KR102158229B1 - Food garbage dosing device - Google Patents

Abstract

It is an object of the present invention to provide a food waste input device that is integrally installed in a sink bowl of a sink to allow food waste to be injected. The food waste input device according to an embodiment of the present invention includes a cover assembly installed on an upper portion of a housing and coupling a lid to an inlet member, and guides and stores food waste that is disposed under the cover assembly to be input to the lower side. When the food waste is discharged through the first discharge port and supported inside the housing, a hopper that distributes atmospheric pressure through a vent, a first flap that regulates the discharge of food waste by opening and closing the first discharge port, and the first flap are incorporated. A first flap housing connected to the hopper from the first discharge port and discharging food waste through a second discharge port, and a valve coupled to the housing as a bottom member while supporting the first flap housing to close the atmospheric pressure passage of the bottom member It includes a bottom assembly that forms a flow of outside air when the food waste is discharged through a sieve.

Description

Food waste dispensing device {FOOD GARBAGE DOSING DEVICE}

The present invention relates to a food waste input device, and more particularly, it is installed in a sink bowl of a sink provided in a home so as to transfer the food waste input to the food waste vacuum collection system with a vacuum suction force to insert the food waste. It relates to a food waste dispensing device that enables it.

The food waste vacuum collection system is applied to the kitchens of each household in a large residential complex, and is configured to collect food waste generated in each kitchen in real time with a vacuum.

The food waste vacuum collection system connects the food waste collection point to the transfer pipe in the building of the household to bury it, and automatically transports food waste through the air flow formed inside the transport pipe.

Since food waste contains moisture, when the food waste is moved to the outside of the sink bowl, the moisture contained in the food waste flows and contaminates the kitchen floor.

To prevent this, a separate moisture base is required when moving food waste. Therefore, there is a need to provide a food waste input device for disposing of food waste in the area of the sink bowl.

In addition, the installed food waste inlet must not interfere with other objects around the sink bowl, and since a certain amount of food waste is stored for a considerable period of time, it must be able to block odors and effectively handle the leakage of food waste.

It is an object of the present invention to provide a food waste input device that is integrally installed in a sink bowl of a sink to allow food waste to be injected. An object of the present invention is to provide a food waste input device that blocks odors at the source, measures food waste, and stably discharges water leakage of food waste.

The food waste input device according to an embodiment of the present invention includes a cover assembly installed on an upper portion of a housing and coupling a lid to an inlet member, and guides and stores food waste that is disposed under the cover assembly to be input to the lower side. A hopper that distributes atmospheric pressure through the ventilation port when it is supported in a vertical direction to maintain a free state in the side and discharges food waste through the first discharge port, and a hopper that opens and closes the first discharge port to regulate the discharge of food waste. 1 flap, a first flap housing that houses the first flap, is connected to the hopper from the first discharge port, and discharges food waste through a second discharge port, and the second discharge port side of the first flap housing is inserted A bottom assembly that maintains a free state in the direction and is coupled to the housing as a bottom member to regulate the atmospheric pressure passage of the bottom member with a valve body to form an inflow flow of external air when discharging food waste, and a load of the food waste It includes a load cell installed between the hopper and the housing to receive.

The housing may be installed on an upper surface of the sink ball having a height corresponding to the upper surface of the sink table.

The inlet member is inserted from the upper side of the housing and has a coupling protrusion inside, and the lid may have a coupling groove coupled to the coupling protrusion having elasticity.

The inlet member is inserted from the top of the hopper into the inside to form a ventilation gap between the inner surface of the hopper, the ventilation gap may be connected to the ventilation hole.

The housing includes a first housing member inserted into the mounting hole to support the hopper, which is installed as a flange at the outer circumference of the mounting hole, and the first flap housing is screwed to and embedded in the first housing member, and It may include a second housing member coupled to the bottom assembly.

The bottom member may be fitted with a snap fit to the second housing member, and may include a lifting rod guiding the lifting of the valve body.

The valve body may include a passage corresponding portion coupled to the atmospheric pressure passage of the bottom member to intercept the atmospheric pressure passage.

The bottom member has a structure that narrows downward, and may be coupled by providing a leak discharge gap at the lower end of the first flap housing from below.

The food waste input device according to an embodiment of the present invention is provided in a control unit connected to the load cell to set a closing time after opening to close the first flap after a set time, and operation of a discharge button switch, the It may include a first motor for opening and closing the first flap according to a set time of the timer and a control signal from the controller.

The load cell is formed of a kitchen scales load-cell, is installed between the support portion of the first housing member and the supported portion of the hopper, and the hopper and the first flap housing load on the upper portion of the load cell. It can be installed to work.

The load of the hopper and the first flap housing is measured and calculated by a weight measurement module provided in the control unit according to a signal from the load cell, and the measurement range of the food waste is determined by the inside of the hopper and of the first flap. It can be set to the amount of storage up to the top.

The food waste input device according to an embodiment of the present invention includes a second flap for controlling the third discharge port for applying a vacuum pressure to discharge the food waste through the third discharge port of the floor member, and the second flap. A second flap housing connected to the third discharge port side, and a pipe connected to the fourth discharge port of the second flap housing to discharge and transport food waste discharged to the fourth discharge port may be further included.

According to an operation signal of a discharge button switch, the control unit opens the second flap and the first flap to apply a vacuum pressure acting on the pipe to the food waste in the hopper to discharge, and then discharge the second flap and the first flap. The flap can be closed.

As described above, according to an embodiment of the present invention, since the housing is installed in the sink bowl and the cover assembly is provided in the housing, a food waste input device that enables food waste to be inserted can be provided integrally with the sink bowl.

In one embodiment, a vent is provided in a hopper provided by being supported in a vertical direction in the housing and maintaining a free state in a lateral direction, a first flap is provided at the first discharge port of the hopper, and the first flap housing is placed on the second discharge port side. When the first flap housing is inserted into the bottom member and the first flap housing is kept free in the up and down direction, when discharging food waste, the atmospheric pressure passage of the bottom member is regulated with a valve body to form a flow of outside air when discharging the food waste and discharge it together with the food waste. It can fundamentally block odors, and can accurately measure the load of food waste discharged without being limited by the condition of the hopper.

In one embodiment, the weight of food waste discharged once by the load cell is measured, and a timer is provided in the control unit to open and close the first flap for a set period of time, so that the opening and closing operation of the first flap and the measured weight are summed. Food waste can be measured in real time.

In one embodiment, the bottom member is narrowed downward, and a leak discharge gap is provided between the bottom member and the bottom member at the bottom of the first flap housing from the bottom to stably absorb moisture scattered from food in the hopper into the interior of the housing outside the hopper. As it is discharged, leakage of food waste can be prevented.

1 is an exploded perspective view of a food waste input device according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the device of FIG. 1 assembled and cut along the line II-II.
3 is a cross-sectional view of the device of FIG. 1 assembled and cut along the line III-III.
4 is a cross-sectional view of a state in which the food waste input device of FIG. 1 is installed in a high portion of a sink bowl installed on a sink.
5 is a left side view of a state in which a food waste input device according to an embodiment of the present invention is installed in a sink bowl.
6 is a partial cross-sectional view taken along the line VII-VII of FIG. 5.
7 is a block diagram of components for controlling a food waste input device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and the same reference numerals are assigned to the same or similar components throughout the specification.

1 is a perspective view showing an exploded view of a food waste input device according to an embodiment of the present invention, FIG. 2 is a cross-sectional view cut along the line II-II by assembling the device of FIG. 1, and FIG. It is a cross-sectional view showing the assembly of the device and cut along the line Ⅲ-Ⅲ.

1 to 3, the food waste input device of an embodiment is connected to the food waste vacuum collection system, and is configured to input food waste in order to directly transfer the food waste to the food waste collection in each household.

As an example, the food waste dispensing device includes a housing 10, a cover assembly 20, a hopper 30, a first flap 40, and a first flap housing installed inside the household (for example, the sink ball 101). 50) and a bottom assembly 60. That is, the housing 10 is installed for each household, and the food waste input device is connected to the food waste vacuum collection system through a pipe 70 (see FIGS. 6 and 7 ).

As an example, the housing 10 includes a first housing member 11 and a second housing member 12 coupled to each other. The first housing member 11 is inserted into the mounting hole 13 of the sink ball 101 and installed with a flange 14 at the outer periphery of the mounting hole 13 and supports the built-in hopper 30. Therefore, after assembling the hopper 30 to the first housing member 11, the first housing member 11 may be installed in the mounting hole 13. The flange 14 of the first housing member 11 is fixed around the mounting hole 13 by a set screw 15.

The second housing member 12 is screwed to the first housing member 11 and supports the first flap housing 50 embedded therein, and is coupled to the bottom assembly 60. Accordingly, after the first housing member 11 is installed, the first flap housing 50 is assembled to the hopper 30, and then the second housing member 12 and the bottom assembly 60 are assembled. Substantially, the second housing member 12 is supported by the bottom assembly 60.

The cover assembly 20 includes an inlet member 21 and a lid 22 installed on the upper portion of the housing 10 and coupled to each other. The inlet member 21 is inserted from the upper side of the housing 10 and has an engaging portion 212 of the lid 22 inside. The inlet member 21 is convex inwardly and extends in a straight line toward the inside of the hopper 30 to effectively guide the food waste to be introduced.

The lid 22 has a coupling groove 221, and a sealing member 211 in the coupling groove 221. When the lid 22 is coupled to the coupling portion 212, the sealing member 211 acts to seal between the coupling groove 221 and the coupling portion 212, so that it may flow out between the inlet member 21 and the lid 22. Prevents possible odors.

The inlet member 21 is inserted from the top of the hopper 30 to the inside to form a ventilation gap G between the inner surface of the hopper 30 and the ventilation gap G is connected to the ventilation hole 31. Therefore, the inlet member 21 and the hopper 30 are mechanically separated from each other. In addition, when discharging food waste, an air flow is formed from the outside of the hopper 30 to the inside through the vent 31 and the vent gap G, and the air flow enables vacuum discharge of the food waste from the hopper 30. do.

In addition, the inlet member 21 is coupled to the upper end of the first housing member 111 by force fitting, and is upward with a step to enable the coupling of the lid 22, and provides a cover part 213 that is further bent to the outside. Have. The cover part 213 covers the flange 14, the set screw 15, and the periphery, and is in close contact with the upper surface of the sink ball 101.

Therefore, the food waste input device is exposed only to the cover part 213 and the lid 22 of the inlet member 21 of the cover assembly 20 around the top surface of the sink bowl 101 and the installation port 13, and the installation port 13 It is possible to minimize the collection of foreign substances around the ).

The hopper 30 is disposed under the cover assembly 20 and is formed in a structure that is narrower in the lower portion than the upper portion so as to guide and store the food waste introduced through the inlet member 21 to the lower side.

The hopper 30 is supported inside the first housing member 11 and discharges food waste through the first discharge port 23 provided at the lower part, and at this time, has a vent 31 at the upper side to circulate atmospheric pressure. do. The vent 31 is connected to the vent gap G.

Therefore, the hopper 30 is mounted on the first housing member 11 in a free state, and is supported only in the vertical direction, and maintains a free state in the circumferential direction or laterally. That is, the hopper 30 may flow laterally within the first housing member 11. In addition, in order to discharge the food waste flowing into and stored in the hopper 30 to the first discharge port 23, when vacuum pressure is applied to the first discharge port 23, the food waste in the hopper 30 is discharged and the ventilation gap ( G) and through the vent 31, external air is introduced through the interior of the housing 10.

A load cell 35 is installed between the supporting portion 111 of the first housing member 11 supporting the hopper 30 and the supported portion 32 of the hopper 30. Therefore, the load cell 35 is mounted on the support part 111 and supported only in the vertical direction. In addition, the hopper 30 and the first flap housing 50 coupled to each other are mounted in a free state on the upper portion of the load cell 35 and supported only in the vertical direction to apply a load to the load cell 35 and in a free state in the circumferential direction or sideways. It is installed so as not to apply a load in the circumferential direction or lateral direction by maintaining it, and the load of the hopper 30 and the first flap housing 50 containing food waste is controlled by the weight measurement module 83 provided in the control unit 80. It is measured and calculated (see Fig. 8). That is, the load cell 35 is not affected by the load acting in the circumferential direction or the side when measuring the load of the food waste.

The load cell 35 is not limited to a specific (eg, biased toward one side in the radial direction) of the hopper 30 and the first flap housing 50 between the support part 111 and the supported part 32, Since it is received, the zero point state can always be maintained, and it is operated according to the load of the food waste input to the hopper 30 to accurately measure the load of the food waste, and a load signal corresponding thereto is generated. At this time, the measurement range of the food waste may be set as a storage amount up to the inside of the hopper 30 and the top of the first flap 40. For example, the load cell 35 is formed of a kitchen scales load-cell, and it is possible to lower the manufacturing cost.

The first flap 40 is configured to open and close the first discharge port 23 formed at the lower end of the hopper 30 to regulate the discharge of food waste put into the hopper 30. As an example, the first flap 40 is embedded in the first flap housing 50.

The first flap housing 50 is connected by screwing to the hopper 30 from the side of the first discharge port 23 and provides a space for opening and closing the built-in first flap 40. The first flap 40 is opened and closed by driving the first motor M1 installed on the outside of the hopper 30 via the bracket 41. The first motor M1 rotates and opens and closes the first flap 40 connected to the output side of the reducer GB through the reducer GB.

The first flap housing 50 further includes a packing 55 coupled to the first discharge port 23 side. The packing 55 is installed to protrude from the lower portion of the first flap housing 50 to form a line-contact sealing structure when the first flap 40 is closed. At this time, food waste may be stored in the hopper 30.

As an example, a bumper 52 is provided in the first flap housing 50. When the bumper 52 is completely open on the opening and closing trajectory of the first flap 40, it supports one side of the first flap 40 to absorb an opening shock.

The first flap housing 50 has a second discharge port 51 at the lower side for discharging through the food waste discharged to the first discharge port 23 of the housing 30. The second discharge port 51 is formed to have an inner diameter similar to the first discharge port 23 to prevent the food waste discharged from being placed inside the first flap housing 50.

The first flap housing 50 is more than the first and second discharge ports 23 and 51 in order to form a space for rotating the first flap 40 between the first discharge port 23 and the second discharge port 51. It is formed with a large inner diameter.

The first flap housing 50 is formed with the same inner diameter as the first discharge port 23 from the first discharge port 23 side, is screwed to the hopper 30, and is extended from the portion where the first flap 40 is mounted. It accommodates the first flap 40 and is formed with an inner diameter that becomes smaller again from the side of the second discharge port 51.

Therefore, the first flap housing 50 is formed by separating the upper portion 501 on which the first flap 40 is mounted and the lower portion 502 forming the second discharge port 51, and is fastened through the sealing member 504 By mutually fastening the members 503, they can be assembled in a sealed state.

The bottom assembly 60 includes a bottom member 61 and a valve body 62. The bottom member 61 is coupled to the housing 10 while supporting the first flap housing 50. The bottom member 61 has an atmospheric pressure passage 611, and the atmospheric pressure passage 611 is interrupted by the operation of the valve body 62. The atmospheric pressure passage 611 forms an air flow through which outside air is introduced into the housing 10 when food waste is discharged.

The bottom member 61 is snap-fit coupled to the second housing member 12 and includes a lifting rod 612 for guiding the lifting of the valve body 62. The valve body 62 includes a passage corresponding portion 621 that is coupled to the atmospheric pressure passage 611 of the bottom member 61 to intercept the atmospheric pressure passage 611.

With the lifting operation of the valve body 62, when the passage corresponding portion 621 is coupled to correspond to the atmospheric pressure passage 611, the atmospheric pressure passage 611 is blocked, and the passage corresponding portion 621 is separated from the atmospheric pressure passage 611 When the atmospheric pressure passage 611 is opened.

In addition, the bottom member 61 has a structure that narrows downward, and is coupled with a leak discharge gap G1 at the lower end of the first flap housing 50 from below. In order to discharge the food waste, when the first flap 40 is opened, a vacuum pressure acts on the food waste through the second discharge port 51.

In this case, most of the vacuum pressure acts on the food waste through the second discharge port 51. Accordingly, as food waste is discharged, a vacuum pressure acts on the valve body 62 through the hopper 30, the ventilation gap G, and the ventilation opening 31, so that the valve body 62 rises. At this time, as the atmospheric pressure passage 611 is opened, an air flow is formed, so that the vacuum discharge of the food waste becomes smooth, and odor is completely blocked during the discharge of the food waste.

That is, the vacuum pressure acting through the second discharge port 51 acts on the food waste through the first flap housing 50 and the hotter 30.

At the same time, the leakage discharge gap G1 leaks out of the hopper 30 to discharge moisture from the food waste through the outer surface of the first flap housing 50 to the third discharge port 613 formed on the bottom member 61. Make it possible. After the food waste is discharged, the valve body 62 descends to close the atmospheric pressure passage 611 to completely block the odor. Therefore, the odor generated from the food waste is fundamentally blocked and is not emitted to the outside of the food waste input device.

In addition, the leakage discharge gap G1 prevents mutual interference between the second discharge port 51 and the third discharge port 613 connected to the bottom assembly 60, thereby ensuring the accuracy of metering for food waste, and Foreign matter overflowed from the hopper 30 due to carelessness, etc., is re-sucked into the third discharge port 613 and discharged. The first flap housing 50 and the bottom assembly 60 are mechanically separated from each other. That is, the leak discharge gap G1 between the second discharge port 51 and the third discharge port 613 is free in the vertical direction without being affected by the load acting in the circumferential direction or the side when the load cell 35 measures the load. This makes it possible to maintain the accuracy of the weighing.

4 is a cross-sectional view of a state in which the food waste input device of FIG. 1 is installed in a high portion of a sink bowl installed on a sink. Referring to FIG. 4, the housing 10 is installed on the upper surface 113 of the sink ball 101 forming the same height as the sink 71. Therefore, it is possible to fundamentally block the inflow of tap water into the housing 10 due to a failure of a water supply (not shown) or carelessness in use. In this case, it is possible to stably secure the installation height of the food waste input device D in the sink 71.

5 is a left side view of a state in which the food waste input device according to an embodiment of the present invention is installed in a sink bowl, and FIG. 6 is a partial cross-sectional view cut along the line VII-VII of FIG. 5. 5 and 6, the food waste input device D2 according to an embodiment further includes a second flap 240, a second flap housing 850, and a pipe 70, illustrating an actual installation state. .

The second flap 240 regulates opening and closing of the third discharge port 613 to apply a vacuum pressure for discharging the food waste to the third discharge port 613 of the bottom member 61. The second flap housing 850 is connected to the third discharge port 613 and houses the second flap 240. The second flap housing 850 is connected to the third discharge port 613 of the bottom member 61 by a flexible pipe 72. The flexible pipe 72 improves workability connecting both.

The pipe 70 discharges and transports the food waste discharged to the fourth discharge port 851 of the second flap housing 850. That is, the pipe 70 is connected to a transfer pipe (not shown) connecting a food waste collection site in a household building.

7 is a block diagram of components for controlling a food waste input device according to an embodiment of the present invention. 1 to 8, the food waste input device (D2) of an embodiment is a discharge button switch (BS) connected to the input side of the control unit 80, the load cell 35, the output side (as an example, the pipe 70) ) Connected to the vacuum valve V, the first and second motors M1 and M2 that control the first and second flaps 40 and 240, and the display device 81 provided in the machine room, and the control unit 80 ) And a weighing module 83 and a measurement amount transmitting module 82 and a timer T provided in the).

Discharge button switch (BS) is installed around the sink in the household, is operated by the user and inputs an operation signal to the control unit 80 to instruct the operation of the food waste input device (D2). The control unit 80 operates the food waste input device D2 according to the operation of the discharge button switch BS, and stops it after a set time.

According to the operation signal of the discharge button switch BS, the controller 80 opens and closes the vacuum valve V and controls the first and second motors M1 and M2 on/off to control the first and second flaps. 40, 240) is opened and closed.

At this time, the load cell 35 senses the load of the food waste inputted into the hopper 30 each time the first flap 40 is opened and closed, and applies it to the weighing module 83 of the control unit 80, and the timer T ) Is operated according to the opening and closing of the first flap 40 by the operation of the discharge button switch BS, and applies a control signal to the control unit 80 after a set time. The control unit 80 opens and closes the first flap 40 for a set time of the timer T, and stores the number of opening and closing operations of the first flap 40.

The first flap 40 is opened and closed according to the operation of the discharge button switch BS and the setting time of the timer T and the control of the controller 80. The control unit 80 drives and controls the first motor M1 to open and close the first flap 40 for a set time of the timer T.

When the vacuum valve V is opened, the vacuum pressure generated by the operation of the vacuum pump installed in the machine room acts on the second flap 240 via the vacuum valve V. When the second flap 240 is opened, a vacuum pressure acts on the first flap 40, and when the first flap 40 is opened, it acts on the food waste and vacuum is discharged.

The load cell 35 continuously senses the load of the food waste and applies a detection signal to the weight measurement module 83 of the control unit 80, so that the load immediately before opening and closing of the first flap 40 is applied to the control unit 80.

As an example, the weighing module 83 measures the amount of food waste by summing the opening and closing operation of the first flap 40 and the measured weight according to the sensing load of the load cell 35 and the operation signal of the timer T. do. The measurement quantity transmission module 82 transmits the measurement quantity measured by the weight measurement module 83 so that the measurement quantity of the load can be displayed on a display device 81 installed in a machine room or a billing institution.

According to the operation signal of the discharge button switch BS and the setting time of the timer T, the controller 80 opens the second and first flaps 240 and 40 to reduce the vacuum pressure acting on the pipe 70 to the hopper. After discharging by acting on the food waste put in 30, the second and first flaps 240 and 40 are closed. Accordingly, the food waste input device D2 is controlled in a state that enables re-introduction of new food waste.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to implement various modifications within the scope of the claims, the description of the invention, and the accompanying drawings. It is natural to fall within the range.

10: housing 11: first housing member
12: second housing member 13: mounting hole
14: flange 15: set screw
20: cover assembly 21: inlet member
22: lid 23, 51: first, second outlet
30: hopper 31: vent
32: supported part 35: load cell
40, 240: first and second flaps 41: bracket
50: first flap housing 52: bumper
55: packing 60: bottom assembly
61: bottom member 62: valve body
70: pipe 71: sink
72: flexible pipe 80: control unit
81: display device 82: measurement amount transmission module
83: weighing module 101: sinkball
111: support 113: upper surface
211: sealing member 212: coupling portion
213: cover part 221: coupling groove
501: upper 502: lower
503: fastening member 504: sealing member
611: atmospheric pressure passage 612: lifting rod
613: third discharge port 621: passage corresponding part
850: second flap housing 851: fourth discharge port
BS: Discharge button switch D, D2: Food waste dispensing device
G: Ventilation gap G1: Leakage discharge gap
GB: Reducer M1, M2: 1st, 2nd motor
T: Timer V: Vacuum valve

Claims (13)

A cover assembly installed on the upper portion of the housing and coupling the lid to the inlet member;
The food waste disposed under the cover assembly is guided and stored downward, and is supported in the upper and lower directions inside the housing to maintain a lateral free state. A hopper to distribute;
A first flap for controlling the discharge of food waste by opening and closing the first discharge port;
A first flap housing containing the first flap, connected to the hopper from the first discharge port, and discharging food waste through the second discharge port;
The side of the second discharge port of the first flap housing is inserted to maintain a free state in the vertical direction, and is coupled to the housing as a bottom member to regulate the atmospheric pressure passage of the bottom member with a valve body. A bottom assembly forming an inflow flow; And
A load cell installed between the hopper and the housing to receive the load of the food waste
Food waste input device comprising a. The method of claim 1,
The housing is
It is installed on the upper surface of the sink ball having a height corresponding to the upper surface of the sink.
Food waste dispensing device. The method of claim 1,
The inlet member is
It is inserted from the upper side of the housing and has a coupling protrusion inside,
The lid is
Having a coupling groove coupled to the coupling protrusion having elasticity
Food waste dispensing device. The method of claim 3,
The inlet member is
It is inserted from the top of the hopper into the inside
Forming a ventilation gap between the inner surface of the hopper,
The ventilation gap is
Connected to the vent
Food waste dispensing device. The method of claim 1,
The housing,
A first housing member that is inserted into the installation port and supports the hopper that is installed and built into a flange at the outer circumference of the installation port, and
A second housing member that is screwed to the first housing member and supports the first flap housing embedded therein, and is coupled to the bottom assembly
Food waste input device comprising a. The method of claim 5,
The bottom member
Snap-fit coupled to the second housing member,
A lifting rod guiding the lifting of the valve body
Food waste input device having a. The method of claim 6,
The valve body
A passage corresponding portion coupled to the atmospheric pressure passage of the bottom member to intercept the atmospheric pressure passage
Food waste input device having a. The method of claim 5,
The bottom member
It has a structure that narrows downward,
It is coupled with a leak discharge gap at the bottom of the first flap housing from below
Food waste dispensing device. The method of claim 5,
A timer provided in a control unit connected to the load cell to set a closing time after opening to close the first flap after a set time, and
A first motor for opening and closing the first flap according to an operation of a discharge button switch, a setting time of the timer, and a control signal from the control unit
Food waste input device comprising a. The method of claim 9,
The load cell is
It is formed by kitchen scales load-cell,
It is installed between the support portion of the first housing member and the supported portion of the hopper,
The hopper and the first flap housing
Installed so that a load acts on the top of the load cell
Food waste dispensing device. The method of claim 10,
The load of the hopper and the first flap housing,
It is measured and calculated by a weighing module provided in the control unit according to the signal of the load cell,
The measurement range of the above food waste is
To the inside of the hopper and the top of the first flap
Food waste dispensing device. The method of claim 1,
A second flap for controlling the third discharge port for applying a vacuum pressure to discharge food waste through the third discharge port of the bottom member,
A second flap housing containing the second flap and connected to the third discharge port, and
A pipe connected to the fourth discharge port of the second flap housing to discharge and transport food waste discharged to the fourth discharge port
Food waste input device further comprising a. The method of claim 12,
According to the operation signal of the eject button switch, the control unit
By opening the second flap and the first flap
After the vacuum pressure acting on the pipe is applied to the food waste in the hopper and discharged,
Closing the second flap and the first flap
Food waste dispensing device.

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