CN117772752A

CN117772752A - Domestic garbage density separation device

Info

Publication number: CN117772752A
Application number: CN202410202738.XA
Authority: CN
Inventors: 刘畅; 黄裕国; 黄寿奇; 杨定优
Original assignee: Shenzhen Huahui Smart Waste Technology Co ltd
Current assignee: Shenzhen Huahui Smart Waste Technology Co ltd
Priority date: 2024-02-23
Filing date: 2024-02-23
Publication date: 2024-03-29

Abstract

The utility model discloses a household garbage density separation device, and relates to the technical field of garbage separation. Including the organism subassembly, be provided with drive assembly and impact assembly on the organism subassembly, be provided with on the drive assembly and break up the subassembly, drive assembly includes the main shaft, fixedly connected with master gear on the main shaft, still rotate the axle that is connected with drive gear on the shell, main shaft and drive gear meshing, drive gear and connection cross axle meshing break up the subassembly and break up the outer loop including breaking up the cam, break up cam fixed connection on the main shaft, break up outer loop sliding connection on the connection cross axle, break up sliding connection has the multiunit slide bar of breaking up on the outer loop, impact assembly includes multiunit impact long connecting rod, impact long connecting rod's first end rotates to be connected on the upper bracket, it is connected with the connection cross frame to rotate on the second end of impact long connecting rod, fixedly connected with impact connecting plate on the connection cross frame, fixedly connected with multiunit impact rod on the impact connecting plate.

Description

Domestic garbage density separation device

Technical Field

The utility model discloses a household garbage density separation device, and relates to the technical field of garbage separation.

Background

With the growth of urban population and the change of life style, the amount and diversity of household garbage are increasing. The traditional garbage disposal method often faces the problems of low efficiency, resource waste, environmental impact and the like. Density flotation separation technology has become particularly important for more efficient treatment and recovery of household waste.

The density separation technology can effectively separate the household garbage according to the density, and improves the garbage treatment efficiency. This helps to quickly and accurately sort the garbage, reducing processing time and waste of resources. Density flotation is the separation of waste by adjusting the density of the liquid. Different densities of waste will exhibit different buoyancy forces in the liquid, thereby separating them.

The utility model patent with publication number of CN210411113U discloses a differential density separation type household garbage sorting device, which comprises a sediment tank, a stirrer and an underwater conveyor, wherein after garbage which is pretreated into paste and fine particles is further stirred, garbage with density greater than water is immersed into the bottom of the sediment tank, and household garbage with density less than water is suspended on the water surface or semi-suspended in the water, so that household garbage with different densities is sorted.

When the flotation separation is carried out in the above patent, a part of substances with high density still mix or are stuck in substances with low density after being stirred, and float on the surface of liquid, so that the separation is not thorough, and therefore, a domestic garbage separation device capable of improving the separation quality and separating adhered garbage is needed.

Disclosure of Invention

In order to solve the problems, the utility model provides the following technical scheme: the utility model provides a domestic waste density separator, includes the organism subassembly, be provided with drive assembly and impact assembly on the organism subassembly, be provided with the subassembly of breaking up on the drive assembly, the organism subassembly includes the shell, fixedly connected with lower carriage on the shell, fixedly connected with upper bracket on the lower carriage, drive assembly includes the main shaft, fixedly connected with master gear on the main shaft, the main shaft rotates to be connected with drive gear's axle on the shell, it is connected with the connection cross axle to rotate on the lower carriage, main shaft and drive gear meshing, drive gear and connection cross axle meshing, break up the subassembly including breaking up the cam and breaking up the outer loop, break up outer loop sliding connection on the connection cross axle, the sliding connection has the multiunit slide bar of breaking up on the outer loop, impact assembly includes multiunit impact long connecting rod, impact long connecting rod's first end rotates to be connected on the upper bracket, impact long connecting rod's second end is connected with the connection cross frame, fixedly connected with impact connecting plate on the connection cross frame, fixedly connected with multiunit impact connecting plate on the impact connecting plate.

Preferably, the shell is fixedly connected with a lower conveyor belt, a feeding frame and a filtering inclined plate, the feeding frame is fixedly connected with a first end of a conveying pipe, a second end of the conveying pipe is fixedly connected with the filtering inclined plate, a pump for controlling liquid conveying is arranged on the conveying pipe, a multi-layer filter screen is arranged on the filtering inclined plate, and the filtering inclined plate is fixedly connected with an upper conveyor belt.

Preferably, the filter sloping plate is provided with a plurality of layers of inclined filter screens, so that separated garbage can slide down and collect liquid, and the liquid can flow circularly.

Preferably, the output shaft of the motor is fixedly connected to the main shaft, a plurality of groups of toothed rings are arranged on the lower support, a plurality of groups of main shafts are arranged on the shell, a plurality of groups of scattering assemblies are driven by the plurality of groups of main shafts and the toothed rings, and power is transmitted between the main shafts through chains.

Preferably, each breaking up sliding rod is fixedly connected with a breaking up contact block, the breaking up contact blocks are provided with cambered surfaces, the cambered surfaces are always in contact with the breaking up cams, the breaking up contact blocks are fixedly connected with a first end of a breaking up spring, a second end of the breaking up spring is fixedly connected to a breaking up connecting seat, the breaking up connecting seat is fixedly connected to a breaking up outer ring, a plurality of groups of breaking up cams are arranged on a main shaft, and a plurality of groups of breaking up outer rings are arranged on a connecting transverse shaft.

Preferably, the first end of the impact connecting shaft is fixedly connected to the impact long connecting rod, the impact connecting shaft is rotationally connected to the upper bracket, the impact cam is rotationally connected to the second end of the impact connecting shaft, the first end of the impact connecting ring is rotationally connected to the impact cam, the second end of the impact connecting ring is rotationally and internally connected to the first end of the impact short connecting rod, and the second end of the impact short connecting rod is fixedly connected to the other impact connecting shaft.

Preferably, one side of the impact cam, which is far away from the connecting transverse frame, is fixedly connected with an impact driving shaft, a plurality of groups of impact driving shafts are connected through material strips, and power transmission between the impact driving shafts and the main shaft is realized.

Preferably, the first end of the impact connection ring is a circular ring, and the second end is a long connecting rod.

The utility model provides a household garbage density separation device, which has the following beneficial effects:

1. according to the utility model, the impact rod reciprocates to impact the garbage floating on the surface of the liquid, so that other garbage adhered on the surface of the garbage is separated under the combined action of the impact force of the impact rod and the impact force generated by the flowing of the liquid, and the separation quality is improved.

2. According to the utility model, the scattering slide bar is reciprocated and extended on the scattering outer ring to drive the garbage at the bottom to stir and scatter in the shell, so that the garbage is separated according to the density of the matters.

3. According to the utility model, the garbage at the bottom is repeatedly scattered by arranging the plurality of groups of scattering components, so that the garbage is fully separated, the garbage separation quality is improved, valuable materials can be more accurately identified and recovered, and the resources are utilized to the greatest extent.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a side view of the present utility model;

FIG. 4 is a top view of the present utility model;

FIG. 5 is a schematic view of the outer ring of the present utility model;

FIG. 6 is an enlarged view of a partial structure at A in FIG. 5;

FIG. 7 is a schematic view of a breaking assembly according to the present utility model;

FIG. 8 is a schematic view of the structure of the upper bracket of the present utility model;

FIG. 9 is an enlarged view of a part of the structure at B in FIG. 8;

in the figure: 1-a drive assembly; 2-breaking up the assembly; 3-an impact assembly; 4-a body assembly; 101-an electric motor; 102-a main shaft; 103-a main gear; 104-a transmission gear; 105-tooth ring; 106-connecting a horizontal axis; 201-break up cam; 202-scattering the sliding rod; 203-scattering the connecting seat; 204-breaking up the spring; 205-breaking up the contact block; 206-break up the outer ring; 301-connecting a transverse frame; 302-impact connection plate; 303-impacting a long connecting rod; 304-an impact connection shaft; 305-impact cam; 306-an impact connection ring; 307-impact short link; 308-impacting the drive shaft; 309-an impact bar; 401-a housing; 402-lower conveyor belt; 403-upper conveyor belt; 404-conveying pipe; 405-feeding frame; 406-filtering sloping plates; 407-lower rack; 408-upper rack.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings. Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1 to 9, the present utility model provides a technical solution: the utility model provides a domestic waste density separator, including organism subassembly 4, be provided with drive assembly 1 and impact assembly 3 on the organism subassembly 4, be provided with on the drive assembly 1 and break up subassembly 2, organism subassembly 4 includes shell 401, fixedly connected with lower carriage 407 on the shell 401, fixedly connected with upper bracket 408 on the lower carriage 407, drive assembly 1 includes main shaft 102, fixedly connected with master gear 103 on the main shaft 102, main shaft 102 rotates to be connected with the axle of drive gear 104 on the shell 401, be connected with connection cross axle 106 on the lower carriage 407 in a rotating way, main shaft 102 meshes with drive gear 104, drive gear 104 meshes with connection cross axle 106, break up subassembly 2 includes break up cam 201 and break up outer loop 206, break up cam 201 fixed connection is on main shaft 102, break up outer loop 206 sliding connection has the multiunit to break up slide bar 202, impact assembly 3 includes multiunit impact long connecting rod, the first end of impact long connecting rod 303 rotates to be connected with on upper bracket 408, the second end of impact long connecting rod 303 rotates to be connected with link 301, link 301 meshes with drive gear 104, break up cam 201 meshes with connection cross axle 106, break up cam 201 is connected with connection cross axle 302 is fixed with impact connecting plate 309.

The shell 401 is fixedly connected with a lower conveyor belt 402, a feeding frame 405 and a filtering inclined plate 406, the feeding frame 405 is fixedly connected with a first end of a conveying pipe 404, a second end of the conveying pipe 404 is fixedly connected to the filtering inclined plate 406, a pump for controlling liquid conveying is arranged on the conveying pipe 404, a plurality of layers of filter screens are arranged on the filtering inclined plate 406, and the filtering inclined plate 406 is fixedly connected with an upper conveyor belt 403.

In use, as shown in figures 1 to 4, the liquid is pumped through the pump on the pipe 404 and is forced to impact the waste retained on the feeding frame 405 so that it follows the liquid into the housing 401 and causes the liquid to circulate. The lower conveyor belt 402 conveys the substances with larger bottom density, the upper conveyor belt 403 conveys the substances with smaller density, and the characteristics of the substance density can improve the treatment efficiency of garbage, help to quickly and accurately classify the garbage, reduce the treatment time and the resource waste and quickly recycle valuable materials.

The filter inclined plate 406 is provided with a plurality of layers of inclined filter screens, so that separated garbage can slide down and collect liquid, and the liquid can flow circularly.

The household garbage is thrown into the shell 401 through the feeding frame 405, liquid is conveyed to the feeding frame 405 through the conveying pipe 404, garbage on the feeding frame 405 is impacted, the garbage is prevented from being stagnated on the feeding frame 405, meanwhile, the liquid circulation is driven, garbage in the shell 401 is separated according to density, garbage floating on the surface of the liquid flows along with the liquid, enters the filtering inclined plate 406, slides onto the upper conveying belt 403 along the filtering inclined plate 406, in the process, the liquid is filtered in a multi-layer manner through the filtering inclined plate 406, the garbage is prevented from being conveyed out through the upper conveying belt 403, the garbage which is deposited at the bottom of the shell 401 is gradually moved through the lower conveying belt 402, and is scattered through the plurality of groups of scattering components 2 and is conveyed out.

The main shaft 102 is fixedly connected with an output shaft of the motor 101, the lower bracket 407 is provided with a plurality of groups of toothed rings 105, the shell 401 is provided with a plurality of groups of main shafts 102, the plurality of groups of scattering assemblies 2 are driven by the plurality of groups of main shafts 102 and the toothed rings 105, and power is transmitted between the groups of main shafts 102 through a chain.

As shown in fig. 5 and 6, in use, the motor 101 is started, the motor 101 drives the main shaft 102 to rotate, then the plurality of groups of main shafts 102 are driven by chains to rotate together, the main shaft 102 drives the main gear 103 to rotate, because the main gear 103 is meshed with the transmission gear 104, the main gear 103 drives the transmission gear 104 to rotate on the housing 401, because the transmission gear 104 is meshed with the toothed ring 105, the transmission gear 104 drives the toothed ring 105 to rotate on the lower bracket 407, the feeding frame 405 drives the scattering outer ring 206 to rotate along with the toothed ring 105 through the plurality of groups of connecting transverse shafts 106, and the main shaft 102 drives the plurality of groups of scattering cams 201 to rotate when rotating, and the main shaft 102 also drives the impact driving shaft 308 to rotate through the chains.

Each breaking slide bar 202 is fixedly connected with a breaking contact block 205, the breaking contact blocks 205 are provided with cambered surfaces, the cambered surfaces are always in contact with the breaking cams 201, the breaking contact blocks 205 are fixedly connected with first ends of breaking springs 204, second ends of the breaking springs 204 are fixedly connected to the breaking connecting seats 203, the breaking connecting seats 203 are fixedly connected to the breaking outer rings 206, the main shaft 102 is provided with a plurality of groups of breaking cams 201, and the connecting cross shaft 106 is provided with a plurality of groups of breaking outer rings 206.

As shown in fig. 7, when the spindle 102 drives the break-up cam 201 to rotate, the toothed ring 105 drives the break-up outer ring 206 to rotate through the connecting transverse shaft 106, and the break-up outer ring 206 rotates in the opposite direction to the rotation direction of the break-up cam 201, when the break-up cam 201 rotates, the break-up cam 201 pushes the break-up contact blocks 205 one by one, when the break-up contact blocks 205 are pushed to move in the direction away from the spindle 102, the break-up contact blocks 205 push the break-up slide bars 202 to slide out of the break-up outer ring 206, namely, the distance that the break-up slide bars 202 extend out of the break-up outer ring 206 becomes longer, when the extend distance of the break-up slide bars 202 reaches the maximum, the break-up slide bars 202 start to retract into the break-up outer ring 206 through the rotation of the break-up cam 201, namely, slide towards the direction of the spindle 102, and accordingly reciprocate, and the movement track of the break-up outer ring 206 symmetrical to the break-up outer ring 206 is opposite.

Because the rotation directions of the breaking cams 201 and the breaking outer ring 206 are opposite, and the rotation speeds are different, namely, the rotation speed of the breaking cams 201 is high, and the rotation speed of the breaking outer ring 206 is low, the breaking cams 201 push each breaking slide bar 202 to stretch out of the breaking outer ring 206 and retract the breaking outer ring 206 one by one, and then the breaking slide bars 202 are driven to rotate around the main shaft 102 through the rotation of the breaking outer ring 206, so that garbage in the shell 401 is driven to move through the continuously stretched breaking slide bars 202, the garbage is stirred in the shell 401, and therefore the garbage is broken, and after some garbage passes through the breaking outer ring 206 corresponding to the breaking slide bars 202 through the pushing of the breaking slide bars 202, the garbage can be pushed to the other side of the breaking outer ring 206 from the lower side through the other breaking slide bars 202, and repeated breaking is carried out. In the state shown in fig. 7, the outer breaking ring 206 rotates clockwise, the breaking slide bar 202 continuously extending drives the waste on the left side of the outer breaking ring 206 to break, the waste on the right side of the outer breaking ring 206 drives the waste to rotate along with the outer breaking ring 206 through the extending breaking slide bar 202, the waste returns to the left side through a gap between the lower part of the outer breaking ring 206 and the lower conveying belt 402, if the waste below the outer breaking ring 206 is not brought to the left side by the breaking slide bar 202, the waste is conveyed to the left side of the next set of the outer breaking ring 206 through the lower conveying belt 402, and accordingly, the waste in the outer casing 401 is repeatedly broken through the plurality of sets of the outer breaking rings 206 and the breaking slide bar 202, so that various substances in the waste can be fully separated, and the separating quality is improved.

The first end of the impact connecting shaft 304 is fixedly connected to the impact long connecting rod 303, the impact connecting shaft 304 is rotatably connected to the upper bracket 408, the impact cam 305 is rotatably connected to the second end of the impact connecting shaft 304, the first end of the impact connecting ring 306 is rotatably connected to the impact cam 305, the second end of the impact connecting ring 306 is rotatably and internally connected to the first end of the impact short connecting rod 307, and the second end of the impact short connecting rod 307 is fixedly connected to the other impact connecting shaft 304.

The impact cam 305 is fixedly connected with an impact driving shaft 308 at a side far away from the connecting transverse frame 301, and is connected with a plurality of groups of impact driving shafts 308 through material strips, and power transmission between the impact driving shafts 308 and the main shaft 102.

The impact connection ring 306 has a circular ring at a first end and a long connecting rod at a second end.

As shown in fig. 9, the main shaft 102 drives the impact driving shaft 308 to rotate through a chain, the impact driving shaft 308 drives the impact cam 305 to rotate, when the impact driving shaft 308 drives the impact cam 305 to rotate, the impact cam 305 does not drive the first end of the impact connecting ring 306 to rotate, but because the axle center of the impact cam 305 is different from the rotation axle center of the impact cam 305, the impact cam 305 drives the first end of the impact connecting ring 306 to swing, thereby driving the impact short connecting rod 307 to swing left and right through the second end of the impact connecting ring 306, further driving the impact long connecting rod 303 to swing on the upper bracket through the impact connecting shaft 304 far away from the impact cam 305, because the impact connecting shaft 304 is in rotary connection with the impact cam 305, when the impact driving shaft 308 drives the impact cam 305 to rotate, the impact cam 305 does not drive the impact connecting shaft 304 to rotate, and when the impact short connecting rod 307 swings, the connecting transverse frame 301 and the two impact long connecting rods 303 do not form one hundred eighty degrees, so that the impact short connecting rod 307 can drive the connecting rod 301, the impact connecting rod 302 and the other impact long connecting rod 303 to swing left and right through driving the impact long connecting rod 303 to swing left and right, the swing track is a swing, further separating liquid from the impact rod 309 through the upper rod 309, and further separating the impact liquid from the impact rod, and garbage from the garbage under the surface, thereby further separating the impact rod from the surface.

The present utility model is not limited to the above-described embodiments, and various modifications are possible within the scope of the present utility model without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims

1. The utility model provides a domestic waste density separator, includes organism subassembly (4), is provided with drive assembly (1) and impact assembly (3) on organism subassembly (4), is provided with on drive assembly (1) and breaks up subassembly (2), its characterized in that: the machine body assembly (4) comprises a shell (401), a lower bracket (407) is fixedly connected on the shell (401), an upper bracket (408) is fixedly connected on the lower bracket (407), the driving assembly (1) comprises a main shaft (102), a main gear (103) is fixedly connected on the main shaft (102), the main shaft (102) is rotationally connected on the shell (401), a shaft connected with a transmission gear (104) is rotationally connected on the shell (401), a connecting cross shaft (106) is rotationally connected on the lower bracket (407), the main shaft (102) is meshed with the transmission gear (104), the transmission gear (104) is meshed with the connecting cross shaft (106), the breaking assembly (2) comprises a breaking cam (201) and a breaking outer ring (206), the breaking cam (201) is fixedly connected on the main shaft (102), the breaking outer ring (206) is slidingly connected on the connecting cross shaft (106), the breaking outer ring (206) is slidingly connected with a plurality of groups of breaking slide bars (202), a first end of the impact long connecting rod (303) is rotationally connected on the upper bracket (408), a second end of the impact long connecting rod (301) is rotationally connected on the connecting plate (301), a plurality of groups of impact rods (309) are fixedly connected to the impact connecting plate (302).

2. A household garbage density separation device according to claim 1, characterized in that: the novel liquid filter is characterized in that a lower conveying belt (402), a feeding frame (405) and a filtering inclined plate (406) are fixedly connected to the outer shell (401), a first end of a conveying pipe (404) is fixedly connected to the feeding frame (405), a second end of the conveying pipe (404) is fixedly connected to the filtering inclined plate (406), a pump for controlling liquid conveying is arranged on the conveying pipe (404), a multi-layer filter screen is arranged on the filtering inclined plate (406), and an upper conveying belt (403) is fixedly connected to the filtering inclined plate (406).

3. A household garbage density separation device according to claim 2, characterized in that: the filter inclined plate (406) is provided with a plurality of layers of inclined filter screens, so that separated garbage can slide down conveniently and collect liquid, and the liquid can flow circularly.

4. A household garbage density separation device according to claim 1, characterized in that: the novel power transmission device is characterized in that an output shaft of a motor (101) is fixedly connected to the main shaft (102), a plurality of groups of toothed rings (105) are arranged on the lower support (407), a plurality of groups of main shafts (102) are arranged on the shell (401), a plurality of groups of scattering assemblies (2) are driven through the plurality of groups of main shafts (102) and the toothed rings (105), and power is transmitted between the main shafts (102) through chains.

5. A household garbage density separation device according to claim 1, characterized in that: the utility model discloses a break up sliding rod (202) is last all fixedly connected with break up contact block (205), break up and be provided with cambered surface on contact block (205), this cambered surface all the time with break up cam (201) contact, break up the first end of spring (204) of fixedly connected with on contact block (205), break up the second end fixed connection of spring (204) and break up connecting seat (203), break up connecting seat (203) fixed connection and break up outer loop (206), be provided with multiunit break up cam (201) on main shaft (102), be provided with multiunit break up outer loop (206) on connection cross axle (106).

6. A household garbage density separation device according to claim 1, characterized in that: the impact device is characterized in that a first end of an impact connecting shaft (304) is fixedly connected to the impact long connecting rod (303), the impact connecting shaft (304) is rotationally connected to the upper support (408), an impact cam (305) is rotationally connected to a second end of the impact connecting shaft (304), a first end of an impact connecting ring (306) is rotationally connected to the impact cam (305), a second end of the impact connecting ring (306) is rotationally and internally connected to a first end of an impact short connecting rod (307), and a second end of the impact short connecting rod (307) is fixedly connected to the other impact connecting shaft (304).

7. The household garbage density separation device according to claim 6, wherein: an impact driving shaft (308) is fixedly connected to one side, far away from the connecting transverse frame (301), of the impact cam (305), a plurality of groups of impact driving shafts (308) are connected through material strips, and power transmission between the impact driving shafts (308) and the main shaft (102) is achieved.

8. The household garbage density separation device according to claim 6, wherein: the first end of the impact connecting ring (306) is a circular ring, and the second end is a long connecting rod.