CN212760299U - Closed type collection and ecological treatment system suitable for organic garbage in building - Google Patents

Abstract

The utility model relates to a closed collection and ecological treatment system suitable for organic rubbish in building, collect mechanism and ecological treatment mechanism including collection water tank, rubbing crusher, vacuum, wherein, rubbing crusher's feed inlet connect the bottom export of collection water tank, rubbing crusher's discharge gate is then connected the mechanism feed end is collected in the vacuum, after carrying, storing the mechanism, the discharge end that this vacuum was collected the mechanism is connected ecological treatment mechanism. Compared with the prior art, the utility model discloses can realize the high-efficient resourceful treatment to organic rubbish in multilayer, the high-rise building, simultaneously, because whole processing procedure is closed, also avoided the threat of smell and disease propagation, improve the office environment.

Description

Closed type collection and ecological treatment system suitable for organic garbage in building

Technical Field

The utility model belongs to the technical field of multi-storey building's organic refuse treatment, a closed collection and ecological treatment system suitable for organic rubbish in building is related to.

Background

The garbage problem is bound to disturb managers of each city, the urban garbage occupies the mountainous and watery coast around the city, the city is surrounded by the garbage, and the low-efficiency treatment technology of simple landfill cannot be adopted. The classified collection and classified treatment of garbage are effective methods for garbage treatment, and the national garbage classification action is started in cities such as Shanghai, Xian, Beijing and the like. According to data published by the national city greening bureau of China in Shanghai, in 3 months of 2020, the recoverable waste recovery amount of Shanghai is 3342 tons/day, the wet garbage separation amount is 7394 tons/day (calculated by 2500 ten thousand population, 0.3kg per capita, namely 600 g of wet garbage), and the dry garbage disposal amount is 11693 tons/day. Wherein the recovery amount of the recyclable materials, the separation amount of the wet garbage and the disposal amount of the dry garbage respectively account for 10.17 percent, 34.8 percent and 55 percent of the total amount of the garbage. I.e. the wet waste proportion is close to 35%, and the aim in Shanghai is to reduce the wet waste separation to 31.2%.

At present, wet garbage is collected by a bag breaking method, a large number of management and transportation personnel are needed, and along with the rise of air temperature, the problems of smell and mosquitoes and flies are prominent.

Meanwhile, in a multi-story building, dining becomes a normality along with the dispersion of individual food buying and food calling in an office building, and a large amount of organic garbage after dining affects the office environment, increases the potential threat of disease propagation and increases a large amount of labor for cleaning personnel. Take a 30-storey office building as an example. 2000 square meters per floor, an average of 200 people, 30 floors serving 6000 people. Each person generates 600 g of wet garbage (the water content is 56%) every day, each floor generates 120kg of wet garbage, and each floor generates 3600kg of wet garbage (namely 3.6T) in 30-floor office buildings. The workload of manual arrangement and clearing is very large day by day and year by year.

Therefore, how to efficiently collect and ecologically process the organic garbage in the multi-storey and high-rise buildings is particularly necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a closed collection and ecological treatment system who is applicable to organic rubbish in the building to the realization is to the high-efficient resourceful treatment of organic rubbish in multilayer, the high-rise building.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides a closed collection and ecological treatment system suitable for organic rubbish in building, collects mechanism and ecological treatment mechanism including collection water tank, rubbing crusher, vacuum, wherein, rubbing crusher's feed inlet connect the bottom export of collection water tank, rubbing crusher's discharge gate is then connected the feed end of mechanism is collected in the vacuum, the discharge end of mechanism is collected in this vacuum still connects ecological treatment mechanism.

Furthermore, the collecting water tank is funnel-shaped.

Furthermore, an outlet at the bottom of the water collecting tank is connected with a feed inlet of the pulverizer through a feed pipeline.

Furthermore, an inclined baffle is installed in the feeding pipeline, one end of the baffle is rotatably connected with the inner wall of one side of the feeding pipeline through a pin shaft, the other end of the baffle can abut against the inner wall of the other opposite side of the feeding pipeline, and a torsion spring piece is further arranged between the pin shaft and the baffle.

Further preferably, a downward-inclined bulge is further arranged on the inner wall of the other side of the feeding pipeline, and when the torsion spring piece drives the baffle to bounce upwards, the bulge abuts against the end part of the baffle and enables the baffle to block the feeding pipeline.

Further, the vacuum collecting mechanism comprises a vacuum tank, a vacuum pipeline assembly and a vacuum pump, wherein the vacuum pipeline assembly comprises a vacuum main pipeline arranged in a building and vacuum branch pipelines led out from the vacuum main pipeline and respectively connected with discharge ports of the crushers on each layer, the bottom end of the vacuum main pipeline is further connected with the top of the vacuum tank, and the top end of the vacuum tank is further led out to be connected with another pipeline to be connected with the vacuum pump.

Furthermore, the bottom of the vacuum tank is also provided with a discharge port, and the discharge port is also connected with the ecological treatment mechanism through a discharge pipeline.

Still further preferably, the discharge pipeline is further provided with a lift pump for pumping the crushed organic waste.

Furthermore, a vacuum valve bank is further arranged in the vacuum branch pipeline, a material sensor is further arranged at the inlet position of the vacuum valve bank, and when the material sensor senses that organic garbage discharged by the pulverizer exists at the inlet of the vacuum valve bank, the vacuum valve bank is opened.

Furthermore, the ecological treatment system is an earthworm breeding box.

Compared with the prior art, the utility model has the advantages of it is following:

(1) the whole set of equipment is operated in a closed mode, so that the threat of odor and disease transmission is avoided, the office environment is improved, the requirement of a livable city is met, and the design and application direction in the future is provided.

(2) The labor intensity is reduced, and the labor force is liberated. If one cleaner per floor turns out, one can now manage 10 floors, 1/10 people turn out.

(3) The wet garbage becomes earthworms and fertilizers which can be sold as products and reenters an ecological system. The advantage of in situ recycling is that the volume of transportation can be reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of an upper portion of a building body within the system;

FIG. 3 is a schematic view of the bottom of a building body within the system;

FIG. 4 is a schematic view of a feed conduit;

the notation in the figure is:

1-a building main body, 2-a collecting water tank, 3-a grinder, 4-a vacuum valve bank, 5-a vacuum pipeline component, 6-a vacuum tank, 7-a vacuum pump, 8-a lifting pump, 9-an earthworm cultivation box, 10-a feeding pipeline, 11-a baffle, 12-a bulge and 13-a material sensor.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. The embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

In the following embodiments or examples, functional components or structures that are not specifically described are all conventional components or structures in the art for achieving the corresponding functions.

The utility model provides a closed collection and ecological treatment system suitable for organic rubbish in building and building, its structure is seen in figure 1-figure 3 and is shown, including setting up collection basin 2, rubbing crusher 3, vacuum collection mechanism and the ecological treatment mechanism in building subject 1, wherein, rubbing crusher 3's feed inlet connect the bottom export of collection basin 2, rubbing crusher 3's discharge gate is then connected the feed end of vacuum collection mechanism, the discharge end of this vacuum collection mechanism still connects ecological treatment mechanism.

In a specific embodiment of the present invention, the collection water tank 2 is funnel-shaped, and the collection water tank 2 of this shape can collect the poured wet garbage more conveniently.

In a specific embodiment of the present invention, the outlet at the bottom of the water collecting tank 2 is connected to the feed inlet of the pulverizer 3 through a feed pipe 10.

In a more specific embodiment, please refer to fig. 4 again, an inclined baffle 11 is installed in the feeding pipe 10, one end of the baffle 11 is rotatably connected with an inner wall of one side of the feeding pipe 10 through a pin, the other end of the baffle 11 can abut against an inner wall of the other opposite side of the feeding pipe 10, a torsion spring is further arranged between the pin and the baffle 11, and the arrangement of the torsion spring can ensure that the free end of the baffle 11 can abut against the inner wall of the feeding passage when the pressure of the baffle 11 is not applied or the pressure applied does not exceed the torsion provided by the torsion spring, so as to perform a simple blocking on the feeding passage, prevent the odor emitted by the fallen wet garbage from returning to escape to the interior of the building main body 1 through the feeding pipe 10, and further realize the closed collection and treatment of the wet garbage.

In a further specific embodiment, please refer to fig. 4 again, a downward-inclined protrusion 12 is further disposed on the inner wall of the other side of the feeding pipe 10, when the torsion spring drives the baffle 11 to spring upward, the protrusion 12 abuts against the end of the baffle 11, and the baffle 11 blocks the feeding pipe 10. In order to ensure the smooth operation of the whole system, i.e. the wet garbage can smoothly enter the crusher 3, the torsion provided by the torsion spring should not be too large, and generally the torsion is just enough to make the baffle 11 abut against the position of the protrusion 12.

The utility model discloses a in a specific embodiment, please refer to again that fig. 3 is shown, vacuum collection mechanism include vacuum tank 6, vacuum pipeline subassembly 5 and vacuum pump 7, wherein, vacuum pipeline subassembly 5 including arranging the vacuum trunk line in the building to and draw forth and connect the vacuum branch pipe of the discharge gate of the rubbing crusher 3 of each layer respectively from the vacuum trunk line, the bottom of vacuum trunk line is still connected vacuum tank 6 top, the top of vacuum tank 6 still draw a pipe connection in addition vacuum pump 7. The vacuum pump 7 is set to run intermittently, the running frequency of the vacuum pump is generally controlled to be 6-12 times per hour, the vacuum pump can be adjusted according to actual needs, the running frequency can be improved if the user has dinner, and the running frequency can be reduced if the user has dinner in special time periods such as night.

In a more specific embodiment, the bottom of the vacuum tank 6 is further provided with a discharge port, and the discharge port is also connected with the ecological treatment mechanism through a discharge pipeline.

In a further specific embodiment, please refer to fig. 3 again, a lift pump 8 for pumping the crushed organic waste is further disposed on the discharge pipe.

In a more specific embodiment, please refer to fig. 1, fig. 2 and fig. 4 again, a vacuum valve bank 4 is further disposed in the vacuum branch pipe, a material sensor 13 may be further disposed at an inlet of the vacuum valve bank 4, and when the material sensor 13 senses that organic waste discharged from the crusher 3 is present at an inlet of the vacuum valve bank 4, the vacuum valve bank 4 is opened, and when the organic waste is not sensed at a front end of the material sensor 13, the vacuum valve bank 4 is controlled to be closed. The material sensor 13 may be a pressure sensor commonly used in the art, that is, a pressure signal provided by the organic waste is detected and fed back to a control system (such as a PLC system) for controlling the opening and closing of the vacuum valve bank 4, so as to control the opening and closing of the vacuum valve bank 4. Like this, through the setting of material sensor 13 cooperation vacuum valve group 4, can reduce vacuum pump 7's loss, improve the vacuum adsorption effect to the organic rubbish that exists in each vacuum branch pipeline.

In a specific embodiment of the present invention, the ecological treatment system is an earthworm cultivation box 9. The earthworm cultivating box 9 can be provided with a single layer or multiple layers. And each earthworm cultivation box 9 and each layer are connected with the discharging pipeline through separate pipelines. The period of time that the discharge pipe is added to each earthworm cultivation box 9 is related to the amount of earthworms. The earthworms eat the wet garbage as food to produce organic fertilizer, and the organic fertilizer is utilized after being bagged manually. Every 1000kg of organic garbage can be converted into 50kg of earthworm living bodies and 150-250 kg of organic soil (earthworm feces). The 3600kg/d wet garbage can generate 180kg/d earthworm living bodies and 540-900 kg organic soil, so that the reduction and the recycling are realized, and the development prospect is met.

Example 1:

the embodiment provides a closed collection and ecological treatment system suitable for organic rubbish in building and building, its structure is shown with reference to fig. 1-3, including collection water tank 2, rubbing crusher 3, vacuum collection mechanism and ecological treatment mechanism that set up in building subject 1, wherein, the feed inlet of rubbing crusher 3 links the bottom export of receiving water tank 2, and the feed end of vacuum collection mechanism is then connected to the discharge gate of rubbing crusher 3, and ecological treatment mechanism is still connected to the discharge end of this vacuum collection mechanism.

Referring to fig. 1 again, the water collection tank 2 is funnel-shaped, and the water collection tank 2 can conveniently collect the poured wet garbage. The outlet at the bottom of the collecting water tank 2 is connected with the feed inlet of the crusher 3 through a feed pipe 10.

Referring to fig. 3 again, the vacuum collecting mechanism includes a vacuum tank 6, a vacuum pipeline assembly 5 and a vacuum pump 7, wherein the vacuum pipeline assembly 5 includes a main vacuum pipeline disposed in the building, and vacuum branch pipelines led out from the main vacuum pipeline and respectively connected to the discharge ports of the crushers 3 at each layer, the bottom end of the main vacuum pipeline is further connected to the top of the vacuum tank 6, and another pipeline led out from the top of the vacuum tank 6 is connected to the vacuum pump 7. The vacuum pump 7 is set to run intermittently, the running frequency of the vacuum pump is generally controlled to be 6-12 times per hour, the vacuum pump can be adjusted according to actual needs, the running frequency can be improved if the user has dinner, and the running frequency can be reduced if the user has dinner in special time periods such as night. The bottom of the vacuum tank 6 is also provided with a discharge outlet which is also connected with an ecological treatment mechanism through a discharge pipeline.

Referring to fig. 3 again, the discharging pipeline is further provided with a lift pump 8 for pumping the crushed organic waste.

Referring to fig. 1 and fig. 2 again, a vacuum valve set 4 is further disposed in the vacuum branch pipe. And a material sensor 13 can be arranged at the inlet position of the vacuum valve bank 4, as shown in fig. 4, when the material sensor 13 senses that organic garbage discharged by the crusher 3 exists at the inlet of the vacuum valve bank 4, the vacuum valve bank 4 is opened, and when the front end of the material sensor 13 does not sense organic garbage, the vacuum valve bank 4 is controlled to be closed. The material sensor 13 may be a pressure sensor commonly used in the art, that is, a pressure signal provided by the organic waste is detected and fed back to a control system (such as a PLC system) for controlling the opening and closing of the vacuum valve bank 4, so as to control the opening and closing of the vacuum valve bank 4. Like this, through the setting of material sensor 13 cooperation vacuum valve group 4, can reduce vacuum pump 7's loss, improve the vacuum adsorption effect to the organic rubbish that exists in each vacuum branch pipeline.

Referring again to fig. 3, the ecological treatment system is an earthworm cultivation box 9. The earthworm cultivating box 9 can be provided with a single layer or multiple layers. And each earthworm cultivation box 9 and each layer are connected with a discharging pipeline through independent pipelines. The period of time that the discharge pipe is added to each earthworm cultivation box 9 is related to the amount of earthworms. The earthworms eat the wet garbage as food to produce organic fertilizer, and the organic fertilizer is utilized after being bagged manually. Every 1000kg of organic garbage can be converted into 50kg of earthworm living bodies and 150-250 kg of organic soil (earthworm feces). The 3600kg/d wet garbage can generate 180kg/d earthworm living bodies and 540-900 kg organic soil, so that the reduction and the recycling are realized, and the development prospect is met.

Example 2:

on the basis of embodiment 1, the present embodiment further adopts the following design:

referring to fig. 4 again, an inclined baffle 11 is installed in the feeding pipe 10, one end of the baffle 11 is rotatably connected with the inner wall of one side of the feeding pipe 10 through a pin shaft, the other end of the baffle 11 can abut against the inner wall of the other opposite side of the feeding pipe 10, a torsion spring is further arranged between the pin shaft and the baffle 11, and the arrangement of the torsion spring can ensure that the free end of the baffle 11 can abut against the inner wall of the feeding passage when the baffle 11 does not bear pressure or the pressure does not exceed the torsion provided by the torsion spring, so that the feeding passage is simply sealed, and the smell emitted by the poured wet garbage is prevented from returning to escape to the interior of the building main body 1 through the feeding pipe 10, thereby better realizing the closed collection and treatment of the wet garbage.

Referring to fig. 4 again, a downward-inclined protrusion 12 is further disposed on the inner wall of the other side of the feeding pipe 10, and when the torsion spring drives the baffle 11 to spring upward, the protrusion 12 abuts against the end of the baffle 11, and the baffle 11 blocks the feeding pipe 10. In order to ensure the smooth operation of the whole system, i.e. the wet garbage can smoothly enter the crusher 3, the torsion provided by the torsion spring should not be too large, and generally the torsion is just enough to make the baffle 11 abut against the position of the protrusion 12.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (10)

1. The utility model provides a closed collection and ecological treatment system suitable for organic rubbish in building, its characterized in that, collects mechanism and ecological treatment mechanism including collection water tank, rubbing crusher, vacuum, wherein, rubbing crusher's feed inlet connect the bottom export of collection water tank, rubbing crusher's discharge gate is then connected the feed end of mechanism is collected in the vacuum, and the discharge end of mechanism is collected in this vacuum still connects ecological treatment mechanism.

2. The closed type collection and ecological treatment system for organic waste in building and construction as claimed in claim 1, wherein said collection water tank is funnel shaped.

3. The closed type collection and ecological treatment system for organic wastes in buildings and buildings as claimed in claim 1, wherein the bottom outlet of the water collection tank is connected with the feed inlet of the crusher through a feed pipe.

4. The closed type collection and ecological treatment system for organic wastes in buildings and buildings as claimed in claim 3, wherein the feed pipe is internally provided with an inclined baffle, one end of the baffle is rotatably connected with the inner wall of one side of the feed pipe through a pin shaft, the other end of the baffle can prop against the inner wall of the other opposite side of the feed pipe, and a torsion spring is further arranged between the pin shaft and the baffle.

5. The closed type collection and ecological treatment system for organic wastes in buildings and buildings as claimed in claim 4, wherein the inner wall of the other side of the feeding pipe is further provided with a downward-inclined protrusion, when the torsion spring drives the baffle to spring upward, the protrusion abuts against the end of the baffle, and the baffle seals and blocks the feeding pipe.

6. The closed type collecting and ecological treating system for organic waste in buildings and buildings as claimed in claim 1, wherein the vacuum collecting mechanism comprises a vacuum tank, a vacuum pipeline assembly and a vacuum pump, wherein the vacuum pipeline assembly comprises a main vacuum pipeline arranged in the buildings and a vacuum valve set on a vacuum branch pipeline led out from the main vacuum pipeline and respectively connected with the discharge ports of the crushers at each layer, the bottom end of the main vacuum pipeline is further connected with the top of the vacuum tank, and the top end of the vacuum tank is further led out by another pipeline and connected with the vacuum pump.

7. The closed type organic garbage collecting and ecological treating system as claimed in claim 6, wherein the bottom of the vacuum tank is further provided with a discharge port, and the discharge port is further connected to the ecological treating mechanism through a discharge pipeline.

8. The closed type collection and ecological treatment system for organic waste in buildings and buildings as claimed in claim 7, wherein the discharge pipe is further provided with a lift pump for pumping the crushed organic waste.

9. The system as claimed in claim 6, wherein a vacuum valve set is further disposed in the vacuum branch pipe, a material sensor is disposed at an inlet of the vacuum valve set, and the vacuum valve set is opened when the material sensor senses that organic waste discharged from the crusher is present at the inlet of the vacuum valve set.

10. The closed type organic waste collection and ecological treatment system for building buildings as claimed in claim 1, wherein the ecological treatment system is an earthworm cultivation box.

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