A garbage storage machine
By designing an automatic compression and sealed storage system for the waste storage machine, the environmental pollution problem caused by open-air waste disposal has been solved, achieving efficient and odor-free waste treatment and improving environmental quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HEFEI RUIXI INTELLIGENT ENVIRONMENT TECH CO LTD
- Filing Date
- 2023-07-10
- Publication Date
- 2026-06-26
AI Technical Summary
In existing technologies, the open placement of garbage at collection points leads to environmental pollution, taking up a large area, emitting foul odors, breeding mosquitoes, and causing visual pollution.
A waste storage machine was designed, including a box, a compression box and a conveyor belt system. The movement of the guide plate and the compression plate is controlled by a drive motor to realize the automatic compression and storage of waste. The sealed design prevents odor from overflowing, and the waste bin is automatically emptied by lifting the guide rail. The whole process does not require manual operation.
It achieves automated compression and storage of waste, reducing the footprint, preventing odors and mosquito breeding, improving the aesthetics of the environment, and eliminating the need for manual docking with garbage collection trucks, making it economical and efficient.
Smart Images

Figure CN116788727B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of waste treatment technology, and in particular to a waste storage machine. Background Technology
[0002] Waste disposal and collection facilities are directly linked to residents' living environment. They are an important link in receiving the household waste generated by residents, and have a direct impact on the living environment of urban and rural residents. They are also an important point of concern for residents in their perception of the surrounding environment.
[0003] Currently, most of the household waste in the community is dumped in garbage bins, and the full garbage bins are left in the open at fixed collection points to wait for garbage trucks to collect them. This method not only takes up a lot of space, causes stench, breeds mosquitoes, but also causes visual pollution and affects the community environment.
[0004] There is a patent with publication number CN204777024U entitled "Automatic Compression and Packaging Device for Household Waste". It includes a compression box, a compression mechanism, a pushing mechanism, and a packaging mechanism. The compression box is provided with an inlet, a compression port, a pushing port, and an outlet. The compression mechanism is connected to the compression port, the pushing mechanism is connected to the pushing port, and the packaging mechanism is connected to the outlet. This utility model can realize the automatic compression and processing of household waste, which is convenient for transfer by transport vehicles. However, the applicant found that it cannot store the compressed waste blocks. That is, the waste blocks will still wait for the garbage truck at the collection point before the transfer vehicle is transported. Summary of the Invention
[0005] In view of this, the purpose of this invention is to provide a garbage storage machine to solve the problem of garbage being placed in the open at collection points, which pollutes the environment.
[0006] To achieve the above objectives, the present invention provides a waste storage machine, comprising a housing with an inlet on the housing and an inlet door for opening and closing the inlet. A first compression chamber is disposed below the inlet within the housing. A second compression chamber is disposed below one side of the first compression chamber, and a pressure plate is disposed above the second compression chamber. The pressure plate is connected to the top of the housing via a lifting control, which controls the downward movement of the pressure plate to compress the waste within the second compression chamber. An inclined guide plate is disposed above the other side of the first compression chamber and connected to the inner wall of the housing. A material guiding and compressing component is disposed on the outer side wall of one side of the first compression chamber, above the second compression chamber. The material guiding and compressing component includes a driving component connected to the first compression chamber, and a driving shaft is connected to the driving component. The driving component controls the rotation of the driving shaft. A driving arm is fixedly connected to the side wall of the driving shaft, and a movable guide plate is hinged to the other end of the driving arm. An upper end of the movable guide plate extends... The compression chamber is equipped with multiple telescopic guide plates. A hinge block is hinged at the corner of the first compression chamber and located above the drive arm. A sliding block is fixedly installed on the hinge block. A sliding groove that cooperates with the sliding block is opened on the moving guide plate. A first ejector port and a second ejector port are respectively opened on the side walls of the first compression chamber and the second compression chamber. A pusher is provided on the side of the first compression chamber and the second compression chamber opposite to the first ejector port and the second ejector port, respectively. The pusher is connected to a push plate. The pusher can be a drive telescopic push rod. The pusher is used to control the push plate to move and eject the compressed waste from the first ejector port or the second ejector port. The first ejector port is provided with a first ejector door, and the second ejector port is provided with a second ejector door. A first upper conveyor belt and a first lower conveyor belt are respectively provided on one side of the first ejector port and the second ejector port, located inside the chamber. A discharge port located on the side of the first upper conveyor belt is opened on one side of the chamber. A discharge door is provided at the discharge port.
[0007] Optionally, both sides of the sliding block are provided with sealing multi-section telescopic plates located at the opening of the sliding groove. The other end of the sealing multi-section telescopic plates is connected to the sliding groove. Both sides of the sliding block are provided with sealing pads that contact the inner sidewall of the sliding groove. Both ends of the sliding groove are connected to a suction pipe and an exhaust pipe. Both the suction pipe and the exhaust pipe are provided with a one-way valve. The other end of the suction pipe is provided with a suction port located below the feed inlet. The exhaust pipe is connected to a discharge valve provided on the outer sidewall of the box through a filter valve.
[0008] Optionally, the outer side of the box is provided with a lifting guide rail located on one side of the inlet. The lifting guide rail includes two long guide rods, each with a groove. A slider is slidably connected within the groove. Each long guide rod includes a straight section connected to an arc section at its upper end. The other end of the arc section is connected to one side of the inlet. The lower part of the arc section has an extension opening communicating with the groove. The size of the extension opening is not less than the size of the slider. A lifting member is provided between the two long guide rods. The lifting member is connected to a lifting plate. The lifting plate is provided with a clamping member for clamping and fixing the trash can. The slider is connected to the upper end of the trash can.
[0009] Optionally, the slider is connected to the upper end of the trash can via a fixing member. The fixing member includes a fixing plate connected to the slider. A fixed telescopic rod is provided on one side of the fixing plate. A movable plate is connected to the telescopic end of the fixed telescopic rod. The telescopic extension and retraction of the fixed telescopic rod is used to control the movable plate to move closer to or away from the fixing plate to clamp or release the trash can.
[0010] Optionally, a guardrail for placing a trash can is provided on one side of the lifting guide rail.
[0011] Optionally, the discharge port is provided with a swinging component, which is located between the first upper conveyor belt and the first lower conveyor belt. The swinging component includes a swinging control connected to the housing, and the swinging control is connected to a swinging shaft. The swinging control can be a swinging motor that is drivenly connected to the swinging shaft. The swinging control is used to control the rotation of the swinging shaft, and a swinging guide plate is fixedly connected to the side wall of the swinging shaft.
[0012] Optionally, the swing guide plate is provided with multiple rollers at equal intervals.
[0013] Optionally, an arc-shaped second upper conveyor belt is provided on one side of the same plane as the first upper conveyor belt, with both ends of the second upper conveyor belt pointing towards the first upper conveyor belt. An arc-shaped second lower conveyor belt is provided on one side of the same plane as the first lower conveyor belt, with both ends of the second lower conveyor belt pointing towards the first lower conveyor belt. Guide plates are provided at the output ends of the first upper conveyor belt and the first lower conveyor belt, and the guide plates are connected to the housing through a drive guide telescopic rod.
[0014] Optionally, a scraper is provided at the other end of the multi-section telescopic guide plate.
[0015] Optionally, the multi-section telescopic guide plate is provided with an elastic spring, and the two ends of the elastic spring are respectively connected to the moving guide plate and the scraper.
[0016] The beneficial effects of this invention: This invention provides a waste storage machine. When waste needs to be processed, it is fed into the container through the inlet. First, the drive motor is controlled to keep the moving guide plate vertical, with the upper ends of the multi-section telescopic guide plate contacting the top of the container. The waste falls directly into the first compression box. After a certain amount of waste is fed in, the drive motor is started, causing the drive shaft to rotate counterclockwise. This, through the drive arm, moves the moving guide plate diagonally to the upper left. The multi-section telescopic guide plate and the moving guide plate compress the waste, compressing it into the first compression box. Then, a pusher pushes the compressed waste in the first compression box onto a first upper conveyor belt. The first upper conveyor belt moves a certain distance and stops when there is no waste at the first discharge door. In addition, when the first compression chamber is full of garbage, the drive motor can be started to drive the multi-section telescopic guide plate to contact the inner side wall of the chamber. At this time, the garbage can be guided down to the second compression chamber by the multi-section telescopic guide plate and the moving guide plate. In addition, the drive motor starts to drive the multi-section telescopic guide plate and the moving guide plate to tilt upward, accelerating the garbage falling from the multi-section telescopic guide plate and the moving guide plate into the second compression chamber. After the moving guide plate is vertical, the first drive telescopic rod controls the pressure plate to move downward, driving the pressure plate to compress the garbage machine. Then the pusher pushes the compressed garbage in the second compression chamber to the first lower conveyor belt. The first lower conveyor belt moves a certain distance. When there is no garbage at the second outlet, the first lower conveyor belt stops moving, which facilitates the storage of compressed garbage blocks. Attached Figure Description
[0017] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0018] Figure 1 This is a schematic diagram of the structure of the present invention;
[0019] Figure 2 This is a schematic diagram of the operating state structure of the present invention;
[0020] Figure 3 This is a schematic diagram of the right-side structure of the present invention;
[0021] Figure 4 This is a schematic diagram of the internal structure of the housing of the present invention;
[0022] Figure 5 for Figure 4 An enlarged structural diagram at point A in the middle;
[0023] Figure 6 for Figure 4An enlarged structural diagram at point B in the middle;
[0024] Figure 7 for Figure 4 An enlarged structural diagram at point C;
[0025] Figure 8 for Figure 4 An enlarged structural diagram at point D;
[0026] Figure 9 This is a partial top view of the internal structure of the housing of the present invention;
[0027] Figure 10 This is a schematic diagram of the lifting guide rail of the present invention;
[0028] Figure 11 for Figure 10 An enlarged structural diagram at point E in the middle.
[0029] In the diagram: 1. Box body; 2. Inlet; 3. Inlet gate; 4. Lifting guide rail; 5. Lifting component; 6. Lifting plate; 7. Trash can; 8. Slide chute; 9. Sliding block; 10. Extension port; 11. Outlet; 12. Outlet gate; 13. First compression box; 14. Second compression chamber; 15. Inclined guide plate; 16. Multi-section telescopic guide plate; 17. Moving guide plate; 18. Hinge block; 19. Sliding block; 20. Sliding groove; 21. Dense 21. Multi-section telescopic plate; 22. Sealing pad; 23. Intake pipe; 24. Exhaust pipe; 25. Drive motor; 26. Drive shaft; 27. Drive arm; 28. Scraper; 29. Elastic spring; 30. Swinging component; 31. First upper conveyor belt; 32. First lower conveyor belt; 33. Second lower conveyor belt; 34. First drive telescopic rod; 35. Pressure plate; 36. Swinging guide plate; 37. Swinging shaft; 38. Second upper conveyor belt. Detailed Implementation
[0030] To make the objectives, technical solutions, and advantages of the present invention clearer, the present invention will be further described in detail below with reference to specific embodiments and accompanying drawings.
[0031] It should be noted that, unless otherwise defined, the technical or scientific terms used in the embodiments of this invention should have the ordinary meaning understood by those skilled in the art to which this invention pertains. The terms "first," "second," and similar terms used in this invention do not indicate any order, quantity, or importance, but are merely used to distinguish different components. Terms such as "comprising" or "including" mean that the element or object preceding the word encompasses the elements or objects listed following the word and their equivalents, without excluding other elements or objects. Terms such as "connected" or "linked" are not limited to physical or mechanical connections, but can include electrical connections, whether direct or indirect. Terms such as "upper," "lower," "left," and "right" are used only to indicate relative positional relationships; when the absolute position of the described object changes, the relative positional relationship may also change accordingly.
[0032] like Figure 1-11As shown, a waste storage machine includes a housing 1 with an inlet 2. An inlet door 3 for opening and closing the inlet 2 is provided at the inlet 2. A first compression chamber 13 is located below the inlet 2 inside the housing 1. A second compression chamber 14 is located below one side of the first compression chamber 13. A pressure plate 35 is located above the second compression chamber 14. The pressure plate 35 is connected to the top of the housing 1 via a lifting control. The lifting control is used to control the pressure plate 35 to move downwards to compress the waste in the second compression chamber 14. The lifting control can be a... A drive telescopic rod 34 is provided. An inclined guide plate 15, connected to the inner wall of the box body 1, is provided above the other side of the first compression box 13. A material guiding and compressing component, located above the second compression chamber 14, is provided on one outer side wall of the first compression box 13. The material guiding and compressing component includes a drive component connected to the first compression box 13. The drive component can be a drive motor 25. The drive component is connected to a drive shaft 26, which controls the rotation of the drive shaft 26. A drive arm 27 is fixedly connected to the side wall of the drive shaft 26, and a movable arm 27 is hinged to the other end of the drive arm 27. A movable guide plate 17 is provided, with multiple telescopic guide plates 16 extending from its upper end. A hinge block 18 is hinged at the corner of the first compression box 13, located above the drive arm 27. A sliding block 19 is fixedly provided on the hinge block 18. A sliding groove 20 is provided on the movable guide plate 17 to cooperate with the sliding block 19. A first ejection port and a second ejection port are respectively provided on the side walls of the first compression box 13 and the second compression chamber 14, respectively, opposite to the first ejection port and the second ejection port. Each side of the enclosure is equipped with a pusher, which is connected to a push plate. The pusher can be a drive telescopic push rod. The pusher is used to control the movement of the push plate to push the compressed waste out from the first or second push port. The first and second push ports are respectively provided with a first upper conveyor belt 31 and a first lower conveyor belt 32 located inside the enclosure 1. The first upper conveyor belt 31 is located above the first lower conveyor belt 32. The enclosure 1 has a discharge port 11 located on the side of the first upper conveyor belt 31. A discharge gate 12 is provided at the discharge port 11.
[0033] When waste needs to be processed, it is fed into the container 1 through the inlet 2. First, the drive motor 25 is controlled to make the moving guide plate 17 vertical, with the upper end of the multi-section telescopic guide plate 16 contacting the top of the container 1. The waste falls directly into the first compression box 13. After a certain amount of waste is fed in, the drive motor 25 is started, causing the drive shaft 26 to rotate counterclockwise. The drive arm 27 then moves the moving guide plate 17 diagonally to the upper left. The multi-section telescopic guide plate 16 and the moving guide plate 17 compress the waste, compressing it into the first compression box 13. Then, a pusher pushes the compressed waste in the first compression box 13 to the first upper conveyor belt 31. The first upper conveyor belt 31 moves a certain distance, and stops when there is no waste at the first exit door. Furthermore, in the first compression box 13... When the inner garbage chamber is full, the drive motor 25 can be started, causing the multi-section telescopic guide plate 16 to come into contact with the inner side wall of the box 1. At this time, the garbage can be guided down to the second compression chamber 14 by the multi-section telescopic guide plate 16 and the moving guide plate 17. In addition, the drive motor 25 starts to drive the multi-section telescopic guide plate 16 and the moving guide plate 17 to tilt upward, accelerating the garbage on the multi-section telescopic guide plate 16 and the moving guide plate 17 to fall into the second compression chamber 14. After the moving guide plate 17 is vertical, the first drive telescopic rod 34 controls the pressure plate 35 to move downward, driving the pressure plate 35 to compress the garbage. Then the pusher pushes the compressed garbage in the second compression chamber 14 to the first lower conveyor belt 32. The first lower conveyor belt 32 moves a certain distance. When there is no garbage at the second outlet, the first lower conveyor belt 32 stops moving, which facilitates the storage of the compressed garbage blocks.
[0034] To address the odor from the garbage collection point, the sliding block 19 is equipped with sealed multi-section telescopic plates 21 on both sides, located at the openings of the sliding groove 20. The other end of each sealed multi-section telescopic plate 21 is connected to the sliding groove 20. Sealing pads 22 are provided on both sides of the sliding block 19, contacting the inner wall of the sliding groove 20. Both ends of the sliding groove 20 are connected to an air intake pipe 23 and an exhaust pipe 24. One-way valves are installed inside both the air intake pipe 23 and the exhaust pipe 24. The other end of the air intake pipe 23... An air intake port is provided below the feed inlet 2. The exhaust pipe 24 is connected to a discharge valve provided on the outer wall of the box 1 through a filter valve. The garbage is fed into the box 1 through the feed inlet 2. When the moving guide plate 17 moves to guide or compress the garbage, the sliding block 19 moves in the sliding groove 20, which drives the sealing pad 22 to move in the sliding groove 20. A filter screen is provided in the air intake pipe 23. The air intake pipe 23 draws the odorous air into the sliding groove 20 and then discharges it through the exhaust pipe 24.
[0035] The outer side of the housing 1 is provided with a lifting guide rail 4 located on one side of the inlet 2. The lifting guide rail 4 includes two long guide rods, each with a groove 8. A slider 9 is slidably connected within the groove 8. Each long guide rod includes a straight section and an arc section connected to the upper end of the straight section. The other end of the arc section is connected to one side of the inlet 2. The lower part of the arc section has an extension port 10 communicating with the groove 8. The size of the extension port 10 is not smaller than the size of the slider 9. A lifting member 5 is provided between the two long guide rods. A lifting plate 6 is hinged to the lifting member 5. A clamping member for holding and fixing the garbage can 7 is provided on the lifting plate 6. The slider 9 is connected to the upper end of the garbage can 7, allowing the garbage can 7 containing garbage to be moved to one side of the lifting guide rail 4. The slider 9 moves into the groove 8 through the extension port 10, and the lifting plate 6 clamps and fixes the garbage can 7. The lifting member 5 controls the lifting plate 6 and the garbage can 7 to move upward, emptying the garbage in the garbage can 7 into the housing 1.
[0036] The slider 9 is connected to the upper end of the trash can 7 by a fixing member. The fixing member includes a fixing plate connected to the slider 9. A fixed telescopic rod is provided on one side of the fixing plate. A movable plate is connected to the telescopic end of the fixed telescopic rod. The telescopic extension and retraction of the fixed telescopic rod is used to control the movable plate to move closer to or away from the fixing plate to clamp or release the trash can 7.
[0037] The lifting guide rail 4 is equipped with a guardrail for placing the trash can, which helps to restrict the placement of the trash can 7 and makes it easier to match the trash can 7 with the lifting guide rail 4, thereby improving the efficiency of trash dumping.
[0038] To facilitate the unloading of compressed waste, the discharge port 11 is equipped with a swing element 30, which is located between the first upper conveyor belt 31 and the first lower conveyor belt 32. The swing element 30 includes a swing control connected to the housing 1, and the swing control is connected to a swing shaft 37. The swing control can be a swing motor that is drivenly connected to the swing shaft 37. The swing control is used to control the rotation of the swing shaft 37. A swing guide plate 36 is fixedly connected to the side wall of the swing shaft 37. When the swing motor is started, it drives the swing shaft 37 to rotate, causing the swing guide plate 36 to swing. The swing guide plate 36 can dock with the first upper conveyor belt 31 or the first lower conveyor belt 32. Waste on the first upper conveyor belt 31 or the first lower conveyor belt 32 can be transported to the swing guide plate 36. The tilting of the swing guide plate 36 also facilitates the unloading of compressed waste.
[0039] To facilitate the rapid transport of compressed waste blocks, multiple rollers are evenly spaced on the swing guide plate 36.
[0040] An arc-shaped second upper conveyor belt 38 is provided on one side of the first upper conveyor belt 31 on the same plane. Both ends of the second upper conveyor belt 38 point to the first upper conveyor belt 31. An arc-shaped second lower conveyor belt 33 is provided on one side of the first lower conveyor belt 32 on the same plane. Both ends of the second lower conveyor belt 33 point to the first lower conveyor belt 32. Guide plates are provided at the output ends of the first upper conveyor belt 31 and the first lower conveyor belt 32. The guide plates are connected to the box 1 through a drive guide telescopic rod. When the garbage storage on the first upper conveyor belt 31 or the first lower conveyor belt 32 is full, the guide plates can be moved to the output ends of the first upper conveyor belt 31 and the first lower conveyor belt 32, and the garbage on the first upper conveyor belt 31 or the first lower conveyor belt 32 can be transferred to the second upper conveyor belt 38 or the second lower conveyor belt 33, thus increasing the garbage storage space.
[0041] To facilitate scraping away impurities on the inner wall of the housing 1, a scraper 28 is provided at the other end of the multi-section telescopic guide plate 16.
[0042] The multi-section telescopic guide plate 16 is provided with an elastic spring 29. The two ends of the elastic spring 29 are respectively connected to the moving guide plate 17 and the scraper 28. The elastic spring 29 makes it easy for the scraper 28 to be in contact with the inner wall of the box 1, so as to scrape the impurities on the inner wall of the box 1 and prevent the garbage from moving to other places.
[0043] Alternatively, the multi-section telescopic guide plate 16 may be electrically driven or hydraulically driven.
[0044] A collection box is provided at the bottom of the box 1, and a push plate is provided inside the collection box. The push plate is connected to the inner side wall of the box 1 by controlling the movement of a telescopic rod. The collection box facilitates the collection of dripping or falling garbage.
[0045] This application is for a garbage storage machine with self-loading and unloading function. The temporary storage equipment occupies a small area, which can make the most of the space to store garbage. The storage process is completely sealed, with no odor leakage, no easy breeding of mosquitoes, no visual pollution, and no need for manual labor during docking with garbage collection trucks. It is more economical, with no sewage overflow, no unloading dust, and no noise pollution.
[0046] Those skilled in the art should understand that the discussion of any of the above embodiments is merely exemplary and is not intended to imply that the scope of the invention is limited to these examples; within the framework of the invention, the technical features of the above embodiments or different embodiments can also be combined, the steps can be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.
[0047] The embodiments of this invention are intended to cover all such substitutions, modifications, and variations falling within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this invention should be included within the scope of protection of this invention.
Claims
1. A waste storage machine, comprising a housing, wherein the housing has an inlet, and an inlet door for opening and closing the inlet is provided at the inlet, characterized in that, The container contains a first compression chamber located below the inlet. A second compression chamber is located below one side of the first compression chamber, and a pressure plate is located above the second compression chamber. The pressure plate is connected to the top of the container via a lifting control, which controls the downward movement of the pressure plate to compress the waste inside the second compression chamber. An inclined guide plate connected to the inner wall of the container is located above the other side of the first compression chamber. A material guiding and compressing component located above the second compression chamber is located on the outer wall of one side of the first compression chamber. The material guiding and compressing component includes a driving component connected to the first compression chamber. The driving component is connected to a driving shaft and controls the rotation of the driving shaft. A driving arm is fixedly connected to the side wall of the driving shaft. A movable guide plate is hinged to the other end of the driving arm. Multiple telescopic guide plates extend from the upper end of the movable guide plate. A hinged section is located at the corner of the first compression chamber. A hinge block is located above the drive arm, and a sliding block is fixedly installed on the hinge block. A sliding groove that cooperates with the sliding block is opened on the moving guide plate. A first ejector port and a second ejector port are respectively opened on the side walls of the first compression box and the second compression chamber. A pusher is provided on the side of the first compression box and the second compression chamber opposite to the first ejector port and the second ejector port, respectively. The pusher is connected to a push plate. The pusher is used to control the movement of the push plate to eject the compressed waste from the first ejector port or the second ejector port. The first ejector port is provided with a first ejector door, and the second ejector port is provided with a second ejector door. A first upper conveyor belt and a first lower conveyor belt are respectively provided on one side of the first ejector port and the second ejector port, located inside the box. A discharge port located on the side of the first upper conveyor belt is opened on one side of the box, and a discharge door is provided at the discharge port.
2. A waste storage machine according to claim 1, characterized in that, Both sides of the sliding block are provided with sealing multi-section telescopic plates located at the opening of the sliding groove. The other end of the sealing multi-section telescopic plates is connected to the sliding groove. Both sides of the sliding block are provided with sealing pads that contact the inner sidewall of the sliding groove. Both ends of the sliding groove are connected to a suction pipe and an exhaust pipe. Both the suction pipe and the exhaust pipe are provided with one-way valves. The other end of the suction pipe is provided with a suction port located below the feed inlet. The exhaust pipe is connected to a discharge valve provided on the outer sidewall of the box through a filter valve.
3. A waste storage machine according to claim 1, characterized in that, The outer side of the container is provided with a lifting guide rail located on one side of the feed inlet. The lifting guide rail includes two long guide rods, each with a groove. A slider is slidably connected within the groove. Each long guide rod includes a straight section and an arc section connected to the upper end of the straight section. The other end of the arc section is connected to one side of the feed inlet. The lower part of the arc section has an extension opening communicating with the groove. The size of the extension opening is not less than the size of the slider. A lifting member is provided between the two long guide rods. The lifting member is connected to a lifting plate. The lifting plate is provided with a clamping member for clamping and fixing the trash can. The slider is connected to the upper end of the trash can.
4. A waste storage machine according to claim 3, characterized in that, The slider is connected to the upper end of the trash can by a fastener. The fastener includes a fixed plate connected to the slider. A fixed telescopic rod is provided on one side of the fixed plate. A movable plate is connected to the telescopic end of the fixed telescopic rod. The telescopic extension and retraction of the fixed telescopic rod is used to control the movable plate to move closer to or away from the fixed plate to clamp or release the trash can.
5. A waste storage machine according to claim 3, characterized in that, A guardrail for placing trash cans is installed on one side of the lifting guide rail.
6. A waste storage machine according to claim 1, characterized in that, The discharge port is equipped with a swinging component, which is located between the first upper conveyor belt and the first lower conveyor belt. The swinging component includes a swing control connected to the box body. The swing control is connected to a swing shaft and is used to control the rotation of the swing shaft. A swing guide plate is fixedly connected to the side wall of the swing shaft.
7. A waste storage machine according to claim 6, characterized in that, The swing guide plate is provided with multiple rollers at equal intervals.
8. A waste storage machine according to claim 1, characterized in that, An arc-shaped second upper conveyor belt is provided on one side of the same plane as the first upper conveyor belt, with both ends of the second upper conveyor belt pointing towards the first upper conveyor belt. An arc-shaped second lower conveyor belt is provided on one side of the same plane as the first lower conveyor belt, with both ends of the second lower conveyor belt pointing towards the first lower conveyor belt. Guide plates are provided at the output ends of the first upper conveyor belt and the first lower conveyor belt, and the guide plates are connected to the housing through a drive guide telescopic rod.
9. A waste storage machine according to claim 1, characterized in that, A scraper is provided at the other end of the multi-section telescopic guide plate.
10. A waste storage machine according to claim 9, characterized in that, The multi-section telescopic guide plate is equipped with an elastic spring, and the two ends of the elastic spring are respectively connected to the moving guide plate and the scraper.