CN114011202A - Deodorization system based on kitchen garbage resource is recycled - Google Patents

Abstract

The invention relates to the technical field of garbage resource recycling, in particular to a deodorization system based on the recycling of kitchen garbage resources, wherein a limiting mechanism is connected to the inner wall of a shell in a shell mechanism in a sliding manner, an oil absorption mechanism is arranged on the limiting mechanism and is connected with the inner wall of the shell in a sliding manner, an oil guide mechanism is arranged on the side wall of the shell in the shell mechanism, the oil guide mechanism and the oil absorption mechanism are communicated through an oil guide pipe, an oil storage mechanism is fixedly connected below the oil guide mechanism and is fixedly connected to the shell, a vibration mechanism is fixedly connected to the bottom of the shell, a deodorization mechanism is connected to the shell through an exhaust pipe, and the other end of the exhaust pipe is led to the outside; the user can control the fly height of oil absorption mechanism through adjustment stop gear, leads oily mechanism and can transport oil to the oil storage mechanism in, and oil storage mechanism can deposit the oil and can the oil drain, and vibrations mechanism can make oil more quickly appear the come-up in the residue, and deodorization mechanism can discharge after filtering the smell of fermenting in the device.

Description

Deodorization system based on kitchen garbage resource is recycled

Technical Field

The invention relates to the technical field of garbage resource recycling, in particular to a deodorization system based on kitchen garbage resource recycling.

Background

The kitchen waste is generated in activities such as daily life, food processing, food service, unit meal supply and the like of residents, is mainly sourced from household kitchens, restaurants, dining halls, markets and other industries related to food processing, is easy to decay and deteriorate under the action of microorganisms due to high organic matter and moisture content, and is more serious when being placed for a long time, so that generated percolating water and foul gas breed mosquitoes and cause bad influence on environmental sanitation.

The kitchen waste contains a large amount of grease, which is also commonly called kitchen waste oil, but the kitchen waste oil can be converted into biodiesel through esterification and transesterification, the biodiesel is relatively clean synthetic oil and is generally used for tractors, trucks, ships and the like, the grease in the kitchen waste is generally directly filtered, but a large amount of water exists after filtering, so that the collected grease is not pure enough, the utilization value is low, and in the period of high temperature in summer, the kitchen waste is easy to deteriorate to generate malodorous gas, and the gas is directly discharged out of a room by using an exhaust fan in a common restaurant, so that the environment is polluted.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a deodorization system based on the reutilization of kitchen waste resources.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a deodorization system based on kitchen garbage resource is recycled, includes shell mechanism, stop gear, oil absorption mechanism, leads oily mechanism, oil storage mechanism, vibrations mechanism and deodorization mechanism, sliding connection has stop gear on the inner wall of shell among the shell mechanism, there is oil absorption mechanism on the stop gear, oil absorption mechanism with the inner wall sliding connection of shell, it is in to lead oily mechanism in the shell mechanism on the lateral wall of shell, lead oily mechanism with oil absorption mechanism is through leading the oil pipe intercommunication, it is fixedly connected with to lead oily below the mechanism oil storage mechanism, oil storage mechanism fixed connection be in on the shell, vibrations mechanism fixed connection be in the bottom of shell, deodorant mechanism is connected to by the exhaust pipe on the shell, the other end of exhaust pipe accesss to the outside.

Preferably, the shell mechanism comprises a shell, a hopper is fixedly connected to the shell, a cleaning door is arranged on one side of the hopper, the cleaning door is fixedly connected to the shell, a cleaning opening is formed in one side of the shell, a sliding plate is fixedly connected to the cleaning opening, a movable door is movably connected to the cleaning opening, a screen is fixedly connected to one side of the movable door, the screen is fixedly connected to the inner wall of the shell, an observation window is formed in the other side of the shell, and transparent glass is fixedly connected to the observation window.

Preferably, the limiting mechanism comprises a limiting plate, a first sliding block is fixedly connected to the limiting plate, the first sliding block is connected with the first sliding groove in a sliding manner, the first sliding groove is arranged on the inner wall of the shell, the limiting plate is fixedly connected with a T-shaped rod, the middle part of the T-shaped rod is fixedly connected with a first magnet slide block, the first magnet slide block is connected with the second slide groove in a sliding way, the second slide groove is arranged on the inner wall of the shell, a fourth sliding groove is arranged on the outer wall of the shell at the position of the second sliding groove, a second magnet sliding block is connected with the fourth sliding groove in a sliding way, the first magnet slide block is matched with the second magnet slide block, the T-shaped rod is also fixedly connected with the second slide block, the second sliding block is connected with the third sliding groove in a sliding mode, and the third sliding groove is formed in the inner wall of the shell.

Preferably, the oil absorption mechanism includes a floating plate, the floating plate is arranged above the limiting plate, a third sliding block is fixedly connected to the floating plate, the third sliding block is connected with a first sliding chute in a sliding mode, an oil pipe is fixedly connected to the upper end of the floating plate, the other end of the oil pipe extends to the outside of the shell and is communicated with the piston pipe, a sleeve is fixedly connected to the lower end of the floating plate, the sleeve is communicated with the oil pipe, a filter screen is fixedly connected to the inner portion of the sleeve, and a support leg is fixedly connected to the lower end of the floating plate.

Preferably, the oil guide mechanism comprises a double-shaft motor, a rotor of the double-shaft motor is fixedly connected with a right shaft, the right shaft is fixedly connected with a disc, a convex block is fixedly connected with the disc, a concave surface is arranged on the disc, a cambered surface is arranged below the convex block, the convex block is abutted to the cambered surface, a push-pull rod is fixedly connected to the lower end of the cambered surface, the lower end of the push-pull rod extends into a piston tube, a piston is slidably connected to the piston tube, the push-pull rod is fixedly connected with the piston, the lower end of the piston is fixedly connected with a first compression spring, the first compression spring is fixedly connected to the bottom of the piston tube, the piston tube is fixedly connected to the object carrier, and the object carrier is fixedly connected to the outer side of the shell.

Preferably, lead oily mechanism still includes out of oil pipe, go out oil pipe and communicate the oil storage bucket, go out oil pipe with lead the one-way water conservancy diversion structure of the intraductal fixedly connected with of oil, the jam block fixed connection in the one-way water conservancy diversion structure go out oil pipe with lead the oil pipe inner wall, jam block and rubber ball butt, the rubber ball is kept away from the one end fixed connection that blocks the block has expanding spring, the expanding spring other end fixed connection be in go out oil pipe with lead in the oil pipe.

Preferably, the oil storage mechanism includes the oil storage bucket, fixedly connected with venthole on the oil storage bucket, oil drain pipe is fixed to be connected in one side of oil storage bucket, fixedly connected with slide bar on the oil drain pipe, sliding connection has the slip dish on the slide bar, slide bar top fixedly connected with fixed disk, fixedly connected with deformation spring on the slip dish, nested on the jam post have deformation spring, the jam post passes the slip dish with the oil drain pipe butt, the jam post with slip dish sliding connection, the one end fixedly connected with wire rope of jam post, wire rope passes the fixed disk with fixed disk sliding connection.

Preferably, vibrations mechanism includes the lifting disk, the lifting disk is in hopper below down, lifting disk lower extreme fixedly connected with striker, nested second compression spring on the striker, second compression spring below fixed connection has the spacing dish, spacing dish fixed connection be in on the screen cloth, the striker lower extreme passes spacing dish with the screen cloth extends to the shell bottom, the striker with spacing dish with screen cloth sliding connection, there is the striking groove striker below, striking groove fixed connection be in on the horizontal pole, horizontal pole fixed connection be in the shell bottom, fixedly connected with vibrations spring on the horizontal pole.

Preferably, deodorization mechanism includes the flabellum, flabellum fixed connection be in one side of shell, the one end of flabellum and belt is rotated and is connected, the other end and the left-hand shaft swivelling joint of belt, the left-hand shaft with the rotor fixed connection of biax motor, be fixed with on the shell flabellum department intercommunication has the exhaust pipe, the exhaust pipe extends to in the fine sand layer, the fine sand layer coats and is stamped thick sand layer, fixedly connected with air column that looses on the exhaust pipe, it is in to loose the air column in the fine sand layer, it has the active carbon to loose the air column intussuseption, it has seted up the gas pocket of loosing on the air column.

The invention has the beneficial effects that:

(1) according to the deodorization system based on kitchen waste resource recycling, in the limiting mechanism, the second magnet slide block and the first magnet slide block are mutually attracted, so that when the second magnet slide block slides in the fourth sliding groove, the first magnet slide block is attracted by the second magnet slide block to slide in the second sliding groove, the second magnet slide block slides in the third sliding groove, a user can drive the first magnet slide block to slide to the water-oil boundary by sliding the second magnet slide block, the limiting plate reaches the water-oil boundary, the floating plate slides to the limiting plate to stop, and the oil guide pipe is prevented from absorbing water.

(2) According to the deodorization system based on kitchen waste resource recycling, in the oil absorption mechanism, the floating plate has certain buoyancy and can float on liquid, when the floating plate floats on the oil surface, the sleeve at the lower end of the floating plate is below the oil surface, oil below the floating plate can be absorbed through the oil guide pipe, meanwhile, the filter screen can prevent the oil guide pipe from absorbing broken slag, along with the change of the oil surface height, the third sliding block on the floating plate drives the floating plate to slide up and down in the first sliding groove, when the oil guide pipe continuously absorbs the oil, the oil surface height is continuously reduced, meanwhile, the floating plate slowly slides downwards, then the floating plate contacts the limiting plate to stop sliding, and the limiting plate slides to the water-oil boundary before, so that the oil guide pipe cannot absorb the water.

(3) According to the deodorization system based on kitchen waste resource recycling, when a user pours leftovers into a vibration mechanism, the leftovers fall onto a lifting disc firstly, a second compression spring contracts, the lifting disc drives a striking rod to slide downwards, the striking rod is contacted with a striking groove to generate vibration to enable the vibration spring to vibrate, the vibration of the vibration spring can enable oil attached to broken slag to separate from the broken slag and float upwards, the oil can be absorbed by an oil guide pipe, after the leftovers are filtered by a screen, water-oil mixture can be accumulated around the vibration spring, fine broken slag can be generated at the bottom after precipitation, the leftovers can slowly slide away from the lifting disc after falling onto the lifting disc, and after the lifting disc is free of pressure, the second compression spring extends to drive the lifting disc and the striking rod to slide upwards and reset.

(4) According to the deodorization system based on kitchen waste resource recycling, in the deodorization mechanism, the fan blades rotate to pump the gas in the shell into the exhaust pipe and then convey the gas to the outside of a kitchen, a filter tank is arranged outside the kitchen, a coarse sand layer is paved at the bottom of the filter tank, a fine sand layer is paved on the coarse sand layer, the gas enters the gas dissipation column from the exhaust pipe, is adsorbed by active carbon and then is exhausted from the gas dissipation holes, and then is filtered by the coarse sand layer, and finally is exhausted after being filtered by the fine sand layer.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic view of the internal connection structure of the present invention;

FIG. 3 is a schematic view of the connection structure of the oil suction mechanism;

FIG. 4 is a schematic view of a connection structure of the oil guiding mechanism and the oil storing mechanism;

FIG. 5 is a schematic view of the floating plate, sleeve and filter screen;

FIG. 6 is a schematic view of the interior of the piston tube;

FIG. 7 is a schematic view of the structure of a fine sand layer, a coarse sand layer and a gas diffusion column;

FIG. 8 is an enlarged view taken at A in FIG. 4;

FIG. 9 is an enlarged view of B in FIG. 4;

FIG. 10 is an enlarged view of FIG. 6 at C;

FIG. 11 is an enlarged view of FIG. 7 at D;

in the figure: 1. a housing mechanism; 11. a housing; 12. feeding a hopper; 13. a movable door; 14. cleaning the opening; 15. a material sliding plate; 16. cleaning the door; 17. screening a screen; 18. an observation window; 19. transparent glass; 2. a limiting mechanism; 21. a limiting plate; 22. A first slider; 23. a first chute; 24. a second chute; 25. a first magnet slider; 26. a T-shaped rod; 27. a second slider; 28. a third chute; 29. a fourth chute; 210. a second magnet slider; 3. an oil suction mechanism; 31. a floating plate; 32. An oil guide pipe; 34. a third slider; 35. a support leg; 36. a sleeve; 37. a filter screen; 4. an oil guide mechanism; 41. a dual shaft motor; 42. a right shaft; 43. a disc; 44. a bump; 45. a concave surface; 46. a carrier; 47. a piston tube; 48. an arc surface; 49. a push-pull rod; 410. a piston; 412. a first compression spring; 413. an oil outlet pipe; 414. a one-way flow guide structure; 4141. A rubber ball; 4142. a blocking block; 4143. a tension spring; 5. an oil storage mechanism; 51. an oil storage barrel; 52. an air outlet hole; 53. discharging an oil pipe; 54. a slide bar; 55. a sliding disk; 56. fixing the disc; 57. plugging the column; 58. a deformation spring; 59. a wire rope; 6. a vibration mechanism; 61. a lifting plate; 62. a striker bar; 63. a limiting disc; 65. a second compression spring; 66. an impact groove; 67. a cross bar; 68. vibrating the spring; 7. a deodorizing mechanism; 71. a fan blade; 72. a belt; 73. a left shaft; 74. an exhaust duct; 75. a fine sand layer; 76. a coarse sand layer; 77. a gas-dispersing column; 78. air diffusing holes; 79. activated carbon.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 11, the deodorization system based on the reuse of kitchen waste resources according to the present invention includes a housing mechanism 1, a limiting mechanism 2, an oil suction mechanism 3, an oil guide mechanism 4, an oil storage mechanism 5, a vibration mechanism 6 and a deodorization mechanism 7, wherein the inner wall of a housing 11 in the housing mechanism 1 is slidably connected to the limiting mechanism 2, the oil suction mechanism 3 is provided on the limiting mechanism 2, the oil suction mechanism 3 is slidably connected to the inner wall of the housing 11, the oil guide mechanism 4 is provided on the side wall of the housing 11 in the housing mechanism 1, the oil guide mechanism 4 is communicated with the oil suction mechanism 3 through an oil guide pipe 32, the oil storage mechanism 5 is fixedly connected below the oil guide mechanism 4, the oil storage mechanism 5 is fixedly connected to the housing 11, the vibration mechanism 6 is fixedly connected to the bottom of the housing 11, the deodorization mechanism 7 is connected to the housing 11 by an exhaust duct 74, and the other end of the exhaust duct 74 is open to the outside; the user can control the fly height of oil absorption mechanism 3 through adjusting stop gear 2, leads in oil mechanism 4 can transport oil to oil storage mechanism 5, and oil storage mechanism 5 can deposit oil and can the oil drain, and vibrations mechanism 6 can make oil in the residue separate out the come-up sooner, and deodorization mechanism 7 can discharge after filtering the smell of fermentation in the device.

Specifically, the shell mechanism 1 includes a shell 11, a discharging hopper 12 is fixedly connected to the shell 11, a cleaning door 16 is arranged on one side of the discharging hopper 12, the cleaning door 16 is fixedly connected to the shell 11, a cleaning opening 14 is formed in one side of the shell 11, a material sliding plate 15 is fixedly connected to the cleaning opening 14, a movable door 13 is movably connected to the cleaning opening 14, a screen 17 is fixedly connected to one side of the movable door 13, the screen 17 is fixedly connected to the inner wall of the shell 11, an observation window 18 is formed in the other side of the shell 11, and transparent glass 19 is fixedly connected to the observation window 18; the user pours kitchen leftovers into hopper 12 down, and the leftovers landing is through filtering on screen cloth 17, and the water oil can see through screen cloth 17 and fall the bottom of shell 11, and the residue can be stayed on screen cloth 17, and the user can open dodge gate 13 at any time and clear up, and the user can look over inside behavior through observation window 18 simultaneously.

Specifically, the limiting mechanism 2 includes a limiting plate 21, a first slider 22 is fixedly connected to the limiting plate 21, the first slider 22 is slidably connected to a first sliding groove 23, the first sliding groove 23 is formed in the inner wall of the housing 11, a T-shaped rod 26 is fixedly connected to the limiting plate 21, a first magnet slider 25 is fixedly connected to the middle of the T-shaped rod 26, the first magnet slider 25 is slidably connected to a second sliding groove 24, the second sliding groove 24 is formed in the inner wall of the housing 11, a fourth sliding groove 29 is formed in the outer wall of the housing 11 at the position of the second sliding groove 24, a second magnet slider 210 is slidably connected to the fourth sliding groove 29, the first magnet slider 25 is adapted to the second magnet slider 210, a second slider 27 is further fixedly connected to the T-shaped rod 26, the second slider 27 is slidably connected to a third sliding groove 28, the third sliding chute 28 is formed on the inner wall of the housing 11; the water-oil mixture can stratify after the sediment of shell 11 bottom, from the top down can form the oil reservoir in proper order, water layer and disintegrating slag layer, the user can see through observation window 18, because second magnet slider 210 and first magnet slider 25 attract each other, so when slip second magnet slider 210 slided in fourth spout 29, first magnet slider 25 is attracted by second magnet slider 210 and slides in second spout 24, second slider 27 slides in third spout 28, the slip orbit of T shape pole 26 can be stabilized to second slider 27, the user can utilize slip second magnet slider 210 to drive first magnet slider 25 and slide to water-oil boundary department.

Specifically, the oil absorption mechanism 3 includes a floating plate 31, the floating plate 31 is above the limiting plate 21, a third slider 34 is fixedly connected to the floating plate 31, the third slider 34 is slidably connected to the first chute 23, an oil guide pipe 32 is fixedly connected to the upper end of the floating plate 31, the other end of the oil guide pipe 32 extends to the outside of the housing 11 and is communicated with a piston pipe 47, a sleeve 36 is fixedly connected to the lower end of the floating plate 31, the sleeve 36 is communicated with the oil guide pipe 32, a filter screen 37 is fixedly connected to the inside of the sleeve 36, and a support leg 35 is fixedly connected to the lower end of the floating plate 31; the floating plate 31 has a certain buoyancy and can float on liquid, when the floating plate 31 floats on the oil surface, the sleeve 36 at the lower end is below the oil surface, the oil below the floating plate 31 can be sucked away through the oil guide pipe 32, meanwhile, the filter screen 37 can prevent the oil guide pipe 32 from sucking broken slag, along with the change of the oil surface height, the third slide block 34 on the floating plate 31 drives the floating plate 31 to slide up and down in the first chute 23, when the oil guide pipe 32 continuously sucks oil, the oil surface height is continuously reduced, meanwhile, the floating plate 31 slowly slides downwards, then the floating plate 31 contacts the limiting plate 21 to stop sliding, at the moment, the oil cannot be sucked, because the limiting plate 21 is at the water-oil boundary, the oil is sucked up, when special conditions are met, only oil and broken slag exist, when water does not exist, when the oil surface height is lowest, the floating plate 31 slides to the lowest point, the support legs 35 can support the floating plate 31 on the broken slag, preventing the sleeve 36 from extending into the debris and clogging the apparatus.

Specifically, the oil guide mechanism 4 includes a dual-shaft motor 41, a rotor of the dual-shaft motor 41 is fixedly connected with a right shaft 42, the right shaft 42 is fixedly connected with a disc 43, a convex block 44 is fixedly connected with the disc 43, a concave surface 45 is arranged on the disc 43, an arc surface 48 is arranged below the convex block 44, the convex block 44 abuts against the arc surface 48, a push-pull rod 49 is fixedly connected with the lower end of the arc surface 48, the lower end of the push-pull rod 49 extends into a piston tube 47, a piston 410 is slidably connected with the piston tube 47, the push-pull rod 49 is fixedly connected with the piston 410, a first compression spring 412 is fixedly connected with the lower end of the piston 410, the first compression spring 412 is fixedly connected with the bottom of the piston tube 47, the piston tube 47 is fixedly connected with the carrier 46, the carrier 46 is fixedly connected with the outer side of the housing 11, an oil outlet pipe 413 is communicated with an oil storage barrel 51, a one-way flow guide structure 414 is fixedly connected in the oil outlet pipe 413 and the oil guide pipe 32, a blocking block 4142 in the one-way flow guide structure 414 is fixedly connected to the inner walls of the oil outlet pipe 413 and the oil guide pipe 32, the blocking block 4142 is abutted against a rubber ball 4141, one end, far away from the blocking block 4142, of the rubber ball 4141 is fixedly connected with an expansion spring 4143, and the other end of the expansion spring 4143 is fixedly connected in the oil outlet pipe 413 and the oil guide pipe 32; after the dual-shaft motor 41 is started, the rotor of the dual-shaft motor 41 drives the right shaft 42 to rotate, the right shaft 42 drives the disc 43 to rotate, the bump 44 and the concave surface 45 are on the disc 43, so the bump 44 and the concave surface 45 rotate around the center of the disc 43, the arc surface 48 is abutted with the bump 44 at the beginning, along with the rotation of the disc 43, the arc surface 48 slides over the bump 44 and the concave surface 45 to be abutted, the arc surface 48 slowly rises to the highest point, the arc surface 48 drives the push-pull rod 49 to push the piston 410 to slide upwards in the piston tube 47, at the moment, the piston 410 has suction force towards the lower part, at the moment, the rubber ball 4141 in the single-direction flow guide structure 414 in the oil outlet pipe 413 is tightly attached to the blocking block 4142, the one-direction flow guide structure 414 in the oil outlet pipe 413 is closed, meanwhile, the telescopic spring 4143 in the single-direction flow guide structure 414 in the oil guide pipe 32 contracts, the rubber ball 4141 is far away from the blocking block 4142, the one-direction flow guide structure 414 in the oil guide pipe 32 is opened, oil guide pipe 32 enters the piston tube 47, when the disc 43 rotates, the arc surface 48 slides through the concave surface 45 to abut against the convex block 44, the arc surface 48 slowly descends to the lowest point, the arc surface 48 drives the push-pull rod 49 to push the piston 410 to slide downwards in the piston tube 47, at the time, the piston 410 pushes downwards, at the time, the rubber ball 4141 in the single-direction flow guiding structure 414 in the oil guiding tube 32 is tightly attached to the blocking block 4142, the single-direction flow guiding structure 414 in the oil guiding tube 32 is closed, the telescopic spring 4143 in the single-direction flow guiding structure 414 in the oil outlet tube 413 contracts, the rubber ball 4141 is far away from the blocking block 4142, the single-direction flow guiding structure 414 in the oil outlet tube 413 is opened, and oil enters the oil storage barrel 51 from the oil outlet tube 413.

Specifically, the oil storage mechanism 5 includes an oil storage barrel 51, an air outlet 52 is fixedly connected to the oil storage barrel 51, the oil drain pipe 53 is fixedly connected to one side of the oil storage barrel 51, a slide rod 54 is fixedly connected to the oil drain pipe 53, a slide plate 55 is slidably connected to the slide rod 54, a fixed plate 56 is fixedly connected to the top end of the slide rod 54, a deformation spring 58 is fixedly connected to the slide plate 55, the deformation spring 58 is nested on a blocking column 57, the blocking column 57 penetrates through the slide plate 55 to abut against the oil drain pipe 53, the blocking column 57 is slidably connected to the slide plate 55, a steel wire rope 59 is fixedly connected to one end of the blocking column 57, and the steel wire rope 59 penetrates through the fixed plate 56 to be slidably connected to the fixed plate 56; after oil enters the oil storage barrel 51, the oil can be temporarily stored in the oil storage barrel 51, a user can also pull the steel wire rope 59, the steel wire rope 59 drives the blocking column 57 to slide towards the direction far away from the oil drain pipe 53, the deformation spring 58 contracts at the moment, the oil is discharged from the oil drain pipe 53, the user can collect the oil, after the oil is drained, the steel wire rope 59 is loosened, and the deformation spring 58 extends to drive the blocking column 57 to block the air outlet 52 again.

Specifically, the vibrating mechanism 6 comprises a lifting disc 61, the lifting disc 61 is arranged below the blanking hopper 12, the lower end of the lifting disc 61 is fixedly connected with a striking rod 62, the striking rod 62 is nested with a second compression spring 65, a limiting disc 63 is fixedly connected below the second compression spring 65, the limiting disc 63 is fixedly connected to the screen 17, the lower end of the striking rod 62 penetrates through the limiting disc 63 and the screen 17 and extends to the bottom of the shell 11, the striking rod 62 is slidably connected with the limiting disc 63 and the screen 17, a striking groove 66 is arranged below the striking rod 62, the striking groove 66 is fixedly connected to a cross rod 67, the cross rod 67 is fixedly connected to the bottom of the shell 11, and a vibrating spring 68 is fixedly connected to the cross rod 67; when the user pours the leftovers, at first the leftovers can fall on lifting disk 61, second compression spring 65 contracts, lifting disk 61 drives striking rod 62 gliding, produce vibrations after striking rod 62 contacts striking groove 66 and make vibrations of vibrations spring 68, vibrations spring 68 vibrations can break away from the disintegrating slag come-up with adnexed oil on the disintegrating slag, can be absorbed by oil pipe 32, because the leftovers filters the back through screen cloth 17, the water oil mixture can pile up around vibrations spring 68, there can some tiny disintegrating slag in the bottom after the sediment, the leftovers can slowly slide after falling on lifting disk 61 and leave lifting disk 61, after lifting disk 61 does not have pressure, second compression spring 65 extends and drives lifting disk 61 and striking rod 62 and slide on the return.

Specifically, the deodorizing mechanism 7 includes a fan blade 71, the fan blade 71 is fixedly connected to one side of the housing 11, the fan blade 71 is rotatably connected to one end of a belt 72, the other end of the belt 72 is rotatably connected to a left shaft 73, the left shaft 73 is fixedly connected to a rotor of the dual-shaft motor 41, the housing 11 is fixed with an exhaust pipe 74 communicated with the fan blade 71, the exhaust pipe 74 extends into a fine sand layer 75, a coarse sand layer 76 covers the fine sand layer 75, an air-dispersing column 77 is fixedly connected to the exhaust pipe 74, the air-dispersing column 77 is located in the fine sand layer 75, activated carbon 79 is filled in the air-dispersing column 77, and an air-dispersing hole 78 is formed in the air-dispersing column 77; the leftovers in the device can generate rancid odor to influence the environment of a kitchen, the double-shaft motor 41 drives the left shaft 73 to rotate, the left shaft 73 drives the belt 72 to rotate, the belt 72 drives the fan blade 71 to rotate, the fan blade 71 rotates to pump the gas in the shell 11 into the exhaust pipe 74 and then convey the gas to the outside of the kitchen, a filter tank is arranged outside the kitchen, a coarse sand layer 76 is laid at the bottom of the filter tank, a fine sand layer 75 is laid on the coarse sand layer 76, the gas enters the gas dispersing column 77 from the exhaust pipe 74, is adsorbed by the activated carbon 79 and then is discharged from the gas dispersing hole 78, then is filtered by the coarse sand layer 76, and finally is filtered by the fine sand layer 75 and then is discharged.

When the kitchen waste residue filter is used, the double-shaft motor 41 is started, the double-shaft motor 41 drives the left shaft 73 to rotate, the left shaft 73 drives the belt 72 to rotate, the belt 72 drives the fan blades 71 to rotate, the waste residue can generate rancid smell in the device to influence the environment of a kitchen, the fan blades 71 rotate to pump gas in the shell 11 into the exhaust pipe 74, then the gas is conveyed to the outside of the kitchen, a filter tank is arranged outside the kitchen, a coarse sand layer 76 is paved at the bottom of the tank, a fine sand layer 75 is paved on the coarse sand layer 76, the gas enters the gas dispersing column 77 from the exhaust pipe 74, is adsorbed by the activated carbon 79 and then is discharged from the gas dispersing holes 78, then is filtered by the coarse sand layer 76, and finally is filtered by the fine sand layer 75 and then is discharged, a user pours the kitchen waste residue into the lower hopper 12, the waste residue slides onto the screen 17 and is filtered, water and oil can fall to the bottom of the shell 11 through the screen 17, and the residue can be left on the screen 17, the user can open the movable door 13 at any time for cleaning, meanwhile, the user can check the internal working condition through the observation window 18, when leftovers are poured, firstly the leftovers fall on the lifting disc 61, the second compression spring 65 contracts, the lifting disc 61 drives the impact rod 62 to slide downwards, the impact rod 62 contacts the impact groove 66 to generate vibration to enable the vibration spring 68 to vibrate, the vibration spring 68 vibrates to enable oil attached to the scraps to separate from the scraps and float upwards, the oil guide pipe 32 can absorb the oil, water-oil mixture can be accumulated around the vibration spring 68 after the leftovers are filtered by the screen 17, fine scraps can be generated at the bottom after the leftovers are deposited, the leftovers can slowly slide away from the lifting disc 61 after falling on the lifting disc 61, after the lifting disc 61 has no pressure, the second compression spring 65 extends to drive the lifting disc 61 and the impact rod 62 to reset, the water-oil mixture can be layered after being deposited at the bottom of the shell 11, an oil layer, a water layer and a slag layer are formed in sequence from top to bottom, a user can see through the observation window 18, because the second magnet slide block 210 and the first magnet slide block 25 are mutually attracted, when the second magnet slide block 210 slides in the fourth slide groove 29, the first magnet slide block 25 is attracted by the second magnet slide block 210 to slide in the second slide groove 24, the second slide block 27 slides in the third slide groove 28, the second slide block 27 can stabilize the sliding track of the T-shaped rod 26, the user can drive the first magnet slide block 25 to slide to a water-oil boundary by sliding the second magnet slide block 210, the rotor of the double-shaft motor 41 drives the right shaft 42 to rotate, the right shaft 42 drives the disc 43 to rotate, the convex block 44 and the concave 45 are on the disc 43, so that the convex block 44 and the concave 45 rotate around the center of the disc 43, the arc surface 48 and the convex block 44 are initially abutted, and along with the disc 43 to rotate, the arc surface 48 slides through the convex block 44 to abut against the concave surface 45, the arc surface 48 slowly rises to the highest point, the arc surface 48 drives the push-pull rod 49 to push the piston 410 to slide upwards in the piston tube 47, at the moment, the piston 410 has suction force to the lower part, at the moment, the rubber ball 4141 in the unidirectional flow guiding structure 414 in the oil outlet tube 413 is tightly attached to the blocking block 4142, the unidirectional flow guiding structure 414 in the oil outlet tube 413 is closed, the telescopic spring 4143 in the unidirectional flow guiding structure 414 in the oil guiding tube 32 is contracted, the rubber ball 4141 is far away from the blocking block 4142, the unidirectional flow guiding structure 414 in the oil guiding tube 32 is opened, oil enters the piston tube 47 from the oil guiding tube 32, along with the change of the height of the oil surface, the third sliding block 34 on the floating plate 31 drives the floating plate 31 to slide up and down in the first sliding chute 23, when the oil guiding tube 32 continuously absorbs oil, the height of the oil surface is continuously reduced, the floating plate 31 slowly slides downwards, and then the floating plate 31 contacts with the limiting plate 21 to stop sliding, at this time, oil cannot be sucked, because the limit plate 21 is at the water-oil boundary, oil is sucked up, when special conditions are met, only oil and crushed slag exist, when no water exists, when the oil level is lowest, and the floating plate 31 slides to the lowest point, the support legs 35 can support the floating plate 31 on the crushed slag, the sleeve 36 is prevented from extending into the crushed slag, so that the device is blocked, when the disc 43 rotates, the arc surface 48 slides through the concave surface 45 to be abutted against the convex block 44, the arc surface 48 slowly descends to the lowest point, the arc surface 48 drives the push-pull rod 49 to push the piston 410 to slide downwards in the piston tube 47, at this time, the piston 410 has thrust to the lower side, at this time, the rubber ball 4141 in the one-way flow guiding structure 414 in the oil guiding tube 32 is tightly attached to the blocking block 4142, the one-way flow guiding structure 414 in the oil guiding tube 32 is closed, at the same time, the telescopic spring 4143 in the one-way flow guiding structure 414 in the oil guiding structure 413 contracts, and the rubber ball 4141 is far away from the blocking block 4142, one-way water conservancy diversion structure 414 in oil pipe 413 is opened, oil enters oil storage bucket 51 from oil pipe 413, oil gets into oil storage bucket 51 after, can save temporarily in oil storage bucket 51, the user also can stimulate wire rope 59, wire rope 59 drives and blocks up post 57 and slide towards the direction of keeping away from oil drain pipe 53, deformation spring 58 contracts this moment, oil is discharged from oil drain pipe 53, the user can collect, after putting, loosen wire rope 59, deformation spring 58 extends and drives and blocks up post 57 and block up venthole 52 again.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions described above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the present invention, which fall within the scope of the claims of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a deodorization system based on kitchen garbage resource is recycled which characterized in that: comprises a shell mechanism (1), a limiting mechanism (2), an oil absorption mechanism (3), an oil guide mechanism (4), an oil storage mechanism (5), a vibration mechanism (6) and a deodorization mechanism (7), wherein the inner wall of a shell (11) in the shell mechanism (1) is connected with the limiting mechanism (2) in a sliding way, the limiting mechanism (2) is provided with the oil absorption mechanism (3), the oil absorption mechanism (3) is connected with the inner wall of the shell (11) in a sliding way, the oil guide mechanism (4) is arranged on the side wall of the shell (11) in the shell mechanism (1), the oil guide mechanism (4) and the oil absorption mechanism (3) are communicated through an oil guide pipe (32), the lower part of the oil guide mechanism (4) is fixedly connected with the oil storage mechanism (5), the oil storage mechanism (5) is fixedly connected on the shell (11), and the vibration mechanism (6) is fixedly connected at the bottom of the shell (11), the deodorization mechanism (7) is connected to the housing (11) through an exhaust duct (74), and the other end of the exhaust duct (74) is open to the outside.

2. The deodorization system based on kitchen waste resource reuse according to claim 1, characterized in that: casing mechanism (1) includes shell (11), hopper (12) under fixedly connected with on shell (11), there is washing door (16) one side of hopper (12) down, washing door (16) fixed connection be in on shell (11), clearance mouth (14) have been seted up to one side of shell (11), fixedly connected with sliding plate (15) are gone up in clearance mouth (14), swing joint has dodge gate (13) on clearance mouth (14), one side fixedly connected with screen cloth (17) of dodge gate (13), screen cloth (17) fixed connection be in on shell (11) inner wall, observation window (18) have been seted up to the opposite side of shell (11), fixedly connected with clear glass (19) on observation window (18).

3. The deodorization system based on kitchen waste resource recycling as claimed in claim 2, characterized in that: the limiting mechanism (2) comprises a limiting plate (21), a first sliding block (22) is fixedly connected to the limiting plate (21), the first sliding block (22) is connected with a first sliding groove (23) in a sliding mode, the first sliding groove (23) is formed in the inner wall of the shell (11), a T-shaped rod (26) is fixedly connected to the limiting plate (21), a first magnet sliding block (25) is fixedly connected to the middle of the T-shaped rod (26), the first magnet sliding block (25) is connected with a second sliding groove (24) in a sliding mode, the second sliding groove (24) is formed in the inner wall of the shell (11), a fourth sliding groove (29) is formed in the outer wall of the shell (11) in the position of the second sliding groove (24), the second magnet sliding block (210) is connected with the fourth sliding groove (29) in a sliding mode, and the first magnet sliding block (25) is matched with the second magnet sliding block (210), still fixedly connected with second slider (27) on T shape pole (26), second slider (27) and third spout (28) sliding connection, third spout (28) are seted up on the inner wall of shell (11).

4. The deodorization system based on kitchen waste resource recycling as claimed in claim 3, characterized in that: oil absorption mechanism (3) are including floating board (31), it is in to float board (31) the top of limiting plate (21), it goes up fixedly connected with third slider (34) to float board (31), third slider (34) and first spout (23) sliding connection, it leads oil pipe (32) to float board (31) upper end fixedly connected with, the other end of leading oil pipe (32) extends to shell (11) outside and piston tube (47) intercommunication, the lower extreme fixedly connected with sleeve (36) of floating board (31), sleeve (36) with lead oil pipe (32) intercommunication, fixedly connected with filter screen (37) in sleeve (36), the lower extreme fixedly connected with stabilizer blade (35) of floating board (31).

5. The deodorization system based on kitchen waste resource recycling as claimed in claim 4, characterized in that: the oil guide mechanism (4) comprises a double-shaft motor (41), a rotor of the double-shaft motor (41) is fixedly connected with a right shaft (42), the right shaft (42) is fixedly connected with a disc (43), a convex block (44) is fixedly connected to the disc (43), a concave surface (45) is arranged on the disc (43), an arc surface (48) is arranged below the convex block (44), the convex block (44) is abutted to the arc surface (48), the lower end of the arc surface (48) is fixedly connected with a push-pull rod (49), the lower end of the push-pull rod (49) extends into a piston tube (47), a piston (410) is slidably connected to the piston tube (47), the push-pull rod (49) is fixedly connected with the piston (410), the lower end of the piston (410) is fixedly connected with a first compression spring (412), and the first compression spring (412) is fixedly connected to the bottom of the piston tube (47), the piston tube (47) is fixedly connected to the object carrier (46), and the object carrier (46) is fixedly connected to the outer side of the outer shell (11).

6. The deodorization system based on kitchen waste resource recycling as claimed in claim 5, characterized in that: the oil guide mechanism (4) further comprises an oil outlet pipe (413), the oil outlet pipe (413) is communicated with the oil storage barrel (51), the oil outlet pipe (413) and the oil guide pipe (32) are internally and fixedly connected with a one-way flow guide structure (414), a blocking block (4142) in the one-way flow guide structure (414) is fixedly connected to the oil outlet pipe (413) and the inner wall of the oil guide pipe (32), the blocking block (4142) is abutted to a rubber ball (4141), one end, far away from the blocking block (4142), of the rubber ball (4141) is fixedly connected with an expansion spring (4143), and the other end of the expansion spring (4143) is fixedly connected to the oil outlet pipe (413) and the oil guide pipe (32).

7. The deodorization system based on kitchen waste resource recycling as claimed in claim 6, characterized in that: the oil storage mechanism (5) comprises an oil storage barrel (51), an air outlet (52) is fixedly connected on the oil storage barrel (51), the oil drain pipe (53) is fixedly connected with one side of the oil storage barrel (51), the oil drain pipe (53) is fixedly connected with a sliding rod (54), the sliding rod (54) is connected with a sliding disc (55) in a sliding way, the top end of the sliding rod (54) is fixedly connected with a fixed disc (56), the sliding disc (55) is fixedly connected with a deformation spring (58), the blocking column (57) is nested with the deformation spring (58), the blocking column (57) passes through the sliding disc (55) and is abutted with the oil drain pipe (53), the plugging column (57) is connected with the sliding disc (55) in a sliding way, one end of the plugging column (57) is fixedly connected with a steel wire rope (59), the steel wire rope (59) penetrates through the fixed disc (56) and is connected with the fixed disc (56) in a sliding mode.

8. The deodorization system based on kitchen waste resource recycling according to claim 7, characterized in that: the vibrating mechanism (6) comprises a lifting disc (61), the lifting disc (61) is arranged below the discharging hopper (12), a striking rod (62) is fixedly connected to the lower end of the lifting disc (61), a second compression spring (65) is nested on the striking rod (62), a limiting disc (63) is fixedly connected to the lower side of the second compression spring (65), the limiting disc (63) is fixedly connected to the screen (17), the lower end of the striking rod (62) penetrates through the limiting disc (63) and the screen (17) to extend to the bottom of the shell (11), the striking rod (62) is slidably connected with the limiting disc (63) and the screen (17), a striking groove (66) is arranged below the striking rod (62), the striking groove (66) is fixedly connected to the cross rod (67), and the cross rod (67) is fixedly connected to the bottom of the shell (11), and a vibration spring (68) is fixedly connected to the cross rod (67).

9. The deodorization system based on kitchen waste resource reuse according to claim 8, characterized in that: deodorization mechanism (7) are including flabellum (71), flabellum (71) fixed connection be in one side of shell (11), the one end of flabellum (71) and belt (72) is rotated and is connected, the other end and left axle (73) of belt (72) are rotated and are connected, left side axle (73) with the rotor fixed connection of double-shaft motor (41), be fixed with on shell (11) flabellum (71) department intercommunication has exhaust pipe (74), exhaust pipe (74) extend to in fine sand layer (75), fine sand layer (75) coats and is stamped coarse sand layer (76), fixedly connected with scattered gas post (77) on exhaust pipe (74), scattered gas post (77) are in fine sand layer (75), scattered gas post (77) intussuseption is filled with active carbon (79), scattered gas hole (78) have been seted up on scattered gas post (77).

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