CN220597340U - In-situ composting fermentation system for kitchen garbage in community - Google Patents

Abstract

The utility model discloses an on-site composting fermentation system for kitchen garbage in communities, which belongs to the technical field of organic solid waste treatment, and comprises the following components: the throwing unit is used for receiving kitchen waste; the power energy conversion unit is used for converting part of energy generated by the body-building equipment or the rocking handle into electric energy, and the rest of energy is taken as direct power to be output; the biological conversion unit is matched with the throwing unit and receives the power output by the power conversion unit; the biological conversion unit is used for receiving the kitchen waste of the throwing unit and carrying out composting fermentation treatment on the kitchen waste; the energy storage unit is connected with the power transduction unit and the solar panel and used for storing electric energy generated by the power transduction unit and the solar panel; and the material outlet and returning unit is connected with the biological conversion unit and is used for outputting and returning decomposed materials of the biological conversion unit. The kitchen waste treatment and collection are organically combined, so that the problems of transportation and occupation of land caused by collection and treatment separation are solved.

Description

In-situ composting fermentation system for kitchen garbage in community

Technical Field

The utility model belongs to the technical field of organic solid waste treatment, and particularly relates to an on-site composting fermentation system for kitchen waste in communities.

Background

The composting technology is an important technical approach for solving the resource utilization of urban kitchen waste. After the garbage classification pushing, the separation amount of kitchen garbage is increased sharply, overload operation conditions of centralized garbage disposal facilities in various places are steep, and small kitchen garbage disposal facilities which are utilized nearby are used in place to relieve the contradiction, and meanwhile, the method can be flexibly suitable for the characteristics of relative dispersion of communities.

At present, the operation of the on-site treatment system of the kitchen waste in the community mainly depends on the power system to maintain the power consumption of the on-site treatment system, so that the treatment energy consumption and the treatment cost are obviously increased. Most communities around the country are equipped with basic exercise equipment to meet the daily exercise demands of residents. However, current community fitness exercise systems are relatively independent, and lack a matched kinetic energy conversion and energy storage system to achieve maximum utilization of energy inside communities.

Therefore, a community on-site collection and treatment system with small occupied area and capability of reducing kitchen waste sources is needed.

Disclosure of Invention

The utility model provides a community on-site collection and treatment system with small occupied area and capability of reducing kitchen waste sources, which adopts the following technical scheme:

an in-situ composting fermentation system for community kitchen waste, comprising:

the throwing unit is used for receiving kitchen waste;

the power energy conversion unit is used for converting part of energy generated by the body-building equipment or the rocking handle into electric energy, and the rest of energy is taken as direct power to be output;

the biological conversion unit is matched with the throwing unit and receives the power output by the power transduction unit; the biological conversion unit is used for receiving the kitchen waste of the throwing unit and carrying out composting fermentation treatment on the kitchen waste;

the energy storage unit is connected with the power transduction unit and the solar panel and used for storing electric energy generated by the power transduction unit and the solar panel;

and the material outlet and returning unit is connected with the biological conversion unit and is used for outputting and returning decomposed materials of the biological conversion unit.

Further, the power transduction unit comprises body-building equipment, a transmission assembly and a power generation assembly, wherein the transmission assembly comprises a flywheel assembly and a transmission shaft group, and a main rotating wheel of the body-building equipment is in transmission connection with the flywheel assembly through a direct-connection transmission shaft; the transmission shaft group comprises a first transmission shaft, a second transmission shaft and a third transmission shaft;

the flywheel assembly is connected with the first end of the first transmission shaft, the first transmission shaft is perpendicular to the second transmission shaft, and the second end of the first transmission shaft is in driving connection with the non-end part of the second transmission shaft through a transmission part;

the first end of the second transmission shaft is provided with a transmission device, the transmission device is in driving connection with the first end of the third transmission shaft, and the first end of the third transmission shaft is matched with the input end of the power generation assembly.

Further, the transmission device is a gearbox; the power generation assembly comprises a generator and a current collecting device, and the input end of the gearbox is in driving connection with the first end of the second transmission shaft; the output end of the gearbox is in driving connection with the first end of the third transmission shaft, and the second end of the third transmission shaft is in driving connection with the generator through a coupler; a brake is arranged on the gearbox; the collector device is used for collecting and conveying the electric energy generated by the generator to the energy storage unit.

Further, the throwing unit comprises a kitchen garbage bin, a gravity sensing gate, a crushing and impurity removing device and a feeding pipeline, wherein the gravity sensing gate is arranged at the bottom of the kitchen garbage bin; the crushing impurity removing device is arranged at the lower end of the gravity sensing gate and is used for removing impurities in kitchen waste and playing a role in crushing;

the feeding pipeline is arranged at the lower end of the crushing and impurity removing device and is used for conveying kitchen waste passing through the crushing and impurity removing device to the biological conversion unit.

Further, the biological conversion unit comprises a roller fermentation bin, a micro negative pressure deodorization device, a gear transmission mechanism, a stirring device and a driving device; the roller fermentation bin is rotatably arranged on the base;

front end sealing bins and rear end sealing bins are respectively arranged at the front end and the rear end of the roller fermentation bin;

the micro negative pressure deodorizing device comprises a vent pipe, a draught fan, an air outlet pipe and a deodorizing filter element, wherein the first end of the vent pipe is communicated with the top of the rear end sealing bin, and the second end of the vent pipe is connected with the inlet end of the draught fan; the outlet end of the induced draft fan is connected with the first end of the air outlet pipe, the deodorizing filter element is arranged on the air outlet pipe and is positioned at the non-end part of the air outlet pipe, and a rainproof hood is arranged at the end part of the second end of the air outlet pipe;

the gear transmission mechanism comprises an outer gear ring arranged on the outer wall of the roller fermentation bin and a first gear arranged on a fourth transmission shaft, and the first gear is meshed with the outer gear ring;

the stirring device comprises a stirring shaft and a blade, wherein the stirring shaft is positioned in the roller fermentation bin and is in sealed rotary connection with the roller fermentation bin; the plurality of paddles are arranged on the outer side of the circumference of the stirring shaft;

the driving device comprises a motor arranged at the outer side of the roller fermentation bin, and an output shaft of the motor is in driving connection with the fourth transmission shaft;

the feed inlet of the front end sealing bin is arranged corresponding to the feed pipeline, and the bottom of the rear end sealing bin is provided with a discharge hole.

Further, the material outlet and returning unit comprises a hopper, a lifting rope, a lifting device and a rocking handle, wherein the hopper is arranged corresponding to the material outlet, the hopper is connected with the lifting rope, and the lifting rope is arranged on the lifting device; the lifting device is in driving connection with the rocking handle, so that the lifting rope drives the hopper to move up and down and discharge is completed.

Further, the solar energy power generation system also comprises a solar energy power generation unit and a monitoring unit, wherein the solar energy power generation unit is arranged on the rain shed and is electrically connected with the energy storage unit; the monitoring unit is electrically connected with the energy storage unit, and is used for monitoring the running condition of the bioconversion unit in real time and controlling the feeding and discharging, stirring speed and ventilation speed of the bioconversion unit.

Further, the energy storage unit comprises a transformer and an energy storage battery, wherein the transformer is electrically connected with the generator, and the transformer is electrically connected with the energy storage battery; the energy storage battery is electrically connected with the monitoring unit and the bioconversion unit, and the energy storage battery is used for providing electric energy for the monitoring unit and the bioconversion unit.

The beneficial effects are that:

the on-site composting fermentation system for the kitchen waste in communities, provided by the utility model, organically combines a kitchen waste treatment system with a collection system, and solves the problems of transportation and occupation of land caused by collection and treatment separation in the past; the design of the drum fermentation bin driven by power and electricity solves the difficult problem of on-site treatment and operation energy supply of kitchen waste, and can efficiently reduce the treatment cost.

Drawings

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

1, a solar panel; 2. a gravity sensing gate; 3. a impurity removing device; 4. a front end sealing bin; 5. a roller fermentation bin; 6. a stirring device; 7. anti-sideslip wheel set; 8. a support base; 9. a monitoring unit; 10. an induced draft fan; 11. an energy storage unit; 12. a motor; 13. a gear transmission mechanism; 14. a discharge port; 15. a hopper; 16. a speed change device; 17. a drive shaft group; 18. a rear end sealing bin; 19. an air outlet pipe; 20. a discharge hole of the charging basket; 21. a deodorizing filter element; 22. a charging basket limiter; 23. a rocking handle; 24. a control panel; 25. a lifting device; 26. discharging barrels; 27. a fitness device; 28. a rain-proof hood.

Detailed Description

Example 1

Referring to fig. 1, an in-situ composting fermentation system for community kitchen waste, comprising:

the throwing unit is used for receiving kitchen waste;

the power conversion unit is used for converting part of energy generated by the exercise equipment 27 or the rocking handle 23 into electric energy, and the rest energy is taken as direct power to be output;

the biological conversion unit is matched with the throwing unit and receives the power output by the power conversion unit; the biological conversion unit is used for receiving the kitchen waste of the throwing unit and carrying out composting fermentation treatment on the kitchen waste;

the energy storage unit 11 is connected with the power transduction unit and the solar panel 1 and is used for storing electric energy generated by the power transduction unit and the solar panel 1;

and the material outlet and returning unit is connected with the biological conversion unit and is used for outputting and returning decomposed materials of the biological conversion unit.

In this embodiment, the launch unit and the power-transduction unit are located above ground and the bioconversion unit is located below ground.

In the embodiment, the power transduction unit comprises a body-building equipment 27, a transmission assembly and a power generation assembly, wherein the transmission assembly comprises a flywheel assembly and a transmission shaft group 17, and a main rotating wheel of the body-building equipment 27 is in transmission connection with the flywheel assembly through a direct-connection transmission shaft; the drive shaft group 17 includes a first drive shaft, a second drive shaft, and a third drive shaft.

The flywheel assembly is connected with a first end of a first transmission shaft, the first transmission shaft is vertically arranged with a second transmission shaft, wherein a second end of the first transmission shaft is in driving connection with a non-end part of the second transmission shaft through a transmission part; the transmission part can be a worm and gear mechanism, a worm is arranged at the second end of the first transmission shaft, a worm wheel is arranged at the non-end part of the second transmission shaft, and the worm wheel and the worm are matched to realize transmission.

The first end of the second transmission shaft is provided with a transmission device, the transmission device is in driving connection with the first end of the third transmission shaft, and the first end of the third transmission shaft is matched with the input end of the power generation assembly.

In this embodiment, the transmission is a gearbox; the power generation assembly comprises a generator and a current collecting device, and the input end of the gearbox is in driving connection with the first end of the second transmission shaft; the output end of the gearbox is in driving connection with the first end of the third transmission shaft, and the second end of the third transmission shaft is in driving connection with the generator through a coupler; a brake is arranged on the gearbox; the collector is used for collecting and transmitting the electric energy generated by the generator to the energy storage unit 11.

In the embodiment, the throwing unit comprises a kitchen garbage can, a gravity sensing gate 2, a crushing and impurity removing device 3 and a feeding pipeline, wherein the gravity sensing gate 2 is arranged at the bottom of the kitchen garbage can; the crushing and impurity removing device 3 is arranged at the lower end of the gravity sensing gate 2 and is used for removing impurities in kitchen waste and playing a role in crushing;

the feed pipeline is arranged at the lower end of the crushing and impurity removing device 3 and is used for conveying kitchen waste passing through the crushing and impurity removing device 3 to the bioconversion unit.

In this embodiment, the gravity sensing gate 2 is located at the bottom of the kitchen garbage can, and when the garbage in the can reaches a preset value, the gravity sensing gate 2 is automatically opened.

In this embodiment, smash edulcoration device 3 edulcoration reducing mechanism includes receiver box, broken bag edulcoration needle roller, clearance mechanism and screen cloth, and the receiver box corresponds the setting with gravity sensing gate 2 for receive the kitchen garbage that gravity sensing gate 2 released.

The number of the bag breaking and impurity removing needle rollers is 2, and the 2 bag breaking and impurity removing needle rollers are rotatably arranged in the receiving box, wherein the 2 bag breaking and impurity removing needle rollers rotate in opposite directions; the bag breaking and impurity removing needle roller is provided with a reverse hook type steel needle which is used for sorting out the extruded plastic bags.

The screen cloth is arranged at the lower ends of the 2 bag breaking and impurity removing needle rollers and is used for receiving and screening the plastics and the crushed kitchen waste.

The cleaning mechanism is arranged on one side of the screen and is used for collecting oversize materials on the screen to the collecting barrel. In this embodiment, the cleaning mechanism may be a wiper blade that is movable relative to the screen, or may be a component that is capable of cleaning oversize material on the screen.

The feeding pipeline is arranged at the lower end of the screen and used for conveying kitchen waste passing through the screen to the bioconversion unit.

In this embodiment, the bioconversion unit comprises a roller fermentation bin 5, a micro negative pressure deodorizing device, a gear transmission mechanism, a stirring device 6 and a driving device; the roller fermentation bin 5 is rotatably arranged on the base;

the front end and the rear end of the roller fermentation bin 5 are respectively provided with a front end sealing bin 4 and a rear end sealing bin 18.

In this embodiment, the lower ends of the front end seal cartridge 4 and the rear end seal cartridge 18 are provided with a support base 8, and the support base 8 is fixedly mounted on the base.

The front end and the rear end of the roller fermentation bin 5 are both provided with external anti-sideslip wheel sets 7 close to the end positions.

The micro negative pressure deodorizing device comprises a ventilating pipe, a draught fan 10, an air outlet pipe 19 and a deodorizing filter element 21, wherein a first end of the ventilating pipe is communicated with the top of a rear end sealing bin 18, and a second end of the ventilating pipe is connected with an inlet end of the draught fan 10; the outlet end of the induced draft fan 10 is connected with the first end of the air outlet pipe 19, the deodorizing filter element 21 is arranged on the air outlet pipe 19 and is positioned at the non-end part of the air outlet pipe 19, and the second end part of the air outlet pipe 19 is provided with a rainproof hood 28.

In this embodiment, the odor generated in the drum fermentation bin 5 enters the deodorizing filter element 21 (biological filter material) through the vent pipe and the air outlet pipe 19 under the action of negative pressure, is deodorized and then is discharged into the atmosphere, and the biological filter material is positioned at the upper end of the air outlet pipe 19 on the ground, so that the odor can be replaced at any time.

The gear transmission mechanism 13 comprises an outer gear ring arranged on the outer wall of the roller fermentation bin 5 and a first gear arranged on the fourth transmission shaft, and the first gear is meshed with the outer gear ring.

The stirring device 6 comprises a stirring shaft and a blade, wherein the stirring shaft is positioned in the roller fermentation bin 5 and is in sealed rotary connection with the roller fermentation bin 5; the plurality of paddles are arranged on the outer side of the circumference of the stirring shaft;

the driving device comprises a motor 12 arranged at the outer side of the roller fermentation bin 5, and an output shaft of the motor 12 is in driving connection with a fourth transmission shaft;

a transmission 16 is arranged between the secondary output of the electric motor 12 and the fourth drive shaft.

The feed inlet of the front end sealing bin 4 is arranged corresponding to the feed pipeline, and the bottom of the rear end sealing bin 18 is provided with a discharge port 14.

In the embodiment, the material outlet and returning unit comprises a hopper 15, a lifting rope, a lifting device 25 and a rocking handle 23, wherein the hopper 15 is arranged corresponding to the material outlet 14, the hopper 15 is connected with the lifting rope, and the lifting rope is arranged on the lifting device 25; the lifting device 25 is in driving connection with the rocking handle 23 so as to drive the hopper 15 to move up and down through the lifting rope and complete discharging.

The on-site composting fermentation system for the kitchen garbage of the community provided by the embodiment further comprises a solar power generation unit and a monitoring unit 9, wherein the solar power generation unit is arranged on the rain shed and is electrically connected with the energy storage unit 11; the monitoring unit 9 is electrically connected with the energy storage unit 11, and the monitoring unit 9 is used for monitoring the running condition of the bioconversion unit in real time and controlling the feeding and discharging, stirring speed and ventilation speed of the bioconversion unit.

In the present embodiment, the energy storage unit 11 includes a transformer and an energy storage battery, the transformer is electrically connected with the energy storage battery, and the transformer is electrically connected with the energy storage battery; the energy storage battery is electrically connected with the monitoring unit 9 and the bioconversion unit, and the energy storage battery is used for providing electric energy for the monitoring unit 9 and the bioconversion unit.

In the embodiment, a discharging barrel 26 is also arranged in the rain shelter, and a discharging barrel outlet 20 is arranged on the discharging barrel 26; at the upper end of the discharge opening 20, a discharge barrel 26 is provided with a barrel stopper 22 for restricting the discharge position of the hopper 15. The upper end of the discharging barrel 26 is provided with a control panel 24, and the control panel 24 is electrically connected with the lifting device 25, the motor 12 and the induced draft fan 10 and used for starting and stopping the lifting device 25, the motor 12 and the induced draft fan 10.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (8)

1. An in-situ composting fermentation system for kitchen waste in communities, comprising:

the throwing unit is used for receiving kitchen waste;

the power energy conversion unit is used for converting part of energy generated by the body-building equipment or the rocking handle into electric energy, and the rest of energy is taken as direct power to be output;

the biological conversion unit is matched with the throwing unit and receives the power output by the power transduction unit; the biological conversion unit is used for receiving the kitchen waste of the throwing unit and carrying out composting fermentation treatment on the kitchen waste;

the energy storage unit is connected with the power transduction unit and the solar panel and used for storing electric energy generated by the power transduction unit and the solar panel;

and the material outlet and returning unit is connected with the biological conversion unit and is used for outputting and returning decomposed materials of the biological conversion unit.

2. The community kitchen waste in-situ composting fermentation system according to claim 1, wherein the power transduction unit comprises body building equipment, a transmission assembly and a power generation assembly, the transmission assembly comprises a flywheel assembly and a transmission shaft group, and a main rotating wheel of the body building equipment is in transmission connection with the flywheel assembly through a direct-connection transmission shaft; the transmission shaft group comprises a first transmission shaft, a second transmission shaft and a third transmission shaft;

the flywheel assembly is connected with the first end of the first transmission shaft, the first transmission shaft is perpendicular to the second transmission shaft, and the second end of the first transmission shaft is in driving connection with the non-end part of the second transmission shaft through a transmission part;

the first end of the second transmission shaft is provided with a transmission device, the transmission device is in driving connection with the first end of the third transmission shaft, and the first end of the third transmission shaft is matched with the input end of the power generation assembly.

3. The community kitchen waste in-situ composting fermentation system of claim 2, wherein the transmission is a gearbox; the power generation assembly comprises a generator and a current collecting device, and the input end of the gearbox is in driving connection with the first end of the second transmission shaft; the output end of the gearbox is in driving connection with the first end of the third transmission shaft, and the second end of the third transmission shaft is in driving connection with the generator through a coupler; a brake is arranged on the gearbox; the collector device is used for collecting and conveying the electric energy generated by the generator to the energy storage unit.

4. The community kitchen waste in-situ composting fermentation system of claim 3, wherein the throwing unit comprises a kitchen waste bin, a gravity sensing gate, a crushing and impurity removing device and a feeding pipeline, and the gravity sensing gate is arranged at the bottom of the kitchen waste bin; the crushing impurity removing device is arranged at the lower end of the gravity sensing gate and is used for removing impurities in kitchen waste and playing a role in crushing;

the feeding pipeline is arranged at the lower end of the crushing and impurity removing device and is used for conveying kitchen waste passing through the crushing and impurity removing device to the biological conversion unit.

5. The in-situ composting fermentation system of community kitchen waste according to claim 4, wherein the bioconversion unit comprises a roller fermentation bin, a micro negative pressure deodorization device, a gear transmission mechanism, a stirring device and a driving device; the roller fermentation bin is rotatably arranged on the base;

front end sealing bins and rear end sealing bins are respectively arranged at the front end and the rear end of the roller fermentation bin;

the micro negative pressure deodorizing device comprises a vent pipe, a draught fan, an air outlet pipe and a deodorizing filter element, wherein the first end of the vent pipe is communicated with the top of the rear end sealing bin, and the second end of the vent pipe is connected with the inlet end of the draught fan; the outlet end of the induced draft fan is connected with the first end of the air outlet pipe, the deodorizing filter element is arranged on the air outlet pipe and is positioned at the non-end part of the air outlet pipe, and a rainproof hood is arranged at the end part of the second end of the air outlet pipe;

the gear transmission mechanism comprises an outer gear ring arranged on the outer wall of the roller fermentation bin and a first gear arranged on a fourth transmission shaft, and the first gear is meshed with the outer gear ring;

the stirring device comprises a stirring shaft and a blade, wherein the stirring shaft is positioned in the roller fermentation bin and is in sealed rotary connection with the roller fermentation bin; the plurality of paddles are arranged on the outer side of the circumference of the stirring shaft;

the driving device comprises a motor arranged at the outer side of the roller fermentation bin, and an output shaft of the motor is in driving connection with the fourth transmission shaft;

the feed inlet of the front end sealing bin is arranged corresponding to the feed pipeline, and the bottom of the rear end sealing bin is provided with a discharge hole.

6. The in-situ composting fermentation system of community kitchen waste according to claim 5, wherein the material outlet and returning unit comprises a hopper, a lifting rope, a lifting device and a rocking handle, wherein the hopper is arranged corresponding to the material outlet, the hopper is connected with the lifting rope, and the lifting rope is arranged on the lifting device; the lifting device is in driving connection with the rocking handle, so that the lifting rope drives the hopper to move up and down and discharge is completed.

7. The community kitchen waste in-situ composting fermentation system of claim 6, further comprising a solar power generation unit and a monitoring unit, wherein the solar power generation unit is arranged on a rain shed and is electrically connected with the energy storage unit; the monitoring unit is electrically connected with the energy storage unit, and is used for monitoring the running condition of the bioconversion unit in real time and controlling the feeding and discharging, stirring speed and ventilation speed of the bioconversion unit.

8. The community in-situ composting fermentation system of kitchen waste of claim 7, wherein the energy storage unit comprises a transformer and an energy storage battery, the transformer is electrically connected with the generator, and the transformer is electrically connected with the energy storage battery; the energy storage battery is electrically connected with the monitoring unit and the bioconversion unit, and the energy storage battery is used for providing electric energy for the monitoring unit and the bioconversion unit.