CN216573459U - Automatic sorting and crushing integrated machine for organic wet garbage - Google Patents

Abstract

The utility model provides an automatic sorting and crushing integrated machine for organic wet garbage, which comprises an inlet pipe, wherein a grinding piece is arranged in the inlet pipe, the inlet pipe is communicated with a screening pipe, a screening threaded rod is arranged in the screening pipe, and a driving end of the screening threaded rod is in transmission connection with a sealing transmission mechanism; sealed transfer mechanism installs first drive gear and second drive gear that parallel arrangement set up including the closing plate in, in the closing plate, first drive gear and second drive gear transmission respectively are connected with driving motor and screening threaded rod, and the meshing has a plurality of transmission gears, one on first drive gear and the second drive gear radius direction transmission gear connection has the grinding piece screening bobbin end installs first discharge gate, and the second discharge gate is installed in the tail end intercommunication of screening pipe. The kitchen waste sorting device can distinguish wet waste from other waste in the kitchen waste, quickens the sorting of the kitchen waste and avoids environmental pollution caused by long-time accumulation and untreated rotten of the kitchen waste.

Description

Automatic sorting and crushing integrated machine for organic wet garbage

Technical Field

The utility model relates to the technical field of automatic sorting and crushing of organic wet garbage, in particular to an automatic sorting and crushing integrated machine of organic wet garbage.

Background

At present, 46 forced classification test cities of domestic garbage are arranged in China, and domestic garbage classification is carried out in Beijing and Shanghai cities. A large amount of wet garbage can be generated in the process of classifying the household garbage, and the weight of the wet garbage can account for more than 40-60% of the total weight of the garbage. The wet garbage is perishable garbage, which refers to perishable biomass domestic wastes such as food material waste, leftovers, melon peel and fruit kernel, traditional Chinese medicine dregs and the like. Besides perishable components, the wet garbage also contains certain difficultly biodegradable components such as cellulose, hemicellulose, lignin and the like.

Some large-scale cities at home and abroad explore how to convert kitchen waste into usable resources in a dispute, and the current kitchen waste treatment mode comprises the following steps: direct discharge, underground landfill, composting, feed treatment, energy treatment and the like. Need sort out wet rubbish and other rubbish before this, avoid wet rubbish to decay and produce secondary pollution, but manual sorting expense is high, and inefficiency leads to the wet rubbish corruption of unsorted easily, polluted environment.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides an automatic sorting and crushing all-in-one machine for organic wet garbage, which can distinguish wet garbage from other garbage in kitchen garbage, accelerate the sorting of the kitchen garbage, and avoid the kitchen garbage from being rotten and polluting the environment due to long-time accumulation and non-treatment.

In order to solve the technical problems, the utility model adopts the technical scheme that:

an automatic sorting and crushing integrated machine for organic wet garbage comprises an inlet pipe, wherein a grinding piece is arranged in the inlet pipe, the inlet pipe is communicated with a screening pipe, a screening threaded rod is arranged in the screening pipe, and the driving end of the screening threaded rod is in transmission connection with the output end of a sealing transmission mechanism;

sealed transfer mechanism is including sealed fixed mounting in the intraductal closing plate of screening, install parallel relative first drive gear and the second drive gear that sets up in the closing plate, first drive gear and second drive gear transmission respectively are connected with driving motor and screening threaded rod, common meshing has a plurality of transmission gears, one on first drive gear and the second drive gear's the radius direction transmission connection have the grinding piece, first discharge gate is installed to the bottom of screening pipe, the second discharge gate is installed to the tail end intercommunication of screening pipe.

Furthermore, the transmission gear comprises a first transmission wheel and a second transmission wheel which are coaxially arranged, and the transmission gear is movably connected with the sealing plate;

the first transmission wheel and the second transmission wheel are respectively meshed with the first driving gear and the second driving gear.

Furthermore, the grinding piece comprises a feeding section with a threaded structure and a grinding section with a columnar structure, and the section of a screw rod part of the feeding section is trumpet-shaped.

Furthermore, the exit of import pipe is installed and is expected the chamber, the export in material chamber that connects sets up in screening threaded rod top.

Furthermore, connect the material intracavity to install and scrape the flitch, scrape the flitch and be connected with the grinding member transmission.

Furthermore, a screening mechanism for screening wet garbage is installed at an inlet of the first discharge port, the screening mechanism comprises a vibration screening net, and two ends of the vibration screening net are respectively and fixedly provided with a clamping frame and an elastic frame;

the vibrating screen is characterized in that a blocking table is movably arranged in the elastic frame and fixedly connected with the vibrating screen, and a first reset spring is arranged between the blocking table and the elastic frame.

Furthermore, the clamping frame is clamped with a vibration part movably arranged below the sealing transmission mechanism, and the top surface of the vibration part is provided with a vibration gear;

the driving motor is connected with a third gear which is horizontally installed in the screening pipe in a transmission mode, the third gear is connected with the vibration gear in a transmission mode through a transmission piece, and a second reset spring is installed on one side, close to the driving motor, of the vibration piece.

Further, the third gear comprises an eccentric gear or a cam structure.

Furthermore, the top surface of the vibration part is provided with a connecting clamping groove for installing the sealed transmission mechanism, the vibration gear and the connecting clamping groove are respectively arranged on two sides of the sealed transmission mechanism, and the vibration gear is located between the vibration gear and the driving motor.

Furthermore, the screening threaded rod is composed of long-diameter threaded sections and short-diameter threaded sections which are alternately arranged.

The utility model has the advantages and positive effects that:

grinding the piece through the installation in the inlet tube, the material feeding section that grinds the piece pushes away rubbish to grind the section, grind the section and smash wet rubbish, wet rubbish falls into the screening pipe after being smashed, screening mechanism is installed to the lower extreme of screening pipe, the screening threaded rod gets rid of rubbish on screening mechanism, screening mechanism sieves out wet rubbish, discharge the wet rubbish after being ground from first discharge gate, the tail end of screening pipe is transported to the unable kibbling wet rubbish that grinds of screening threaded rod, discharge from the second discharge gate, this all-in-one can distinguish wet rubbish and other rubbish in the kitchen garbage, accelerate kitchen garbage's letter sorting, avoid kitchen garbage because of piling up the unprocessed production rotten for a long time, cause environmental pollution.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a front full sectional view of an integrated machine for automatically sorting and crushing organic wet garbage according to the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is an enlarged schematic view at B of FIG. 1;

FIG. 4 is a schematic view of the assembly of the vibrating member and the sieving mechanism in the integrated machine for automatically sorting and crushing organic wet garbage according to the present invention;

in the figure: 1. an inlet pipe; 101. a grinding member; 1011. a feeding section; 1012. grinding section; 2. screening the tubes; 201. screening the threaded rod; 3. a second discharge port; 4. a first discharge port; 5. vibrating and screening the net; 501. an elastic frame; 5011. blocking the platform; 5012. a first return spring; 502. clamping the frame; 6. a vibrating member; 601. a vibration gear; 6011. a transfer member; 602. a second return spring; 7. a drive motor; 701. a first drive gear; 702. a second drive gear; 703. a third gear; 7031. a second reversing bevel gear; 8. a sealed transfer mechanism; 801. a sealing plate; 802. a transfer gear; 9. a receiving cavity; 901. and a scraping plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model provides an automatic sorting and crushing integrated machine for organic wet garbage, which comprises an inlet pipe 1 for placing garbage, wherein the garbage is placed into the integrated machine (the wet garbage doped with part of other garbage) through the inlet pipe 1, a grinding piece 101 is coaxially arranged in the inlet pipe 1, the grinding piece 101 comprises a feeding section 1011 with a threaded structure and a grinding section 1012 with a cylindrical structure, and meanwhile, irregular pointed protrusions convenient for grinding are arranged on the inner wall of the inlet pipe 1.

Grinding member 101 transmission is connected with driving motor 7, driving motor 7 makes grinding member 101 rotate along the axis, rubbish is put into the back from import pipe 1, the rubbish that the pay-off section 1011 will put into is transported to the outer wall of grinding section 1012, and press rubbish into the clearance between grinding section 1012 and the import pipe 1 inner wall, grinding section 1012 lateral wall pushes away rubbish to the inner wall of import pipe 1, grind rubbish in unison (the shape and the size of rubbish are unset, pay-off section 1011 can be with the great and can produce the rubbish of deformation and directly push into the clearance in, avoid rubbish to pile up in import pipe 1, the plastic bag, beverage box and metal tableware can't be smashed, convenient follow-up screening is come out.

Garbage is put in from the upper end of the inlet pipe 1, is ground by the grinding member 101, and is discharged from the lower part of the grinding member 101, and the ground garbage is discharged from the inlet pipe 1 by the gravity of the garbage. In order to increase the grinding speed of the garbage, the cross section of the screw body of the feeding section 1011 is flared, and the open end of the flared shape is arranged toward the grinding section 1012. The in-process of conveying rubbish of material feeding section 1011, the screw rod of material feeding section 1011 and the clearance of import pipe 1 inner wall reduce gradually, carry out preliminary grinding with the object of great volume in advance on import pipe 1 inner wall, reduce the rubbish volume, make things convenient for follow-up rubbish to be impressed and grind section 1012 and carry out the secondary grinding.

Taking kitchen garbage as an example: after the vegetable leaves are treated by people, the garbage is habitually held by a plastic bag and then discarded, after the bag filled with the garbage is placed in the inlet pipe 1, the grinding section 1012 makes the garbage bag rub against the inner wall of the inlet pipe 1 in the process of conveying the garbage bag, the garbage bag is damaged, the articles in the garbage bag fall off, and the grinding section 1012 is convenient to grind; or the beverage is gradually flattened, so that the beverage box is conveniently pushed between the grinding section 1012 and the inlet pipe 1, and the phenomenon that the beverage box or other articles with large diameters are accumulated at the connecting part of the feeding section 1011 and the grinding section 1012 for a long time to influence the grinding speed is avoided.

Import pipe 1 intercommunication is installed and is used for sieving the screening pipe 2 of rubbish, and the rubbish that is ground sieves in screening pipe 2, sieves wet rubbish and other rubbish and separates. A screening threaded rod 201 for transporting garbage is coaxially arranged in the screening pipe 2. In order to conveniently throw ground garbage onto the screening threaded rod 201, the material receiving cavity 9 is communicated and installed at the discharge port of the inlet pipe 1.

The export of connecing material chamber 9 sets up towards screening threaded rod 201 middle section position, connects to install in the material chamber 9 and scrapes flitch 901, scrapes flitch 901 and a 101 bottom fixed connection that grind, and grind 101 drives and scrapes flitch 901 and rotate together, will connect the rubbish in the material chamber 9 to release from connecing the export of material chamber 9, and rubbish falls to screening threaded rod 201 and is close to the position in middle section on, can reduce rubbish and manage 2 accumulational probability at the screening.

Preferably, the inlet pipe 1 is perpendicular to the screening pipe 2, and the inlet pipe 1 is perpendicular to the horizontal plane, and the ground garbage directly falls into the receiving cavity 9 due to gravity, and falls onto the screening threaded rod 201 from the receiving cavity 9. When screening threaded rod 201 transported rubbish, do the centrifugation and rotate, can get rid of rubbish on the inner wall of screening pipe 2.

The bottom end of the screening pipe 2 is provided with a first discharge hole 4 (the side wall of the screening pipe 2 facing the ground is provided with the first discharge hole 4 communicated with the outside), and the first discharge hole 4 is used for discharging wet garbage (the wet garbage is easy to grind and crush, and the wet garbage is quickly separated from other garbage by a screening method).

Fixed mounting of the import department of first discharge gate 4 has screening mechanism, screening mechanism links up the setting with the inner wall of screening pipe 2, on screening threaded rod 201 got rid of rubbish to the inner wall of screening pipe 2, sieve rubbish through screening mechanism to the rubbish, and separate wet rubbish and the rubbish sieve of other classification, leave difficult non-wet rubbish by grinding such as plastic bag, beverage box and metal tableware, non-wet rubbish is discharged through other mouths, wet rubbish is discharged from first discharge gate 4.

As shown in fig. 3, the drive end of screening threaded rod 201 is connected with the output of sealed transfer mechanism 8, the input of sealed transfer mechanism 8 is connected with driving motor 7 transmission, sealed transfer mechanism 8 is including the closing plate 801, the sealed fixed mounting of closing plate 801 is in screening pipe 2, separate driving motor 7 and screening threaded rod 201, avoid rubbish to enter into driving motor 7 at the screening in-process (other transmission connecting pieces are still installed to driving motor 7's output), influence all-in-one normal work.

The inside seal of closing plate 801 is installed first drive gear 701 and second drive gear 702 of mutual parallel arrangement, first drive gear 701 is connected with driving motor 7 transmission, second drive gear 702 and the drive tube fixed connection of screening threaded rod 201, the meshing has a plurality of transmission gears 802 that the circumference was arranged between first drive gear 701 and the second drive gear 702, a plurality of transmission gears 802 pass through bearing and closing plate 801 swing joint, transmission gears 802 all install on the radius direction of first drive gear 701, and the circumference is arranged. The transmission gears 802 are bevel gears, and a plurality of bevel gears are simultaneously meshed with the first driving gear 701 and the second driving gear 702, so that the working stability of the first driving gear 701 and the second driving gear 702 can be improved.

Preferably, the transmission gear 802 includes a first transmission wheel and a second transmission wheel coaxially disposed, the first transmission wheel is engaged with the first driving gear 701, the second transmission wheel is engaged with the second driving gear 702, so as to facilitate the transmission gear 802 to be engaged with the first driving gear 701 and the second driving gear 702 of any size, and to facilitate the control of the rotation speed of the second driving gear 702 and the transmission gear 802.

A transmission gear 802 (named as a grinding gear) which is arranged in the transmission gear 802 near the inlet pipe 1 and is coaxial with the inlet pipe 1 is in transmission connection with the grinding piece 101, and the grinding gear is used for driving the grinding piece 101 to rotate so as to enable the grinding piece 101 to rotate along the axis. The grinding gear is fixedly connected with the bottom surface of the grinding part 101 through a connecting shaft, the connecting shaft can penetrate through the material receiving cavity 9, the connecting shaft is movably connected with the material receiving cavity 9 in a sealing mode, the scraping plate 901 is fixedly installed on the connecting shaft, and the grinding gear drives the scraping plate 901 and the grinding part 101 to rotate together.

As shown in fig. 2 and 4, the sieving mechanism includes a vibrating sieving net 5 driven by a driving motor 7 so as to be horizontally reciprocated. The shale shaker divides net 5 during operation, will fall to sieve the rubbish on shale shaker divides net 5, because the plastic bag, metal tableware and beverage box are difficult for being ground crushing, consequently the screening in-process can not pass the mesh on shale shaker divides net 5, can be taken away from first discharge gate 4 by screening threaded rod 201, screening pipe 2 is kept away from driving motor 7 one end intercommunication and is installed second discharge gate 3, the plastic bag, metal tableware and beverage box etc. are difficult for being discharged from second discharge gate 3 by kibbling rubbish.

Preferably, the shale shaker divides net 5 to be the circular arc structure, and its radian is corresponding with the radian of screening 2 inner walls of pipe, avoids influencing screening threaded rod 201 and normally rotates, also conveniently sieves threaded rod 201 and transports away the rubbish on the shale shaker divides net 5. The both ends of shale shaker branch net 5 are fixed mounting respectively have joint frame 502 and elasticity frame 501, and joint frame 502 is used for with the clamping of vibrations mechanism, and vibrations mechanism drives 5 horizontal reciprocating motion of shale shaker branch net through joint frame 502.

The elastic frame 501 is fixed on the inner wall of the screening pipe 2, the blocking table 5011 is movably installed in the elastic frame 501, the blocking table 5011 is fixedly connected with the vibration screening net 5, and a first reset spring 5012 is installed between the blocking table 5011 and the elastic frame 501. When the sieving screen 5 moves horizontally leftward, the first return spring 5012 is compressed, and when the sieving screen 5 moves horizontally rightward, the first return spring 5012 is restored to its original state.

The vibration mechanism comprises a vibration part 6 with an arc structure, and the radian of the vibration part 6 corresponds to the inner wall of the screening pipe 2, so that the vibration screening net 5 is driven to horizontally reciprocate. The top surface of the vibrating piece 6 is horizontally provided with a vibrating gear 601 (after the vibrating piece 6 is arranged in the screening pipe 2, the vibrating gear 601 is in a horizontal position), the output end of the driving motor 7 is connected with a third gear 703 in a transmission manner, and the third gear 703 is horizontally arranged in the screening pipe 2 (between the driving motor 7 and the sealing transmission mechanism 8).

As shown in fig. 3, a connection method of the third gear 703: the output end of the driving motor 7 is fixedly connected with a first reversing bevel gear, a second reversing bevel gear 7031 which is horizontally arranged is meshed outside the first reversing bevel gear, and a third gear 703 is coaxially and fixedly connected with the second reversing bevel gear 7031, so that the third gear 703 rotates.

The third gear 703 is in transmission connection with the vibration gear 601 through a transmission member 6011, preferably, the third gear 703 includes an eccentric gear or a cam structure, and the transmission member 6011 may be a transmission chain or a transmission belt. The driving motor 7 rotates the third gear 703 through the second reversing bevel gear 7031, the third vibration gear 601 horizontally reciprocates the vibration gear 601 through the transmission element 6011, and the vibration gear 601 horizontally reciprocates together with the vibrating screen 5.

For easy to assemble shale shaker divides net 5, will shake 6 activity joints in sealed transfer mechanism 8 below, the top surface that shakes 6 has seted up connecting groove, is used for installation joint frame 502 in the connecting groove, and connecting groove sets up in sealed transfer mechanism 8 and is close to screening threaded rod 201 one side, and vibrations gear 601 sets up and is close to driving motor 7 one side with sealed transfer mechanism 8. And a second return spring 602 is arranged on one side of the vibration piece 6 far away from the connecting clamping groove.

Preferably, when second reset spring 602 is in normal position, connecting slot is located sealed transfer mechanism 8's right side, after second reset spring 602 is compressed, connecting slot is located sealed transfer mechanism 8 under, when can make things convenient for the installation of shale shaker branch net 5, can also avoid joint frame 502 to drop (shale shaker branch net 5 horizontal reciprocating motion once, sealed transfer mechanism 8 is just once in the connecting slot with joint frame 502 impresses, reduce the probability that joint frame 502 drops in the joint frame 502).

Screening threaded rod 201 including long diameter screw thread section and minor diameter screw thread section, long diameter screw thread section and minor diameter screw thread section set up in turn, make screening threaded rod 201 form one section screw thread and the inner wall of screening pipe 2 and contact closely, one section screw thread does not with the condition of screening pipe 2 contact, in order to slow down the fortune material speed of screening threaded rod 201, nevertheless do not influence screening threaded rod 201 and get rid of rubbish to the efficiency on the algorithm inside pipe wall, effectual increase rubbish stops the time on the shale shaker divides net 5, make the wet rubbish of sieve that shale shaker divides net 5 can be abundant, and discharge from first discharge gate 4.

Vibration screening net 5 can horizontal reciprocating motion, can remove the unable large granule rubbish of screening in the minor diameter screw thread section to long diameter screw thread section position department, and the big granule rubbish can be extruded and transported in the long diameter screw thread section, increases the screening efficiency of rubbish, avoids minor diameter screw thread section department to appear rubbish simultaneously and piles up.

The working principle and the working process of the utility model are as follows:

the machine is placed in the position shown in fig. 1, the drive motor 7 is turned on, and the drive motor 7 rotates the first drive tooth and the third gear 703.

The first driving gear enables the grinding piece 101 and the scraping plate 901 to rotate together through the transmission gear 802, wet garbage wrapped by plastic bags is placed in the grinding piece 101 from the upper portion of the inlet pipe 1, the feeding section 1011 of the threaded structure is arranged on the upper portion of the grinding piece 101, the garbage is conveyed to the grinding section 1012 of the grinding piece 101, meanwhile, the plastic bags rub against the inner wall of the inlet pipe 1, the garbage in the plastic bags is discharged, the feeding section 1011 presses the garbage between the grinding section 1012 and the inner wall of the inlet pipe 1, the garbage is ground (the wet garbage is easily ground and crushed, other garbage is not easily ground and crushed, such as plastic bags, beverage boxes, metal tableware and the like), the ground garbage falls into the material receiving cavity 9, and the scraping plate 901 pushes out the garbage in the material receiving cavity 9, so that the garbage falls onto the middle portion of the screening threaded rod 201.

The transmission gear 802 enables the screening threaded rod 201 to rotate forwards through the second driving gear 702, the screening threaded rod 201 rotates centrifugally, and garbage falling on the screening threaded rod 201 is thrown onto the inner wall of the screening pipe 2 and the vibration screening net 5. The driving motor 7 also drives the third gear 703 to rotate, the third gear 703 drives the vibrating member 6 to horizontally reciprocate through the vibrating gear 601 and the transmission member 6011, and the vibrating member 6 enables the vibrating screening net 5 to horizontally reciprocate when the barrel passes through the clamping frame 502.

When the vibrating element 6 carries the vibrating screen 5 to move leftwards together, the first return spring 5012 and the second return spring 602 are compressed simultaneously, on the contrary, the first return spring 5012 and the second return spring 602 restore to the original state simultaneously, wet ground garbage is screened out in the horizontal reciprocating process of the vibrating screen 5 and is discharged from the first discharge port 4, and the garbage which is not ground is carried away from the vibrating screen 5 by the screening threaded rod 201 and is discharged from the second discharge port 3.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention should be covered by the present patent.

Claims (10)

1. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized by comprising an inlet pipe (1), wherein a grinding part (101) is installed in the inlet pipe (1), a screening pipe (2) is installed in the inlet pipe (1) in a communicated manner, a screening threaded rod (201) is installed in the screening pipe (2), and the driving end of the screening threaded rod (201) is in transmission connection with the output end of a sealing transmission mechanism (8);

sealed transfer mechanism (8) are including closing plate (801) of fixed mounting in screening pipe (2), install parallel relative first drive gear (701) and second drive gear (702) that set up in closing plate (801), first drive gear (701) and second drive gear (702) transmission respectively are connected with driving motor (7) and screening threaded rod (201), the footpath of first drive gear (701) and second drive gear (702) is engaged with transmission gear (802) that a plurality of circumferences were arranged jointly, one transmission gear (802) transmission is connected with grinding member (101), first discharge gate (4) are installed to the bottom of screening pipe (2), second discharge gate (3) are installed to the tail end intercommunication of screening pipe (2).

2. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that the transmission gear (802) comprises a first transmission wheel and a second transmission wheel which are coaxially arranged, and the transmission gear (802) is movably connected with the sealing plate (801);

the first transmission wheel and the second transmission wheel are respectively meshed with a first driving gear (701) and a second driving gear (702).

3. An all-in-one machine for automatically sorting and crushing organic wet garbage according to claim 1, wherein the grinding member (101) comprises a feeding section (1011) with a screw structure and a grinding section (1012) with a cylindrical structure, and the screw section of the feeding section (1011) has a horn structure with an opening facing the grinding section (1012).

4. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that a material receiving cavity (9) is installed at an outlet of the inlet pipe (1), and an outlet of the material receiving cavity (9) is arranged above the screening threaded rod (201).

5. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that a material scraping plate (901) is installed in the material receiving cavity (9), and the material scraping plate (901) is fixedly connected with the grinding member (101).

6. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that a screening mechanism for screening wet garbage is installed at an inlet of the first discharge port (4), the screening mechanism comprises a vibrating screening net (5), and two ends of the vibrating screening net (5) are respectively and fixedly provided with a clamping frame (502) and an elastic frame (501);

the utility model discloses a vibration screening machine, including elastic frame (501), keep off platform (5011) movable mounting in elastic frame (501), keep off platform (5011) and vibration screening net (5) fixed connection, keep off and install first reset spring (5012) between platform (5011) and elastic frame (501).

7. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that a vibration part (6) movably arranged below a sealing transmission mechanism (8) is clamped on the clamping frame (502), and a vibration gear (601) is arranged on the top surface of the vibration part (6);

the driving motor (7) is connected with a third gear (703) which is horizontally arranged in the screening pipe (2) in a transmission manner, the third gear (703) is connected with the vibration gear (601) in a transmission manner through a transmission piece (6011), and one side, close to the driving motor (7), of the vibration piece (6) is provided with a second return spring (602).

8. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that the third gear (703) comprises an eccentric gear or a cam structure.

9. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that a connecting clamping groove for installing a sealing transmission mechanism (8) is formed in the top surface of the vibrating member (6), the vibrating gear (601) and the connecting clamping groove are respectively arranged on two sides of the sealing transmission mechanism (8), and the vibrating gear (601) is located between the vibrating gear (601) and the driving motor (7).

10. The all-in-one machine for automatically sorting and crushing organic wet garbage is characterized in that the screening threaded rod (201) is composed of long-diameter threaded sections and short-diameter threaded sections which are alternately arranged.

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