 211 department. Wherein, the conveyer belt 217 is provided with the partition plate that can separate the material at the equidistant, forms the accommodation space who holds the material between the adjacent partition plate. Because the conveyer belt 217 is carried upwards, the setting of division board can block the material and fall down, is favorable to carrying the material upwards, and more specifically, division board fixed mounting is on conveyer belt 217. In order to reduce the difficulty of wastewater recovery, the side wall of the conveyor belt 217 and the inner side wall of the mounting body 216 form a water inlet gap for allowing wastewater to flow in, and the first region 213 is communicated with the wastewater recovery channel 214 through the water inlet gap. The mounting body 216 is provided with a flip member 2161 and a latch structure 2162, the latch structure is shown in fig. 12-13, the flip member 2161 is movably mounted on one side wall of the mounting body 216, the latch structure 2162 is mounted on the other side wall of the mounting body 216, the flip member 2161 covers the mounting body 216 via the latch structure 2162, and the flip member 2161 is flipped to open or close the first region 213. The utility model discloses in, set up upset 2161 and be favorable to at the in-process of transported substance material, alleviate the foul smell pollution of material, simultaneously upset 2161 movable mounting is on installation main part 216, when the material of first region 213 is examined to needs, can overturn the upset 2161 and open first region 213.
Wherein, the upper surface of upset piece 2161 is opened there is the installation opening, and fixed mounting has transparent plate 21611 on the installation opening, and operating personnel can observe the material in first region 213 through transparent plate 21611, sees whether other rubbish still exist except wet rubbish, if there is, can open first region 213 through upset piece 2161, takes other rubbish away, makes things convenient for subsequent pertinence to handle wet rubbish. Wherein, first catchment piece 22 includes open header tank, and the header tank is installed in the bottom of installation main part 216, and waste water recovery passageway 214 and header tank intercommunication are passed through to first region 213, and the feed end 211 level of conveyer belt 217 stretches into in the header tank, and the lateral wall of header tank is opened has the export of catchmenting, and accessible pipeline is connected with the suction pump to take waste water away to the concentrated district of current centralized processing waste water when waste water is full in the header tank. Wherein, the inside wall of the installation main body 216 is provided with a second spraying part which can spray materials, the second spraying part can be a spray head connected with an external water supply mechanism, and the materials can be cleaned in the process of conveying the materials by the conveying belt 217.
Example 7: referring to fig. 14-21, the present embodiment is optimized and defined based on embodiment 1. A second water collecting piece 40 is arranged below the second conveying device 4, one end of the second conveying device 4 is provided with a material input end 41, the other end of the second conveying device 4 is provided with a material output end 42, the material output end 42 is connected with a third feeding port 61, the material input end 41 is connected with the second discharging port 32, the second conveying device 4 is further provided with a conveying piece 43 which can convey materials from the material input end 41 to the material output end 42 and stir, desalt and dehydrate the materials, the bottom of the second conveying device 4 is provided with a drainage layer 44, the drainage layer 44 is of a second wastewater recovery structure, the drainage layer 44 is obliquely and upwards arranged along the length direction of the second conveying device 4, and the lower end of the drainage layer 44 is communicated with the second water collecting piece 40 through a drainage plate 441;
in the utility model, the device crushes the wet garbage through the secondary crushing device 3, the crushed material falls into the second conveying device 4 from the material input end 41, and is conveyed from the material input end 41 to the material output end 42 through the conveying piece 43, and then is output to the reaction bin device 5 from the material output end 42; in the process of stirring, desalting and dehydrating materials by the conveying member 43, water filtered by extrusion of the conveying member 43 falls into the drainage layer 44 at the bottom of the conveying device under the action of gravity, and due to the inclined arrangement of the drainage layer 44, the extruded water is introduced into the second water collecting member 40 communicated with the lower end of the drainage layer, and then wastewater treatment is carried out, so that the collection of wastewater is facilitated, and the influence on the surrounding environment is avoided; wherein, the second water collecting member 40 may adopt an existing water tank, or adopt an existing sewage treatment apparatus to directly perform purification treatment on the wastewater.
As shown in fig. 15-17, the secondary crushing device 3 includes a second material hopper 33, a stirring assembly 34, a crusher 35, a second transmission assembly 36 and a second driving member 37, the second material inlet 31 is disposed above the second material hopper 33, the crusher 35 is provided with a second material outlet 32, the stirring assembly 34 is disposed in the second material hopper 33, the crusher 35 is disposed below the second material hopper 33, the material input end 41 is located below the crusher 35, the second driving member 37 is connected with the second transmission assembly 36, the stirring assembly 34 and the crusher 35 are both connected with the transmission assembly, and the second driving member 37 can drive the stirring assembly 34 and the crusher 35 to work through the transmission assembly. The utility model discloses in, second driving piece 37 can adopt the motor, through the setting of conveying subassembly, realizes that a motor can drive stirring subassembly 34 and breaker 35 simultaneously and carry out work, through the setting of stirring subassembly 34 with breaker 35, can make the material breakage more thorough.
The transmission component is a gear matched with a conveying belt, and can simultaneously drive the stirring component 34 and the crusher 35 to work; the first driving member 13 includes a motor and a speed reducer, the stirring assembly 34 includes a first rotating shaft 341, the first rotating shaft 341 is connected to the transmission assembly, the first rotating shaft 341 is provided with a stirring blade 342, one end of the first rotating shaft 341 is provided with a gear, the structure of the crusher 35 may be the same as that of the first crushing member 153, that is, three rotating shafts 1537 which are arranged side by side and are all provided with a tearing member 1538 may be adopted, both ends of the rotating shaft 1537 positioned in the middle portion are provided with gears, the first driving member 13 is connected to the rotating shaft 1537 positioned in the middle portion, the rotating shafts 1537 positioned at both sides are provided with gears at different ends thereof respectively, and are engaged with the gears at both ends of the rotating shaft 1537 positioned in the middle portion, the rotating shaft 1537 positioned in the middle portion may extend outward, the extending portion thereof is further provided with a gear, the gear of the extending portion is connected to the gear of the first rotating shaft 341 through a transmission belt, the motor that makes first driving piece 13 passes through the speed reducer and drives the axis of rotation 1537 that is located the middle part and rotate, and through the rotation of axis of rotation 1537, drive axis of rotation 1537 and the first rotation axis 341 of its both sides simultaneously and rotate, realize that first driving piece 13 can drive stirring subassembly 34 and breaker 35 simultaneously and carry out work through the transmission assembly. When the stirring device works, the stirring blade 342 is driven to rotate by the first rotating shaft 341, so that wet garbage falling into the hopper is stirred and cut into blocks, then the wet garbage enters the crusher 35 for secondary crushing, and the material after secondary crushing by the crusher 35 falls into the transmission device from the material input end 41; through the setting of stirring subassembly 34 and breaker 35, can make the material breakage more thoroughly.
Example 8: referring to fig. 18-21, the present embodiment is optimized and defined based on embodiment 7. The conveying device further comprises a third driving piece 45 and a conveying seat 46, a cavity for accommodating materials and conveying pieces 43 is formed in the conveying seat 46, the conveying seat 46 is obliquely arranged, the material input end 41 is arranged at the lower end of the conveying seat 46, the material output end 42 is arranged at the upper end of the conveying seat 46, the third driving piece 45 is arranged at the lower end of the conveying seat 46, the third driving piece 45 is connected with the conveying piece 43, a filter screen 47 is arranged outside the conveying piece 43, and a diversion layer 44 is formed between the filter screen 47 and the inner wall of the bottom of the conveying seat 46. The utility model discloses in, outside conveying piece 43 was located to the filter screen 47 cover, the material fell into conveying seat 46's cavity back, drove conveying piece 43 through third driving piece 45 and transmitted the material to material output 42 from material input 41, through the setting of filter screen 47, can filter out the moisture of wet rubbish and fall into drainage layer 44.
The cavity of the conveying base 46 is divided into three areas, namely a conveying area 100, a desalting area 200 and a dewatering area 300, wherein the conveying area 100 is connected with the material input end 41, the dewatering area 300 is connected with the material output end 42, and the desalting area 200 is positioned between the conveying area 100 and the dewatering area 300; conveying member 43 is including first conveying axle 431 and second conveying axle 432, the outer wall of first conveying axle 431 and second conveying axle 432 all is provided with helical blade 433, the one end and the third driving piece 45 of first conveying axle 431 are connected, the other end and the one end of second conveying axle 432 of first conveying axle 431 are connected, material output end 42 sets up in the other end of second conveying axle 432, first conveying axle 431 spanes in conveying district 100 and desalination district 200, second conveying axle 432 is located dehydration district 300, desalination district 200 still is provided with and can carries out the spray structure 48 that sprays water to wet rubbish at 200 within range round trips in desalination district. The utility model discloses in, drive first conveying axle 431 and second conveying axle 432 through third driving piece 45 and rotate, because helical blade 433's setting, make conveying 43 form the auger delivery structure that can stir and carry the material, send into desalination district 200 with the material from conveying district 100 through first conveying axle 431 and helical blade 433, wet rubbish through spraying structure 48 to desalination district 200 sprays water, with the salinity of diluting wet rubbish, it is clear to make a round trip to the filter screen 47 of desalination district 200 simultaneously, prevent that the material from adhering at filter screen 47 and conveying seat 46 inner wall, cause the jam.
Wherein, the diameter of helical blade 433 of second conveying axle 432 is less than the diameter of helical blade 433 of first conveying axle 431 for wet rubbish is from big space to little space after, can further extrude the water in the wet rubbish, salinity and oil pass through the discharge of water, have further taken off salinity, oil and the water in the wet rubbish. Wherein, a sliding component 49 which can drive the spraying structure 48 to move back and forth is arranged in the conveying seat 46, and the spraying structure 48 is connected with the sliding component 49, so that the spraying structure 48 can spray back and forth in the conveying seat 46;
the sliding assembly 49 includes a fourth driving member 491, a guide rail 492 and a sliding member 493, the guide rail 492 is disposed on the inner wall of the conveying seat 46 along the length direction of the conveying seat 46, the spraying structure 48 is slidably connected to the guide rail 492 through the sliding member 493, the fourth driving member 491 is connected with the sliding member 493, and the fourth driving member 491 can drive the sliding member 493 to slide back and forth on the guide rail 492, so as to drive the spraying structure 48 to spray back and forth. The utility model discloses in, through set up guide rail 492 in conveying seat 46 to and the setting of fourth drive 491 and slider 493, make spray structure 48 can make a round trip to spray in conveying seat 46, thereby can help wet rubbish dilution salinity, when helping it carry out desalination, can make a round trip to wash conveying seat 46's desalination district 200, prevent that the material from adhering at filter screen 47 and conveying seat 46 inner wall, cause the jam. Wherein, second driving piece 37 can adopt the motor, and the motor is connected with the lead screw, lead screw and guide rail 492 parallel arrangement, is equipped with the nut on the lead screw, and slider 493 adopts the slider this moment, and nut and slider fixed connection form screw-nut transmission mode, and when the motor started, drive the lead screw and rotate to make the nut move on the lead screw, thereby drive the slider and remove along guide rail 492, just can realize driving through the positive and negative rotation of motor and spray structure 48 along guide rail 492 round trip movement. Wherein, the two ends of the conveying seat 46 located in the desalination region 200 are respectively provided with a limit sensor, and the limit sensors are in communication connection with the fourth driving member 491. The utility model discloses in, set up spacing sensor through the both ends to this specific region in desalination district 200, sense when spraying structure 48 is close to when spacing sensor, send signal to the controller of motor to the control motor changes and turns to, thereby makes the lead screw change and turns to, thereby makes and sprays structure 48 and can make a round trip movement in the specific region.
Wherein, the spraying structure 48 comprises a semi-annular spraying pipe 481 which is sleeved outside the filter screen 47 in a semi-surrounding manner, and more than 1 spraying nozzle 482 facing the filter screen 47 is arranged on the spraying pipe 481. In order to realize better cleaning performance, can be provided with a plurality of spray nozzles 482, evenly distributed is on shower 481, through the aforesaid setting, can be better spray the wet rubbish in the filter screen 47, can carry out the washing of making a round trip to filter screen 47 when realizing diluting the salinity of wet rubbish, prevents that the material adhesion from causing the jam on filter screen 47.
Wherein, the spray nozzle 482 is obliquely arranged on the spray pipe 481. The utility model discloses in, the mode that the mouth 482 that sprays adopted oblique spouting sprays, and the cleaning performance is better. In order to enable the conveying shafts to conveniently convey materials and further extrude water, salt and oil in wet garbage, the first conveying shaft 431 and the second conveying shaft 432 with the threaded blades with different radiuses are spliced, in order to enable the connection stability of the first conveying shaft 431 and the second conveying shaft 432 to be stronger, the first conveying shaft 431 and the second conveying shaft 432 are connected with the flange 400 through the connecting structure 410, the connecting structure 410 comprises a connecting rod 4101, a fixing lug 4102 and a fixing clamping groove 4103, the fixing bulge is arranged at the end part of the first conveying shaft 431, the fixing clamping groove 4103 is arranged at the end part of the second conveying shaft 432, or the fixing clamping groove 4103 is arranged at the end part of the first conveying shaft 431, and the fixing lug 4102 is arranged at the end part of the second conveying shaft 432; the opposite ends of the first transmission shaft 431 and the second transmission shaft 432 are provided with mounting holes 216234 matched with the connecting rod 4101, when the first transmission shaft 431 is connected with the second transmission shaft 432, the two ends of the connecting rod 4101 respectively extend into the mounting holes 216234 of the first transmission shaft 431 and the second transmission shaft 432, the fixing lugs 4102 are clamped into the fixing clamping grooves 4103, and the two ends of the connecting rod 4101 are respectively locked with the first transmission shaft 431 and the second transmission shaft 432 through screws, so that the first transmission shaft 431 is fixedly connected with the second transmission shaft 432.
The material input end 41 is a channel formed by a baffle 66 which is enclosed below the crusher 35 and between openings of the conveying seat 46, and the material falls into the conveying seat 46 from the channel after falling from the crusher 35; material output end 42 and feed divider 6 intercommunication, material output end 42 is including third conveying axle 420, third conveying axle 420 passes through connection structure 410 and is connected with second conveying axle 432, the outside of third conveying axle 420 is provided with helical blade 433 equally, helical blade 433 overcoat is equipped with filter screen 47, filter screen 47 be horn structure, its radius reduces gradually toward the direction of third axis of rotation 1537 tip, form the export of loudspeaker form, make the material extruded output, the diameter of helical blade 433 of third conveying axle 420 is less than the diameter of helical blade 433 of second conveying axle 432, when making the material conveyed material output end 42, can further extrude the dehydration, second driving piece 37 is including motor and reduction gear. Wherein, the frame body 430 of frame shape is equipped with outward to secondary crushing device 3 and second conveyer 4, forms the installation space who holds secondary crushing device 3, second conveyer 4 and second water-collecting device in the frame body 430, and four sides and the top of frame body 430 all are provided with apron 4301, and the top that frame body 430 is located stirring subassembly 34 is provided with upper cover 4302 that can open or close.
Example 9: referring to fig. 28 to 31, the present embodiment is optimized and defined based on embodiment 1. Reaction bin device 5 is including the device body, and this internal storehouse body 51 that makes the material change into the fertilizer that is equipped with of device is equipped with the agitating unit 52 that can stir the inside material of storehouse body 51 in the storehouse body 51, and the both ends position of the inside of storehouse body 51 all is provided with the stirring structure 53 that can stir the material of the storehouse body 51 tip, and stirring structure 53 is connected with agitating unit 52. The utility model discloses in, increase stirring structure 53 through the both ends position in the inside of the storehouse body 51, make this stirring structure 53 be connected with agitating unit 52 to when agitating unit 52 stirs the work, can drive stirring structure 53 and stir the material at storehouse body 51 both ends, prevent that the material at the inside both ends of storehouse body 51 from plugging up.
The stirring device 52 comprises a stirring shaft 521, a stirring paddle 522 and a spiral blade 523, wherein the stirring shaft 521 is positioned inside the bin body 51, the stirring shaft 521 is connected with a fifth driving part 524, and the fifth driving part 524 is a speed reduction motor; the stirring paddles 522 are connected to the stirring shaft 521, one end of each stirring paddle 522 is connected to the spiral blade 523, the other end of each stirring paddle 522 is connected to the stirring blade 5221, 2 spiral blades 523 are arranged on the stirring shaft 521, 4 stirring paddles 522 are connected to 2 spiral blades 523, the included angles between each stirring paddle 522 connected to each spiral blade 523 and the stirring shaft 521 are different, coaxial and non-directional stirring is achieved, sufficient reaction is ensured, and materials in the bin body 51 and biological bacteria are sufficiently reacted through the arrangement of the stirring paddles 522 and the stirring blades 5221; the two stirring paddles 522 are respectively connected to two ends of the stirring shaft 521, the stirring structure 53 is arranged on the stirring paddles 522 connected to two ends of the stirring shaft 521, the stirring paddles 522 are arranged vertically to the length direction of the stirring shaft 521, one end of the stirring structure 53 is connected to one side of the stirring paddles 522 facing the end part of the bin body 51, and the other end of the stirring structure 53 extends vertically to the end part of the bin body 51 and is connected with an anti-blocking shovel 532; when first driving piece 13 starts, can drive (mixing) shaft 521 and rotate to drive helical blade 523 and rotate with stirring rake 522, thereby drive stirring structure 53 prevent stifled shovel 532 and rotate, realize stirring the material of storehouse body 51 tip.
In order to realize better heating and heat preservation effect, storehouse body 51 is including heating inner bag 511, heating outer bag 512, first heat preservation 513 and second heat preservation 514, heating inner bag 511 sets up in this internally is installed, and the inside material that holds that forms of heating inner bag 511, agitating unit 52 and stirring structure 53, and can make the material convert the reaction space of fertilizer into, the heating inner bag 511 outside is located to heating outer bag 512 cover, the heating outer bag 512 outside is located to first heat preservation 513 cover, the first heat preservation 513 outside is located to second heat preservation 514 cover.
A heating space 54 is arranged between the heating inner container 511 and the heating outer container 512, the heating space 54 is provided with an oil inlet pipeline 541, an oil outlet pipeline 542 and an exhaust pipeline 543, one end of the oil outlet pipeline 542 extends into the bottom of the heating space 54, the other end of the oil outlet pipeline 542 extends out of the bin body 51, one end of the oil inlet pipeline 541 extends into the upper part of one side of the heating space 54, the other end of the oil inlet pipeline 541 extends out of the bin body 51 and is communicated with the oil outlet pipeline 542, specifically, one end of the oil inlet pipeline 541 extending out of the bin body 51 is connected with external equipment, and the oil inlet pipeline 541 and the oil outlet pipeline 542 are communicated through the external equipment to form a cycle; one end of the exhaust duct 543 extends into the upper portion of the other side of the heating space 54, and the other end of the exhaust duct 543 extends outside the heating space 54. In the utility model, the oil inlet pipe 541 and the oil outlet pipe 542 are arranged, so that the flow of oil and the stability of temperature in the heating space 54 can be kept, and the situation of local heating is prevented; by providing the exhaust duct 543, the air pressure in the heating space 54 can be prevented from being excessively increased. In order to increase the stability of the bin body 51, a transverse reinforcing rib 544 is further arranged between the heating inner container 511 and the heating outer container 512. Wherein, the device body is including mounting bracket 55, and storehouse body 51 sets up inside mounting bracket 55, all is provided with curb plate 551 around mounting bracket 55, about, the top of mounting bracket 55 is provided with upper cover plate 552, and the bottom of mounting bracket 55 is hollow out construction, and mounting bracket 55 upper portion still is provided with fourth feed inlet 553, fourth feed inlet 553 and storehouse body 51 intercommunication. The utility model discloses in, the open-top of the storehouse body 51 is sealed by upper cover plate 552, and the rubbish material gets into the storehouse body 51 from fourth feed inlet 553, plays the supporting role to the storehouse body 51 through mounting bracket 55, protects the storehouse body 51 through curb plate 551, upper cover plate 552, and mounting bracket 55's bottom sets up to hollow out construction, can prevent overheated. Wherein, the lateral part of storehouse body 51 is provided with fourth discharge gate 554, and articulated on the fourth discharge gate 554 have a discharge door 555, and the bottom of fourth discharge gate 554 still is equipped with the downward hopper 556 of slope. The utility model discloses in, realize opening or closing of discharge gate through discharge door 555, the discharge gate can also be used for throwing in biological fungus, and the fertilizer raw materials after the conversion is exported from fourth discharge gate 554 along the decurrent hopper 556 that goes out of slope, makes things convenient for the ejection of compact.
Wherein, for the convenience of the support to the storehouse body 51, the bottom of storehouse body 51 still is provided with supporting seat 56, and the upper end of supporting seat 56 is provided with the arc backup pad 561 with the outer wall looks adaptation of storehouse body 51, and the lower extreme of supporting seat 56 is fixed in the mounting bracket 55 bottom. Wherein, the upper portion of the mounting rack 55 is further provided with an observation window 57 which can observe the interior of the bin body 51, and the observation window 57 is provided with a glass window surface. In order to treat the waste gas in the reaction process, a waste gas discharge structure communicated with the bin body 51 is further arranged at the top of the mounting frame 55, the waste gas discharge structure can be an air outlet cylinder 58, and the air outlet cylinder 58 is communicated with external air purification equipment through a pipeline; in order to facilitate the entry of air, an air introducing structure communicated with the bin body 51 is further disposed at the top of the mounting frame 55, the air introducing structure may be an air inlet 59 disposed on the upper cover plate 552, and the air inlet 59 is provided with a fan 510.
The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A waste treatment apparatus, characterized by comprising:
the pre-crushing device can pre-crush materials;
the secondary crushing device can perform secondary crushing treatment on the material;
the device comprises a first conveying device, a second conveying device and a third conveying device, wherein one end of the first conveying device is connected with a pre-crushing device, the other end of the first conveying device is connected with a secondary crushing device, the pre-crushed materials are conveyed to the secondary crushing device to be subjected to secondary crushing treatment, and the first conveying device is provided with a first wastewater recovery structure capable of recovering wastewater generated in the material conveying process;
the reaction bin device is used for carrying out wet garbage conversion treatment on the materials;
and one end of the second conveying device is connected with the secondary crushing device, the other end of the second conveying device is connected with the reaction bin device, the materials subjected to secondary crushing treatment are stirred, dehydrated and desalted and then are output to the reaction bin device, and the second conveying device is provided with a second wastewater recovery structure capable of recovering wastewater generated in the stirring, dehydrating and desalting treatment process of wet garbage.
2. The garbage disposal apparatus according to claim 1, wherein a material distribution device is further disposed between the second conveying device and the reaction bin device, the material distribution device is provided with a third feeding port, a first material distribution port and a second material distribution port, the first material distribution port is connected with a reaction bin device, the second material distribution port is connected with a reaction bin device, and the material distribution device is provided with a transmission member capable of changing a transmission direction and outputting materials from the first material distribution port or the second material distribution port;
the pre-crushing device is provided with a first feeding hole and a first discharging hole, so that wet garbage enters the pre-crushing device from the first feeding hole for pre-crushing treatment and then is output from the first discharging hole; the secondary crushing device is provided with a second feeding hole and a second discharging hole, so that wet garbage enters the secondary crushing device from the second feeding hole for secondary crushing treatment and then is output from the second discharging hole; one end of the first conveying device is connected with the first discharge hole, the other end of the first conveying device is connected with the second feed port, one end of the second conveying device is connected with the second discharge hole, and the other end of the second conveying device is connected with the third feed port.
3. The garbage disposal device according to claim 2, wherein the material distribution device further comprises a housing, an accommodating space is arranged inside the housing, the transmission member is arranged in the accommodating space, the third material inlet is arranged above the housing and is communicated with the accommodating space, the first material distribution port and the second material distribution port are respectively arranged at two ends of the bottom of the housing, the first material distribution port and the second material distribution port are both communicated with the accommodating space, the material falls into the accommodating space from the third material inlet, and the material is output from the first material distribution port through the transmission member or is output from the second material distribution port through the transmission member; the first material dividing port and the second material dividing port are both provided with baffles, the baffles are provided with automatic resetting structures, when the materials fall into the baffles of the first material dividing port or the second material dividing port, the baffles can be opened to enable the materials to be output, and after the materials are output, the baffles can be reset to block the positions of the first material dividing port or the second material dividing port.
4. The waste treatment equipment of claim 2, wherein the pre-crushing device comprises a first driving member, a first transmission assembly, a crushing assembly capable of rotating and crushing materials, and a front crushing assembly capable of rotating and tearing materials, wherein the crushing assembly is arranged below the front crushing assembly, the front crushing assembly is provided with the first feeding hole, the crushing assembly is provided with the first discharging hole, and the first driving member is used for providing a driving force; the crushing assembly is provided with a first connecting end and a second connecting end, and the first connecting end of the crushing assembly is arranged at the output end of the first driving piece so that the crushing assembly rotates under the action of the first driving piece; the second link of broken subassembly is connected with preceding broken subassembly through first transmission assembly to broken subassembly rotates before the drive.
5. The waste disposal device of claim 4, wherein the crushing assembly comprises a first crushing member and a bearing member, the bearing member defines an accommodating space therein, two ends of the first crushing member extend out from the accommodating space to form the first connecting end and the second connecting end, respectively, and the first crushing member is driven by the first driving member to rotate to crush the materials;
the front crushing assembly comprises a first material hopper, a first rotating piece and a second rotating piece, the first material hopper is arranged at the top of the bearing piece, at least two first cutters capable of tearing materials are mounted on the first rotating piece, and the first rotating piece can drive the first cutters to rotate; the second rotating piece is provided with at least two second cutters capable of tearing materials, and the second rotating piece can drive the second cutters to rotate; the upper end and the lower end of the first material hopper form a material inlet and a material outlet respectively, and a pre-crushing channel is formed inside the first material hopper; the first rotating piece and the second rotating piece are arranged in the first material hopper, and two ends of the first rotating piece and two ends of the second rotating piece extend out of the first material hopper; the second connecting end of the crushing assembly is connected with the input ends of the first rotating piece and the second rotating piece through the first transmission assembly respectively so as to drive the first rotating piece and the second rotating piece to rotate;
the pre-crushing device also comprises a rack, a first driving piece and a first transmission assembly are respectively arranged on two sides of the rack, and the front crushing assembly and the crushing assembly are both arranged on the rack; the weighing device comprises a rack, a weighing part and a weighing device, wherein the rack is provided with the weighing part, the weighing part is positioned on the outer side of a first material hopper, when materials enter the first material hopper, the materials can be applied to the first material hopper and the gravity of the rack, the weight of the materials entering the first material hopper can be measured through the weighing part, material weight data can be recorded, and when the weight accumulation reaches a preset value, a signal is sent to a transmission part of a material distribution device, so that the transmission direction of the transmission part is changed.
6. A waste disposal device according to claim 5, wherein the first crushing member comprises a first rotary member and a second rotary member, the first rotary member and the second rotary member forming a first disposal path for crushed material therebetween; the two ends of the first rotating assembly are provided with first adjusting positions, and first adjusting pieces capable of enabling the first rotating assembly to move left and right are installed on the first adjusting positions so as to adjust the distance between the first rotating assembly and the second rotating assembly and adjust the size of the first processing channel.
7. The waste management apparatus of claim 2 wherein the first conveyor means comprises a feed conveyor assembly and a first water collection member, the feed conveyor assembly having a feed end and a discharge end, the feed end of the feed conveyor assembly being connected to the first outlet, the discharge end of the feed conveyor assembly being connected to the second inlet, and the front of the feed conveyor assembly defining a first region for transporting the waste; the material conveying assembly is provided with a waste water recovery channel which is obliquely arranged, the waste water recovery channel is of a first waste water recovery structure, and the first area is communicated with the first water collecting piece through the waste water recovery channel.
8. The garbage disposal apparatus according to claim 2, wherein a second water collecting member is arranged below the second conveyor, a material input end is arranged at one end of the second conveyor, a material output end is arranged at the other end of the second conveyor, the material output end is connected with a third material inlet, the material input end is connected with a second material outlet, the second conveyor is further provided with a conveying member which can convey materials from the material input end to the material output end and stir, desalt and dehydrate the materials, a drainage layer is arranged at the bottom of the second conveyor, the drainage layer is of a second wastewater recovery structure, the drainage layer is arranged obliquely upwards along the length direction of the second conveyor, and the lower end of the drainage layer is communicated with the second water collecting member;
the secondary crushing device comprises a second material hopper, a stirring assembly, a crusher, a second transmission assembly and a second driving piece, wherein a second feed inlet is formed in the top of the second material hopper, the crusher is provided with a second discharge port, the stirring assembly is arranged in the second material hopper, the crusher is arranged below the second material hopper, a material input end is located below the crusher, the second driving piece is connected with the second transmission assembly, the stirring assembly and the crusher are all connected with the second transmission assembly, and the second driving piece can simultaneously drive the stirring assembly and the crusher to work through the second transmission assembly.
9. The waste disposal device of claim 8, wherein the second conveying device further comprises a third driving member and a conveying seat, a cavity for accommodating the materials and the conveying member is formed in the conveying seat, the conveying seat is arranged obliquely, the material input end is arranged at the lower end of the conveying seat, the material output end is arranged at the upper end of the conveying seat, the third driving member is arranged at the lower end of the conveying seat, the third driving member is connected with the conveying member, a filter screen is sleeved outside the conveying member, and the diversion layer is formed between the filter screen and the inner wall of the bottom of the conveying seat;
the cavity of the conveying seat is provided with a conveying area, a desalting area and a dehydrating area, the conveying area is connected with the material input end, the dehydrating area is connected with the material output end, and the desalting area is positioned between the conveying area and the dehydrating area; the conveying part comprises a first conveying shaft and a second conveying shaft, helical blades are arranged on the outer walls of the first conveying shaft and the second conveying shaft, one end of the first conveying shaft is connected with the second driving part, the other end of the first conveying shaft is connected with one end of the second conveying shaft, the material output end is arranged at the other end of the second conveying shaft, one end of the first conveying shaft is located in the conveying area, the other end of the first conveying shaft is located in the desalting area, the second conveying shaft is located in the dewatering area, and the desalting area is further provided with a spraying structure capable of moving back and forth in the range of the desalting area to spray water to wet garbage; the conveying seat is internally provided with a sliding assembly which can drive the spraying structure to move back and forth, and the spraying structure is connected with the sliding assembly, so that the spraying structure can spray back and forth in the conveying seat.
10. The garbage disposal apparatus according to claim 2, wherein the reaction bin device comprises a device body, a bin body for converting materials into organic fertilizers is arranged in the device body, a stirring device capable of stirring materials in the bin body is arranged in the bin body, stirring structures capable of stirring the materials at the end parts of the bin body are arranged at two ends of the interior of the bin body, and the stirring structures are connected with the stirring device.
CN202022380176.8U 2020-10-22 2020-10-22 Garbage disposal equipment Active CN213943458U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022380176.8U CN213943458U (en) 2020-10-22 2020-10-22 Garbage disposal equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022380176.8U CN213943458U (en) 2020-10-22 2020-10-22 Garbage disposal equipment

Publications (1)

Publication Number Publication Date
CN213943458U true CN213943458U (en) 2021-08-13

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022380176.8U Active CN213943458U (en) 2020-10-22 2020-10-22 Garbage disposal equipment

Country Status (1)

Country Link
CN (1) CN213943458U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114082645A (en) * 2022-01-24 2022-02-25 徐州中旺环保科技有限公司 Winnowing garbage treatment equipment

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114082645A (en) * 2022-01-24 2022-02-25 徐州中旺环保科技有限公司 Winnowing garbage treatment equipment
CN114082645B (en) * 2022-01-24 2022-04-12 徐州中旺环保科技有限公司 Winnowing garbage treatment equipment

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