KR200447320Y1 - Revolving Drum-Type Storage Installation for Waste Supply in Pipeline of Automatic Waste Collecting Facilities - Google Patents

Abstract

The present invention relates to a rotary cylinder storage device for supplying waste to an automatic collection facility transport pipe, and more specifically, to supply waste (general, food) generated in a residential high-rise building and a complex to an automatic collection facility transport pipe. Multi-stage cylindrical cylindrical storage tank that combines a number of pipes is installed in a single revolver type to install and store a large volume of waste at the same time, and at the same time, clogging phenomenon in the automatic collecting facility transfer pipe The present invention relates to a rotary cylindrical storage device for supplying waste to an automatic collection facility for transporting garbage.

Rotating cylindrical storage device for the waste supply of the automatic waste collection facility transport pipe according to the present invention, the waste inlet, the input pipe and the opening and closing valve including the input means; Storage means for temporarily storing and storing the waste put in connection with the waste input pipe of the input means; In the rotary cylindrical storage device for the waste supply of the automatic waste collection facility transport pipe provided with; the waste discharge means for supplying the waste stored in connection with the storage pipe at a predetermined time interval, the storage means is a plurality The multi-stage cylindrical storage tank, which combines two pipes, has a multi-stage rotary cylindrical storage device configured to be capable of adding, storing, and rotating waste by forming a single revolver, wherein the discharge means is discharged from the storage means. Characterized in that the T-shaped discharge device including a discharge valve for supplying the waste to the transport pipe without clogging.

Automatic collecting facility, storage device, rotating body, discharge valve, T-shaped discharge device

Description

Revolving Drum-Type Storage Installation for Waste Supply in Pipeline of Automatic Waste Collecting Facilities}

The present invention relates to a rotary cylinder storage device for supplying waste to an automatic waste collection facility transport pipe, and more specifically, to automatically collect waste (general and food) generated from office high-rise buildings, multi-composite buildings, and multi-family housing complexes. Multi-stage cylindrical storage tank that combines multiple pipes to supply to the transfer pipe is installed with a multi-stage rotary cylindrical storage device composed of a single revolver type to store and store a large amount of waste at the same time. The present invention relates to a rotary cylindrical storage device for supplying waste to an automatic conveying facility of a waste collection facility to prevent clogging of the conveying line.

Recently, the automatic garbage collection facility has been introduced to collect and dispose of garbage generated in apartments, commercial complexes, residential complexes, and other high-rise buildings.

The automatic garbage collection facility installs transport pipelines from the garbage dumps, and vertically diverts the input pipes from the transport pipelines to each household's input ports or to the indoor and external public input ports. It is a facility that finally collects the wastes put into the input pipe through the vacuum suction force and collects them into the garbage dump.

In general, the pipeline transportation system is classified into a fixed pipeline transport system and a mobile pipeline transport system. The main facilities of the fixed pipeline transportation system include consumer facilities, input facilities installed indoors and outside such as apartment complexes, and transport pipelines buried underground, such as roads and green spaces. In particular, it can be applied by methods such as inlet screening, time zone screening, bag screening, and the like, which has flexibility in changing waste policy. The mobile pipeline transport system is a small system that carries suction by using a vacuum compression vehicle instead of a central storage box and is applied to a relatively small complex.

In such a waste transportation system, the waste put into the input pipe is stored in the temporary storage unit, and when the height of the garbage accumulated in the temporary storage reaches a certain level, the level sensor detects the waste installed between the input pipe and the transfer pipe. Open the intermittent valve to drop the waste accumulated in the temporary storage section into the transport line, and transport the waste dropped in the transport line to the garbage collection place by vacuum suction force. As such, the odor generated from the waste stored and stored in the input pipe of the conventional waste transportation system is easily escaped from the input port and easily penetrated into the living space and surrounding environment of the residents, thus contaminating the surrounding environment. . In addition, when rainwater or moisture penetrates from an externally exposed site such as an inlet, a bad odor is caused by the decay of garbage stored in the temporary storage unit.

In addition, the waste control valve that opens and closes between the temporary storage part of the input pipe and the transfer pipe completely seals the gap between the input pipe and the transfer pipe to prevent leakage of vacuum force when transferring waste from another input pipe in addition to the input pipe. Should be prevented. Since the conventional temporary storage opening and closing valve also serves to substantially support the weight of the rubbish accumulated in the temporary storage unit, due to the load of the valve plate due to the weight of the rubbish accumulated in the temporary storage unit, sagging locally or entirely, This results in a gap between the valve plate and the valve seat.

Existing waste input storage device has a low capacity of storage device, so many waste input ports should be installed in the target space. Therefore, it requires lots of site space, facility cost, and maintenance cost to install the input port. have. In addition, since the program must be repeatedly operated when transferring the stored garbage to the transport pipeline, it causes an error in the entire system. In addition, due to the large amount of waste inlet, the pressure loss of the transport pipe increases due to the inflow of external air, which results in blockage of the transport pipe by deposition of waste in the transport pipe due to loss of transport speed.

Therefore, in order to solve the problem of the existing waste storage system, a large amount of waste is stored and stored while saving the installation number and space of the waste storage system and do not cause clogging when transporting the stored waste to the transportation pipe. It is important not to do anything.

The present invention is to solve the above conventional problems, the object of the present invention is to install a multi-stage rotary cylindrical storage device consisting of a multi-stage cylindrical storage tank combined with a plurality of pipes in a single revolver form, at a time, When storing a large amount of waste (general, food) into the multi-stage rotary cylindrical storage device step by step and sequentially, storing and storing, and transporting the waste loaded in the storage device to the transfer pipe using the T-shaped discharge device as a discharge means It is possible to prevent clogging of the transport pipe and to allow air to flow from the outside into the storage device in which the vacuum pressure (negative pressure) formed to enable the transport of waste to the transport pipe when the suction blower is operated is carried out. It is to provide a rotary cylindrical storage device for the waste supply.

The present invention proposes the components of the rotary cylindrical storage device for supplying waste to the automatic collection facility transport pipe, as shown in [Table 1]. ; A multi-stage rotating cylindrical storage device comprising a multi-stage cylindrical storage tank combining a plurality of pipes, which are storage means for temporarily storing and storing the input waste, in the form of a revolver, a second motor and a reducer, a level sensor, and a detection sensor; Rotating cylindrical storage for the waste supply of the waste collection facility equipped with a discharge valve, a T-shaped discharge device, a third motor, and a reducer, which are discharge means for discharging the waste stored in the storage tank into the transfer pipe at regular intervals. By providing a device to solve the above problems of the present invention.

TABLE 1

division Input means Storage Discharge means Configuration device Waste input device (inlet, inlet) On / off valve 1st motor and reducer Second Motor and Reducer Rotary Cylindrical Storage Device Level Sensor Limit Sensor T-type discharge device discharge valve 3rd motor and reducer

As described above, the rotary cylindrical storage device for the waste supply of the automatic waste collection facility transport pipe according to the present invention by installing a multi-stage rotary cylindrical storage device composed of a revolver by combining a plurality of cylindrical storage tanks as storage means It is possible to store and store a large amount of garbage (general, food) generated in residential high-rise buildings and complexes that are introduced into the multi-stage storage tank in a stepwise and sequential order at a time, and reduce the number of garbage input devices in the installation target space. Since the installation is possible, the site space required for the installation of the inlet can be reduced, and the effect of reducing the initial facility cost and maintenance cost can be expected.

In addition, the T-shaped discharge device, which is a waste discharge means, is configured in a T-shaped pipe so that the pipe of the waste inlet is connected in a curved pipe shape (L-shaped pipe) at the confluence point with the air transportation line, so that the waste discharge direction is different from the transportation direction. Since it can be discharged in the same direction, it is possible to obtain the effect of preventing the blockage of the transport pipe.

In this design, the multi-stage rotating cylindrical storage device is used to store and store a large amount of waste put into a temporary container, and to supply waste to automatic waste collection facility transport pipe to prevent clogging when transporting the stored waste to the transport pipe. Rotating cylindrical storage device is as follows.

Rotary storage device for the waste supply of the automatic waste collection facility transport pipe according to the present invention, the input means 10 including a waste inlet and the input pipe; Storage means (20) for temporarily storing and storing a large amount of waste put in connection with the waste input pipe of the input means; It is connected to the storage means and the waste discharge means for supplying the waste stored in the operation of the suction blower blower at a predetermined time interval (40); characterized in that it comprises a.

According to the present invention, the storage means 20 is formed of a multi-stage cylindrical storage tank combining a plurality of pipes in the form of a single revolver, which is a multi-stage structure capable of storing, storing, and rotating step by step when the waste is added. It is desirable to configure a rotating cylindrical storage device so that a large amount of garbage is stored and stored at one time.

Further, according to the present invention, the discharge means 40 is a T-shaped discharge device in the form of a T-shaped pipe in order to supply the waste introduced from the bottom of the storage device to the transport pipe without clogging phenomenon, the pipe of the waste inlet is When the suction blower is operated, it is preferable to be configured to be connected in a curved pipe shape (L-shaped pipe) at the point of confluence with the transport pipe of the air sucked through the air suction port. As a result, the waste discharge direction to the waste transportation line can be discharged in the same direction as the transportation direction, thereby preventing clogging of the transportation line.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the rotary cylindrical storage device for the waste supply of the automatic waste collection facility transport pipe according to the present invention will be described in detail as follows.

1 is a conceptual view of a rotary cylindrical storage device for supplying waste of the automatic waste collection facility transport pipe according to an embodiment of the present invention, Figure 2 is a waste supply of the automatic waste collection facility transport pipe according to an embodiment of the present invention 3 is a front view and a side view showing a rotating cylindrical storage device, FIG. 3 is a perspective view and a partial cutaway side view showing the feeding means shown in FIG. 2, FIG. 4 is a sectional view and a perspective view showing the storage means shown in FIG. 4 is a cross-sectional view taken along the line A-A 'and B-B' showing the storage means shown in FIG. 4, FIG. 6 is a cross-sectional view showing the discharge means shown in FIG. 2, and FIG. Combined perspective view showing a rotating cylindrical storage device for.

As shown in Figure 1 and Figure 2, the rotary cylindrical storage device (1) for the supply of waste of the automatic waste collection facility transport pipe of the present invention is a waste input means (10); Storage means 20; It is composed of a discharge means (40).

The waste injecting means 10 is a waste injecting device for injecting waste, as shown in FIGS. 2 to 3, including a waste inlet 12, an external air inlet 13, and a controller 14 to form an exterior. A body 11; Inlet pipe 15 for temporary storage of waste, which is a component of the body 11, a first motor 16 and a reducer 17, a shut-off valve 18). The garbage input device is connected to the storage device, which is installed on the ground of the ground and is the storage means 20 embedded in the basement.

The body 11 forms an external appearance of a garbage input device, and a garbage inlet 12 and an outside air inlet 13 are formed outside the body 11, and a control unit for operating the multi-stage rotating cylindrical storage device. (14) is provided and comprised.

The garbage inlet 12 is composed of an opening and closing door 12a formed to enable the input of garbage generated in a residential building and a complex, and the garbage is introduced in the direction of the arrow shown in FIG. 3. The injected waste 19 is temporarily stored in the input pipe 15.

The external air inlet 13 is connected to the side of the inlet pipe 15 formed inside the body 11 as a passage for external air inlet located on the outer side of the body 11. When a suction blower (not shown) is operated to transfer the waste loaded in the storage device, which is the storage means 20, to the transport pipe line 50, a vacuum pressure (negative pressure) is formed in the storage device, which is the storage means. At this time, the external air is automatically introduced into the storage device, and serves to smoothly transport the waste into the transport pipe.

Inside the body 11, the inner tube 15, the first motor (motor) 16 and the reducer 17, the opening and closing valve 18 for discharging the waste loaded in the input tube It is composed.

The inlet pipe 15 has a cylindrical structure located vertically in the body 11 to be connected to the waste inlet 12 to temporarily store the waste put into the waste inlet 12. In addition, the inlet pipe 15 is connected in connection with the passage of the external air inlet (13).

The on-off valve 18 is mounted at the lower end of the inlet pipe 15 to open and close by driving of the first motor 16. Specifically, the disk 18a of the on-off valve 18 has a hinge 18b coupled to the lower end side of the input pipe 15, and the hinge 18b is a reducer 17 of the first motor 16. Is connected by. Accordingly, while the hinge is rotated while the first motor 16 is rotated forward, the disk 18a of the on-off valve 18 is turned downward to open the input pipe 15, and on the contrary, the first motor 16 is rotated. While rotating in reverse, the disk 18a of the on-off valve 18 pivots upward to close the lower end of the input pipe.

According to the present invention, the operation of the first motor 16 is made in the control unit formed on the outer front of the body, and all the processes are programmed in the control unit. Therefore, when the user opens the opening / closing door of the inlet and injects the garbage, the garbage is loaded on the disk 18a of the opening / closing valve 18, and when the closing door 12a of the garbage inlet is closed, the stacked waste 19 is It is stored in the storage tank 22 in the multi-stage rotary cylindrical storage device by dropping to the inlet of the storage device, which is the waste storage means 20.

As shown in Figures 4 and 7, the storage means 20 is a cylindrical storage device connected in connection with the input pipe 15 of the garbage input device, including an inlet port 21a and an outlet port 21c. Cylindrical chamber 21 forming a; The internal components of the chamber 21, the multi-stage rotary cylindrical reservoir 22, the second motor 25 and the reducer 26, the limit sensor 27, the limit sensor 28 and The sensing plate 28a, the sensing sensor 29 and the like. The storage device is embedded in the basement is connected to the discharge device which is the discharge means 40 and the waste input device installed on the ground.

The chamber 21 is a cylindrical storage tank 21 having a cylindrical inlet 21a for inflow of the waste introduced through the inlet pipe of the waste input device, and a cylindrical storage tank 21b that forms an outer shape of a space for storing and storing the introduced waste. It is configured to form a discharge port (21c) for the discharge of the stored waste.

The waste inlet 21a is connected to the input pipe 15 of the garbage input device, and the waste 19 flows in the arrow direction shown in FIG. 7 through the input pipe, and the introduced target waste is the chamber ( 21) After being temporarily temporarily loaded in the multi-stage rotating cylindrical storage tank 22 installed therein, it is discharged through the outlet 21c of the chamber 21.

According to the present invention, the waste inlet (24a) and the outlet (24b), respectively, in connection with the inlet (15) and the inlet (45) of the inlet pipe 15 and the discharge means 40 of the waste injecting device to form a flange (easy to connect) It is preferable to configure in a flange) manner.

The chamber 11 has a multi-stage rotating cylindrical reservoir 22, a second motor 25 and a reducer 26, a limit sensor 27, a limit sensor 28 and a sensing plate ( 28a), the sensor 29, the drive shaft 30, and the internal components.

The multi-stage rotating cylindrical storage tank 22 is a multi-stage cylindrical storage tank (22a) that combines a plurality of cylindrical pipes for stacking waste in a vertically vertical shape as shown in FIG. A circular rotating plate 23 formed of perforated circular flat plates; The drive shaft 30 including the second motor 25 and the reduction gear 26 for rotating the circular rotating plate; formed of a single revolver (rotator) form is possible to rotate.

The circular rotating plate 23 is formed of a porous rotating plate formed of a perforated circular plate as shown in Figures 4 to 5, the multi-stage cylindrical pipe is a multi-stage cylindrical pipe storage tank combining a plurality of cylindrical pipes in a vertical vertical shape It is formed as a (22a) is coupled to the perforated position of the rotating plate is mounted, the drive shaft 30 is installed to be perpendicular to the center of the circular rotating plate as a rotating shaft for rotating the multi-stage cylindrical storage tank (22a).

The waste level sensor 27 is installed on the inner side of each of the multi-stage cylindrical storage tank 22a, and functions to sense the amount of waste introduced into and loaded into the multi-stage cylindrical storage tank 22a.

The waste sensor 29 is located in the middle of the inner side of each of the multi-stage cylindrical storage tank (22a), the presence or absence of the waste loaded in the multi-stage cylindrical storage tank when the waste loaded in the multi-stage cylindrical storage tank is discharged to the discharge means Detect the function.

The limit sensor 28 is provided as a control sensor for controlling the rotating multi-stage rotating cylindrical storage tank located on one side of the outer surface of the chamber 21.

The sensing plate 28a is formed on the outer surface of each of the first to third stage rotary cylindrical storage tanks 22a in the chamber, which is the storage means 20, and is installed at a position where the detection of the limit sensor 28 is responded. . It is important that the sensing plate 28a is installed at the correct position so that the wastes introduced into the waste input device are introduced into the multi-stage rotating cylindrical storage tank without being lost to the outside of the storage tank.

The second motor 25 and the reducer 26 are driving motors for rotating the rotating body of the rotary multi-stage cylindrical storage tank, and transmit power through the drive shaft 30 to move the multi-stage rotary cylindrical storage tank to a predetermined position. It functions to rotate horizontally in a cycle, and to operate the waste in each cylindrical storage tank or discharge the loaded waste.

As shown in FIG. 4, the second motor 25 has a limit sensor installed in the chamber when the garbage is sequentially loaded up to each level sensor for detecting garbage installed in the first to third stage cylindrical storage tanks. A function of rotationally moving to a position of sensing the sensing plate 28a installed in the cylindrical storage tank of the; In the case of discharging the trash loaded in the first to third stage cylindrical storage tanks as a discharge means, the limit sensor 28 rotates to the sensing plate 28a installed in each cylindrical storage tank 22a in the same manner as when the garbage is loaded. It functions to move.

According to the present invention, the multi-stage rotating cylindrical storage tank is composed of a three-stage storage tank, but is not limited thereto and may be configured in two or three stages or more.

The discharge means 40 is a T-shaped discharge device for the inflow and transportation of waste as shown in Figure 7 to the T-shaped pipe 41, the third motor 42 and the reducer 43, discharge valve 44 It is composed.

The T-shaped pipe 41 is an inlet 45 through which one of the wastes flows in through the outlet 24b of the chamber, which is the storage means 20, and the other side of the T-shaped pipe 41 when the suction blower (not shown) is operated. It forms an air suction port 45a through which air is sucked and an intake air discharge port 46b through which air is discharged, and is a transport pipe 50 for transporting the waste introduced through the inlet 45.

The discharge valve 44 is mounted at the front end of the waste inlet 45 of the T-shaped pipe and functions to open and close by driving of the third motor 42. Specifically, the disk 44a of the discharge valve 44 has a hinge 44b coupled to the waste inlet side of the T-shaped pipe, and the hinge 44b is connected by a reducer 43 of the motor. Accordingly, while the third motor 42 rotates forward, the hinge rotates while the disk of the discharge valve pivots downward to open the inlet port, while the third motor 42 reversely rotates the disk of the discharge valve 44. 44a pivots upward to close the front end of the inlet 35.

According to the present invention, the T-shaped pipe 41 has a curved pipe shape at the confluence point of the air inlet pipe through which the waste inlet pipe is sucked through the air inlet when the suction blower is operated as shown in FIGS. 6 to 7 (L). It is preferable that the waste discharge direction is discharged in the same direction as the transport direction by being connected to the female pipe). By installing the waste inflow pipe at the confluence point of the T-shaped pipe as a curved pipe, many wastes flowing through the inflow pipe can be discharged in the same direction of the air flow at the time of being discharged into the transport pipe at the moment and the moment of the air flow. The shock formed by the change can be eliminated, thus preventing the blockage of the transport line. If the inflow pipe of the waste at the confluence point is connected to the straight pipe instead of the curved pipe, the air-shock formed by the instantaneous change of the air flow is discharged to the transport pipe at once through the inflow pipe This can cause clogging in the pipeline.

Next will be described the operation of the rotary cylindrical storage device (1) for the supply of garbage of the automatic collection facility transport pipe according to the present invention made in such a configuration as follows.

As shown in Figures 2 to 7, the rotary cylindrical storage device 1 for supplying waste to the automatic waste collection facility transport pipe according to the present invention is connected to the power source to be operated by the control unit (14).

The method of operation when loading garbage is as follows.

First, as shown in FIG. 2 and FIG. 3, power is applied to the control unit 14 of the garbage input device. The control unit 14 is operated to open and close the door 12a of the garbage inlet 12, and the target garbage 19 is supplied to the input pipe 15 of the garbage input device through the arrow directions shown in FIGS. 3 and 7. . The supplied waste 19 is temporarily loaded on the on / off valve 18 installed at the lower end of the input pipe.

When the waste 19 loaded on the open / close valve 18 closes the open / close door 12a of the waste inlet, the open / close valve is opened while the first motor and the reducer are driven after a predetermined time, and the stacked waste is stored in the storage means 20. Are stacked stepwise and sequentially in the multistage cylindrical storage tank 22a provided in the chamber.

More specifically, first, the waste flowing into the storage means 20 is loaded up to the position of the first stage level sensor for sensing the level of the garbage mounted in the first stage cylindrical storage tank as shown in FIG. When the garbage is detected by the first level sensor, the control unit receives a detection signal and closes the opening / closing valve 18 to provide driving signals for the second motor and the reducer.

The second motor 25 and the speed reducer 26 receiving the driving signal move to a position where garbage can be put into the two-stage cylindrical storage tank. In other words, the second motor and the reducer rotate the rotary body of the multi-stage cylindrical storage tank to a position where the limit sensor 28 installed in the chamber detects the sensing plate 28a formed in the two-stage cylindrical storage tank. Fix it whenever possible.

Next, in the waste input and loading in the fixed two-stage cylindrical storage tank, the garbage is loaded up to the position of the two-stage level sensor that senses the level of the garbage mounted in the two-stage cylindrical storage tank while the waste opening / closing valve is opened. . When the garbage is detected by the two-stage level sensor, the controller receives a detection signal and closes the opening / closing valve and gives driving signals for the second motor and the reducer.

The second motor and the reducer receiving the drive signal move to a position where garbage can be put into the three-stage cylindrical storage tank. In other words, the second motor and the speed reducer are fixed to allow the garbage input by rotating the rotating body of the multi-stage cylindrical storage tank to the position where the limit sensor installed in the chamber detects the sensing plate formed in the 3-stage cylindrical storage tank. do.

Finally, the waste input, loading, signal detection and driving method in the three-stage cylindrical storage tank is performed step by step and sequentially in the same manner as the waste input, loading, signal detection and driving methods of the first and second stage cylindrical storage tanks.

The method of operation when discharging garbage is as follows. When the trash inlet and stacking process is completed in the first to third stage cylindrical storage tanks in the chamber, which is the storage means 20, the opening / closing door 12a and the opening / closing valve 18 of the trash inlet are programmed in the control unit to be automatically closed. To do that.

When the suction blower is activated, external air for waste transportation is sucked into the transport pipe 50 through the air suction port in the direction of the arrow shown in FIG. 2, and then discharged as discharge means 40. The valve 44 is opened by the driving of the third motor 42 and the reducer 43. At this time, the waste loaded in the closed chamber, which is the storage means 20, is transferred to the transport pipe by suction by the vacuum pressure (negative pressure) formed in the chamber.

More specifically, the wastes loaded in the first to third stage cylindrical storage tanks are discharge valves, which are discharge means, while the suction blower is operated, the third motor and the reducer are driven. Then, the rubbish loaded in the first to third stage cylindrical storage tanks is transferred to the transport pipe step by step and sequentially.

First, when the trash loaded in the first stage cylindrical storage tank is transferred to the transport pipe, the presence or absence of the trash in the first stage cylindrical storage tank 22a is detected by the trash sensor 29 mounted in the first stage cylindrical storage tank. When the absence of waste is detected by the sensor in the first stage cylindrical storage tank, the waste in the second stage and three stage cylindrical storage tank proceeds stepwise and sequentially in the same manner as the waste discharge method in the first stage cylindrical storage tank.

When the wastes stacked in the first to third stage cylindrical storage tanks are discharged stepwise and sequentially into the transport pipe passage, the rotary body of the multistage cylindrical storage tanks uses the third motor 42 and the reducer in the same manner as the operation method when the wastes are loaded. By means of 43, it rotates to the sensing plate 28a of the limit sensor located in each cylindrical storage tank, and stands still.

The driving of the third motor and the reducer is repeated periodically at a predetermined time and interval when the waste is loaded and the waste is discharged.

As described above, the operation of the first motor, the second motor and the third motor may be operated by a user through a control unit, or may be operated in different ways in a stepwise and sequentially programmed order. have.

As described above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art within the technical idea of the present invention. Is obvious.

1 is a conceptual diagram of a rotary cylindrical storage device for the supply of waste of the automatic waste collection facility transport pipe according to an embodiment of the present invention

Figure 2 is a front view and a side view showing a rotating cylindrical storage device for supplying waste of the automatic waste collection facility transport pipe according to an embodiment of the present invention

3 is a perspective view and a partially cutaway side view showing the feeding means shown in FIG.

4 is a sectional view and a perspective view showing the storage means shown in FIG.

5 is a cross-sectional view taken along line A-A 'and B-B' showing the storage means shown in FIG.

6 is a cross-sectional view showing the discharge means shown in FIG.

Figure 7 is a perspective view showing a rotary cylindrical storage device for the supply of waste of the automatic waste collection facility transport pipe

<Explanation of symbols for the main parts of the drawings>

1. Rotating Cylindrical Storage System for Supplying Garbage to Transport Pipes

10. Input means 12. Garbage input

14. Control unit 15. Input pipe

18. On-off valve

20. Storage means 21. Chamber

22. Multi-stage rotating cylindrical storage tank 23. Circular rotating flat plate

27. level sensor 28. limit sensor

40. Discharge means

41. T-shaped piping 44. Discharge valve

Claims (5)

An input means including a garbage inlet, an input pipe, and an opening / closing valve; Rotating cylindrical storage device for the waste supply of the automatic waste collection facility transport pipe having; storage means for temporarily storing and storing the waste put into the multi-stage rotating cylindrical storage tank, connected to the waste input pipe of the input means; In, the multi-stage rotating cylindrical storage tank of the storage means consists of a multi-stage cylindrical storage tank, a perforated circular rotary plate, a drive shaft is mounted on a multi-stage cylindrical storage tank perforated circular rotary plate, so that the drive shaft is located perpendicular to the center of the circular flat plate Rotating cylindrical storage device for supplying waste to the automatic waste collection facility transport pipe, characterized in that configured. The method of claim 1, The storage means comprises a multi-stage rotating cylindrical storage device consisting of a chamber forming the exterior and a multi-stage cylindrical storage tank combining a plurality of pipes in the chamber in the form of a single revolver to inject waste, store and rotate. Rotating cylindrical storage device for the waste supply of the automatic waste collection facility transport pipe, characterized in that provided. delete delete The method of claim 1, The rotating cylindrical storage tank which is the storage means is a limit sensor on the outer surface of the chamber forming the exterior to control the rotation by sensing the sensing plate attached to the outer surface of the first to third stage rotating cylindrical storage tank, The level sensor for detecting the amount of waste loaded into the rotating cylinder storage tank, the automatic waste collection facility, characterized in that the sensor is installed to detect the presence of waste when discharging the waste loaded in the rotating cylinder storage tank Rotating cylindrical storage device for feeding waste of conveying pipe.

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