JP2011147883A - Garbage disposal equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a garbage treatment equipment which can carry out crushing and dewatering of garbage by itself and is easy to carry out garbage treatment after dewatering and to provide a container for garbage treatment. <P>SOLUTION: The container is a treatment container to be used for carrying out crushing and dewatering treatment of garbage stored in a garbage container 50 having a throwing inlet for throwing garbage and water permeability and includes a case 10 composed of a cylindrical body part 11 having an aperture for putting in the garbage container 50 in one end and housing the garbage container 50 in a rotating state and a cover part 15 attached to the one end of the body part 11; a crushing blade 16 disposed ratatably on the inner surface of the cover part 15 and set in the inside of the garbage container 50 through the throwing inlet of the garbage container 50 when the cover part 15 is attached to the one end of the body part 11; a garbage container operation part 20 capable of transmitting rotation power to the garbage container 50 from the outside of the case 10; and a crushing blade operation mechanism disposed in the cover part 15 and capable of transmitting rotation power to the crushing blade 16 from the outside of the case 10. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a dust disposal apparatus.

2. Description of the Related Art Conventionally, as an apparatus for processing garbage, a technique for dewatering and crushing garbage to reduce the volume of garbage has been developed (Patent Document 1).
The apparatus of Patent Document 1 includes a reticulated basket provided rotatably, a rotating pulverizing blade provided on an inner bottom portion of the reticulated basket, and a motor for rotating the reticulated basket and the rotating pulverizing blade. A mechanism is also provided for switching between a state in which the driving force of the motor is transmitted only to the rotating and grinding blade and a state in which the driving force is transmitted to both the rotating and grinding blade and the mesh basket.
For this reason, if only the rotary crushing blade is rotated in a state where the dust is put into the mesh basket, the dust can be crushed. And if it is set as the state where a mesh basket rotates after crushing garbage, the crushed garbage can be dehydrated.

However, the apparatus of Patent Document 1 has the following two problems.
(1) The dust crushed by the rotary crushing blade becomes a muddy gel, and the gel-like dust is accumulated at the bottom of the mesh basket. When the amount of dust in the form of gel covers the rotary pulverizing blade, the dust accumulated on the gel cannot contact the rotary pulverizing blade and is not crushed.
(2) The rotary pulverizing blade is provided at the bottom of the mesh basket, and the rotary pulverizing blade is connected to the motor by a shaft passing through the bottom of the mesh basket. For this reason, since the bag which accommodates garbage in a mesh basket is not provided, the operation | work which transfers the crushed and dehydrated garbage from a mesh basket to a garbage bag and a trash box is needed after crushing and dehydrating. Then, when transferring trash from a mesh basket to a trash bag, trash may spill. Also, crushed and dewatered garbage remains in the gel state to some extent even if dehydrated and adheres to the mesh basket, so it may not be able to be removed just by turning the mesh basket upside down. Must be removed by hand.

Among the problems described above, there is a technique disclosed in Patent Document 2 as a technique that solves the second problem.
Patent Document 2 discloses a case having a cylindrical main body portion that accommodates a water-permeable trash container in a rotatable state, a lid portion attached to one end of the main body portion, and a lid portion of the main body portion. A crushing blade disposed in the trash container from the trash container inlet when attached to one end, a trash container driving mechanism capable of transmitting rotational force from the outside of the case to the trash container, and a case provided on the lid There is disclosed a dust disposal apparatus provided with a crushing blade drive mechanism capable of transmitting rotational force to the crushing blade from the outside.
And the garbage disposal apparatus of patent document 2 becomes a structure where a crushing blade is arrange | positioned in a garbage container from an insertion port, and also has a structure which performs crushing work in the state which turned over a garbage container. For this reason, since a garbage bag can be attached in a garbage container, if the garbage bag is taken out and discarded together, the crushed and dehydrated garbage can be discarded.

  As described above, the technique of Patent Document 2 is excellent in that the second problem of the two problems in Patent Document 1 can be solved, but it is difficult to solve the first problem. Therefore, there is a need for a technique for solving such a problem.

Utility Model Registration No. 3060683 WO / 2008/059622

  In view of the above circumstances, an object of the present invention is to provide a waste disposal apparatus that can perform waste crushing and dewatering with a single device and can reliably perform waste crushing operations.

A waste disposal apparatus according to a first aspect of the present invention is a device for crushing and dewatering waste contained in a water-permeable waste container that has a cylindrical shape and has an opening for introducing dust at one end in the axial direction. A case capable of accommodating the container in a rotatable state around the central axis of the garbage container, a crushing blade disposed in the garbage container in a condition accommodated in the case, and disposed in the garbage container A crushing blade in a state, or a drive mechanism capable of rotating the trash container in a state accommodated in the case around a central axis of the trash container, and the crushing blade being rotated by the drive mechanism A water supply mechanism for supplying water into the garbage container, and the water supply mechanism is provided near the crushing blade, and includes a discharge unit for supplying water to the garbage crushed by the crushing blade. ing And wherein the door.
A dust disposal apparatus according to a second aspect of the present invention is the waste disposal apparatus according to the first aspect, wherein the case accommodates the waste container in a rotatable state, and has a bottomed cylindrical main body having an opening at one end, and an opening of the main body. A lid that is attached and liquid-tightly seals the opening, and the driving mechanism supplies a driving force for rotating the dust container and the crushing blade, and the driving unit. A trash container driving unit for rotating the trash container in a state of being accommodated in the main body by a driving force supplied from the driving unit, and detachable from the driving unit, A crushing blade driving unit that rotates the crushing blade by a driving force supplied from the driving unit, and the lid unit is an inner lid that is attached to an opening of the garbage container accommodated in the case Of the inner lid The surface, characterized in that the crushing blades and said discharge portion.
According to a third aspect of the present invention, in the first or second aspect of the present invention, the case includes a storage section that can store water, and the water supply mechanism supplies water in the storage section into the garbage container. It is a thing to do.
According to a fourth aspect of the present invention, there is provided a waste disposal apparatus according to the first, second, or third aspect, wherein the water supply mechanism includes a pump unit that is driven by the crushing blade driving unit and supplies water in the storage unit to the discharge unit. It is characterized by.
According to a fifth aspect of the present invention, there is provided a waste disposal apparatus according to the first, second, third, or fourth aspect, wherein the pump unit is fixed to the crushing blade rotating shaft and is coaxial with the crushing blade rotating shaft. And a hollow cylindrical member provided to accommodate the rotary cylinder therein, and the rotary cylinder is disposed in the cylindrical member, It is immersed in the water stored in the storage part.
In the first, second, third, fourth, or fifth invention, the waste disposal apparatus of the sixth aspect of the invention is configured so that a vortex centering on the central axis in the waste container is formed in the waste container. A water flow control plate for controlling the flow of discharged water is provided.
A dust disposal apparatus according to a seventh aspect of the present invention is the first, second, third, fourth, fifth or sixth aspect, wherein the dust container includes a protruding stirrer on the inner surface thereof. The trash container drive unit is configured to accelerate the trash container at an acceleration at which the trash in the trash container cannot follow the rotation of the trash container when the trash container is rotated around the central axis of the trash container. Features.

According to the first aspect, if only the crushing blade is rotated by the drive mechanism, the garbage can be crushed by the crushing blade, and if the dust container is rotated by the drive mechanism, the dust in the trash container is dehydrated. can do. That is, the crushing operation and the dehydrating operation can be performed with the garbage container held in the same case. Moreover, since water can be supplied from the drainage part of the water supply mechanism to the crushed garbage by the crushing blade, the fluidity of the crushed garbage can be increased. As a result, it is possible to prevent the crushed garbage from becoming an obstacle and making it impossible to make contact with the crushing blade, so that all the trash in the trash container can be reliably crushed.
According to the second invention, since the crushing blade and the discharge part are provided on the inner lid of the lid part, the case is arranged so that the bottom is located above and the lid is located below, and the crushing blade drive part is If it connects with a drive part, garbage can be crushed with a crushing blade, supplying water from a discharge part. Then, after crushing, if the case is arranged so that the bottom is located below and the lid is located above, and the garbage container driving part is connected to the driving part, the garbage container is rotated to dehydrate the crushed garbage. Can do. The crushing blade is provided on the inner lid attached to the opening of the trash container, and is merely disposed in the trash container from the opening of the trash container, so that the trash bag remains attached to the trash container. But garbage bags do not become an obstacle to crushing. Then, the garbage can be crushed and dehydrated even with the trash bag attached to the trash container, and therefore, the trash treatment after the crushing and dehydration can be performed easily and cleanly.
According to the third invention, since it is not necessary to provide a mechanism for supplying water into the garbage container from the outside of the case, the structure of the apparatus can be simplified, and the degree of freedom of the place where the apparatus is used is increased. Can do.
According to the fourth invention, since the water supply mechanism is operated using the driving force that rotates the crushing blade, a special drive source for operating the water supply mechanism becomes unnecessary, and the structure of the apparatus can be simplified. .
According to 5th invention, if the crushing blade rotating shaft rotates, the water in a storage part can be supplied in a garbage container via a discharge part by a pump part. In addition, since the water is pumped only by the effect of the vortex formed by the rotation of the rotating cylinder in the cylindrical member, the apparatus can have a simple structure.
According to the sixth aspect of the present invention, since the vortex flow centered on the central axis in the trash container can be formed in the trash container by the water flow control plate, the trash adhering to the inner surface of the trash container is separated from the inner surface by the water flow. be able to. Then, clogging of the waste container due to dust attached to the inner surface of the waste container can be prevented. Moreover, since it becomes easy to supply refuse to the position of the crushing blade by the water flow, crushing efficiency can be improved.
According to the seventh invention, since the rotation of the garbage container is rapidly raised so that the garbage cannot follow the rotation of the garbage container, a relative speed difference is generated between the garbage and the garbage container. Can scrape trash. Then, even when crushed garbage is unevenly distributed along the circumferential direction in the garbage container at the start of dewatering, when the garbage container reaches the dewatering speed, the uneven distribution of garbage in the garbage container can be eliminated. It is possible to suppress the swaying of the trash container due to the uneven distribution of the sewage and the vibrations resulting from this swaying.

(A) is a schematic explanatory front view of the waste disposal apparatus 1 of the present embodiment during a dehydration operation, and (B) is a cross-sectional view taken along the line BB in (A). It is a schematic side view of the refuse disposal apparatus 1 of this embodiment. It is a schematic explanatory drawing of the refuse disposal apparatus 1 at the time of a crushing operation | work. It is a schematic side view of the refuse disposal apparatus 1 in a state where the shaft portion 11a is disposed on the shaft holding portion 4b. 3 is a schematic enlarged explanatory view of a water supply mechanism 30. FIG. It is a single-unit schematic explanatory drawing of the rotary cylinder 36, (A) is a side view, (B) is a top view, (C) is a CC sectional view taken on the line of (A). It is a schematic single-piece explanatory drawing of the inner lid 15b, (A) is a view seen from the inner surface, (B) is a view seen from the outer surface. It is a schematic explanatory drawing of the inner lid | cover 15b in the state where the crushing blade 16 is attached, (A) is a perspective view, (B) is a top view. It is the figure which showed an example of the garbage container 50, (A) is a perspective view, (B) is a top view.

Next, an embodiment of the present invention will be described with reference to the drawings.
The waste disposal apparatus of the present invention is capable of crushing and dewatering while the waste is contained in the waste container, and is capable of crushing and dewatering even when the waste bag is attached to the waste container, Even if it contains moisture, it is characterized in that the crushed dust can be prevented from becoming a gel.

(Trash container 50)
First, before describing the dust disposal apparatus 1 of the present embodiment, a garbage container that can be used in the garbage disposal apparatus 1 of the present embodiment will be described.
As shown in FIG. 1, the garbage container 50 is a cylinder-shaped container which has water permeability and has an insertion port through which garbage can be introduced at one end and a bottom at the other end. For example, the garbage container 50 is a garbage receiver attached to the sink of the sink. However, the garbage container 50 is not particularly limited as long as it has the above-described shape and can be driven by the garbage container driving unit 20 described later.
Here, the “water-permeable container” means a container through which a liquid such as water can pass, and examples thereof include a container in which pores are formed, a container formed by a net, and the like. However, it is not limited to these containers.

  The shape of the garbage container 50 is most preferably cylindrical, but it is not limited to the cylindrical shape and may be any shape. The material of the garbage container 50 is not particularly limited as long as it can retain a predetermined shape and has water permeability even when a certain amount of force is applied, such as plastic. Moreover, the garbage container 50 can also be installed and used in the sink of a sink like the triangular corner used for garbage storage.

(Trash disposal device 1)
Next, the dust disposal apparatus 1 of the present embodiment will be described.
As shown in FIG. 1, the dust disposal apparatus 1 of this embodiment includes a case 10 and a base 2 that holds the case 10.

(Description of Base 2)
First, the base 2 will be described.
As shown in FIG. 1, the base 2 includes a pedestal 3 having a built-in motor 5 and a pair of support plates 4, 4 attached to the pedestal 3.
The pedestal unit 3 is a part for placing the dust disposal apparatus 1 in a work place such as a desk or a sink where dust disposal is performed. The size and shape of the pedestal portion 3 are not particularly limited, but may be any size and shape so that the dust disposal apparatus 1 does not fall over when the case 10 described above is attached.
The motor 5 is disposed on the pedestal 3 such that the main shaft is directed upward when the pedestal 3 is installed at the work place. The motor 5 is a drive unit of the drive mechanism referred to in the claims. However, the drive unit is not limited to the motor, and various drive system devices such as an electric type, a hydraulic type, a pneumatic type, and a manual type are adopted. Needless to say, you can.

The pair of support plates 4, 4 holds the case 10. The pair of support plates 4 and 4 are provided so as to extend upward from the pedestal 3 when the pedestal 3 is installed at the work place. Each support plate 4 is provided with a case holding portion 4a which is a recess that is recessed downward from above the support plate 4.
The case holding portion 4a is for holding a pair of shaft portions 11a and 11a provided in the case 10 to be described later. That is, the case holding portion 4a is provided for attaching the case 10 described later to the support plate 4, in other words, for attaching the case 10 described later to the base 2.
When the pair of shaft portions 11a and 11a in the case 10 is disposed, the case holding portion 4a is disposed in the dust container driving portion 20 and the main shaft of the motor 5, or the connecting joint 18 of the crushing blade driving portion and the main shaft of the motor 5. , And can be connected to each other (see FIGS. 1 and 3).

  The method of attaching the case 10 to the base 2 is not limited to the above method, and when the case 10 is attached to the base 2, the connecting joint 18 of the garbage container driving unit 20 or the crushing blade driving unit is connected to the main shaft of the motor 5. Any method can be adopted as long as the case 10 can be held so as not to rotate by the driving force of the motor 5.

(Description of Case 10)
Next, the case 10 will be described.
As shown in FIG. 1, the case 10 includes a main body portion 11 and a lid portion 15, a trash container 50 is accommodated in the main body portion 11, and trash is crushed while trash is contained in the trash container 50. It can be dehydrated.

(Description of main body 11)
As shown in FIG. 1, the main body 11 of the case 10 is a member formed in a cylindrical shape having a hollow space inside. One end of the main body 11 in the axial direction is an opening, and the other end in the axial direction is liquid-tightly sealed by the bottom 11b.
The hollow space of the main body portion 11 is formed in such a size that the above-described dust container 50 can be accommodated therein and the dust container 50 can be rotated around the central axis of the main body portion 11. For example, when the trash container 50 is cylindrical, the inner diameter of the hollow space is slightly larger than the outer diameter of the trash container 50, so that the trash container 50 can rotate around the central axis of the hollow space. It is formed in the size.

  At the center of the bottom 11b of the main body 11, a garbage container driving unit 20 is provided. The garbage container driving unit 20 includes a rotating member that can rotate about the central axis of the main body 11 as a rotation axis. The rotating member can be connected to the main shaft of the motor 5 and the garbage container 50, and has a function of rotating the garbage container 50 around the central axis of the main body 11 by the rotational force of the main shaft of the motor 5. . In such a rotating member, the connection between the rotating member and the main shaft of the motor 5 can be, for example, a connection by serration or spline, but is not particularly limited. In addition, when a joint is provided at the bottom of the trash container 50, the rotating member is not particularly limited as long as it has a mechanism that can be connected to the joint of the trash container 50. Even when the garbage container 50 is not provided with a special joint, for example, if the rotating member includes a claw-like member, the rotating member and the garbage container 50 can be connected by the claw-like member.

As shown in FIG. 1, the case 10 is formed with a donut-shaped liquid storage space 11w that is recessed from the bottom portion 11b so as to surround the periphery of the dust container driving portion 20 at the bottom portion 11b. A hollow recess 11g is formed in a portion surrounded by the liquid storage space 11w.
When the case 10 is attached to the base 2 so that the garbage container drive unit 20 is connected to the main shaft of the motor 5, the recess 11g is formed in such a shape that the pedestal 3 is disposed in the recess 11g. Yes.

  As described above, a pair of shaft portions 11a and 11a that are respectively attached to the case holding portions 4a of the pair of support plates 4 and 4 are provided on the outer surface of the main body portion 11 of the case 10. The pair of shaft portions 11a and 11a are disposed so as to be orthogonal to the central axis of the hollow space, that is, the central axis of the main body portion 11.

(Description of lid 15)
As shown in FIG. 1, the lid portion 15 is attached to one end of the main body portion 11. The lid 15 includes a sealing member such as a packing, an O-ring, and an oil seal on a surface (hereinafter, simply referred to as an inner surface of the lid 15) located on the main body 11 side when attached to the main body 11. . For this reason, if the cover part 15 is attached to the main-body part 11, it is comprised so that the space in the main-body part 11 can be liquid-tightly blocked from the outside.

The lid portion 15 is provided with a crushing blade rotating shaft 17 that can rotate with respect to the lid portion 15. The crushing blade rotating shaft 17 is provided so that the central axis thereof is coaxial with the central axis of the main body 11 when the lid 15 is attached to the main body 11. One end of the crushing blade rotating shaft 17 protrudes from the inner surface of the lid portion 15, and the crushing blade 16 is attached to one end on the inner surface side.
On the other hand, at one end of the crushing blade rotating shaft 17 located on the outer surface side of the lid portion 15, a connecting joint 18 connected to the main shaft of the motor 5 which is a rotating means provided on the base 2 is attached. The connecting joint 18 may be any joint that connects the main shaft of the motor 5 and the crushing blade rotating shaft 17 and can transmit the rotational force of the main shaft to the crushing blade rotating shaft 17. For example, serrations and splines can be adopted. There is no particular limitation. The connecting joint 18 and the crushing blade rotating shaft 17 constitute a crushing blade driving unit referred to in the claims.

  A water supply mechanism 30 is provided on the inner surface of the lid portion 15. The water supply mechanism 30 has a function of supplying water to the garbage crushed by the crushing blade 16, and the detailed structure will be described later.

(Description of garbage disposal by the garbage disposal apparatus 1)
Next, a dust processing procedure by the dust processing apparatus 1 of the present embodiment will be described.
First, a dust container 50 containing dust is attached to the main body 11 of the case 10 (see FIG. 1). If the lid 15 is attached to the opening of the main body 11, the crushing blade 16 can be placed in the garbage container 50 from the opening of the garbage container 50, and the garbage container 50 is placed in the main body 11. Can be tightly sealed.
Before attaching the lid 15, water W is put in the liquid storage space 11 w of the main body 11. The amount of water W is not particularly limited as long as the amount of water W can be supplied to the dust crushed by the crushing blade 16 so that the dust is not gelled. If water in an amount of about 30% of the internal volume of the waste container 50 is supplied, the waste can be prevented from becoming a gel.

  Next, the pair of shaft portions 11 a and 11 a of the case 10 are attached to the case holding portion 4 a in the support plate 4 of the base 2. At this time, the case 10 is disposed such that the lid portion 15 is located below and the bottom portion 11b is located above, and the connection joint 18 is connected to the main shaft of the motor 5. Then, preparation for crushing work is completed (FIG. 3).

  In order to attach the case 10 to the base 2 so that the lid portion 15 is located at the bottom and the bottom portion 11b is located at the top, it is necessary to turn the case 10 upside down from the state where the garbage container 50 is placed in the case 10. is there. At this time, if a shaft holding portion 4b slightly recessed from the upper end of the support plate 4 is provided in the vicinity of the case holding portion 4a at the upper end of the support plate 4, the shaft portion 11a is attached to the shaft holding portion 4b. Then, the case 10 can be rotated with the shaft portion 11a as a fulcrum. Then, since the upper and lower sides of the case 10 can be easily reversed, preparation for the crushing operation can be easily performed (see FIG. 4).

When the motor 5 is operated after the preparation for the crushing operation is completed, the crushing blade 16 rotates, so that the dust in the garbage container 50 can be crushed by the crushing blade 16.
At this time, since water is supplied to the garbage crushed by the crushing blade 16 by the water supply mechanism 30, the crushed garbage by the crushing blade 16 can be prevented from becoming a muddy gel. Can increase the fluidity of waste. As a result, it is possible to prevent the crushed garbage from becoming an obstacle and making the trash unable to contact the crushing blade 16, so that all the trash in the trash container 50 can be reliably crushed.

  When the crushing operation is completed, the case 10 is inverted and the garbage container driving unit 20 is connected to the main shaft of the motor 5 to prepare for the dehydration operation. Also at this time, once the shaft portion 11a of the case 10 is attached to the shaft holding portion 4b, the case 10 can be rotated with the shaft portion 11a as a fulcrum (see FIG. 4). Then, since the upper and lower sides of the case 10 can be easily reversed, preparation for dehydration work can be easily performed.

  When the preparation for the dehydration work is completed, the motor 5 is driven. Then, since the garbage container 50 rotates in the main body part 11, the centrifugal force is applied to the garbage in the garbage container 50, so that the garbage can be dehydrated.

  At this time, the water separated from the water and garbage passes through the garbage container 50 and directly enters the liquid storage space 11w from the garbage container 50, or flows toward the bottom 11b through the inner surface of the main body 11 and is liquid. It enters the storage space 11w and is held in the liquid storage space 11w.

  After the dehydration operation is completed, if the lid portion 15 is removed and the garbage container 50 is taken out with the lid portion 15 facing upward, that is, after the dehydration operation has been completed, all the crushed garbage is taken out together with the garbage container 50. Can do.

  As described above, in the waste disposal apparatus 1 of the present embodiment, the crushing operation and the dewatering operation can be performed in the same case 10 while the waste is contained in the waste container 50. Moreover, since the trash container 50 is hermetically sealed in the case 10, if the cover part 15 is removed with the cover part 15 facing upward, all the dehydrated trash can be removed simply by removing the trash container 50 from the case. Can do. Therefore, it is possible to facilitate the disposal of the garbage after the garbage processing.

Further, the crushing blade 16 is disposed in the trash container 50 from the opening of the trash container 50. For this reason, even if a bag WB having water permeability is attached in the garbage container 50 in advance, the interference between the crushing blade 16 and the bag WB can be prevented, and the bag WB can be prevented from being damaged by the crushing blade 16. Can do.
Therefore, if a bag WB having water permeability is attached in the garbage container 50 in advance, the garbage can be processed while being accommodated in the bag WB. Then, if the bag WB is taken out from the trash container 50, the trash can be taken out from the trash container 50 in a state where the trash is stored in the bag WB, so that the trash can be further easily and reliably discarded.
In particular, if the garbage container 50 is provided with a fixing portion that fixes the bottom of the bag WB, the bag WB can be more reliably prevented from interfering with the crushing blade 16 during the crushing operation.
The bag WB attached to the garbage container 50 is not particularly limited as long as it is a water-permeable bag, and a nonwoven fabric, a pore net, a stocking, or the like can be adopted.

In the above example, the case where the liquid storage space 11w is provided in the case 10 has been described. However, the liquid storage space 11w is not necessarily provided. For example, in the state where the garbage container driving unit 20 and the main shaft of the motor 5 are connected, a space capable of storing dehydrated water is formed between the bottom part of the garbage container 50 and the bottom part 11b. The liquid storage space 11w is not necessarily provided.
However, if the liquid storage space 11w and the recess 11g are provided as described above, the pedestal 3 can be stored in the recess 11g in a state where the garbage container drive unit 20 and the main shaft of the motor 5 are connected. The amount by which the case 10 protrudes above the support plates 4 and 4 can be reduced. Then, when the dust disposal apparatus 1 is stored, its height can be lowered, so that the storage space for the apparatus can be reduced.

  In addition, during the dewatering operation, the height of the dust disposal apparatus 1 is lowered, and the dewatered water and the like are located below the connecting position of the motor 5 and the case 10. Therefore, the center of gravity of the dust disposal apparatus 1 during the dehydration operation is lowered, and the stability during the operation can be increased.

  Moreover, if the main body part 11 is provided with a drainage function, water can be drained during the dehydration operation. In this case, it is possible to prevent water from interfering with the dehydration operation without providing the liquid storage space 11w, so that a space for holding water becomes unnecessary. Then, since the main body 11 may be slightly larger than the garbage container 50, the case 10 can be made more compact, and the dust disposal apparatus 1 can be made more compact.

  And in the refuse processing apparatus 1 of this embodiment, since the water supply mechanism 30 is provided, even if it reduces the quantity of the water put into the main-body part 11, water can be supplied to the part which the crushing blade 16 and garbage contact. . In other words, in a state where crushing by the crushing blade 16 is performed, it is not necessary to put an amount of water such that water exists at the position of the crushing blade 16. Then, since the amount of water put into the case 10 can be reduced, the case 10 can be made smaller, and the dust disposal apparatus 1 can be made more compact.

(Other shapes of garbage container 50)
Further, as shown in FIG. 9, a scraping and leveling portion 52 protruding from the inner surface of the main body 51 may be provided as the garbage container 50. The leveling portion 52 is a protrusion-like or plate-like member extending along the axial direction of the garbage container 50.
In the case where the garbage container 50 provided with the scraping and smoothing portion 52 is used, if dewatering is performed by the following method, the garbage crushed along the circumferential direction in the garbage container 50 is unevenly distributed at the start of the dewatering. Even if it is, this uneven distribution of garbage can be eliminated. Then, the swaying of the trash container 50 due to the uneven distribution of trash and the vibrations resulting from this swaying can be suppressed.

In the case where dewatering is performed using the garbage container 50 as shown in FIG. 9, the steady dewatering operation is performed after the high speed rotation operation. Specifically, immediately after the start of dehydration, the rotational speed of the garbage container 50 is rapidly raised. Then, since the garbage in the garbage container 50 cannot follow the rotation of the garbage container 50, a relative speed difference occurs between them, and it is as if the garbage container 50 is rotating around the stationary garbage. It becomes a state like this. Then, with the rotation of the trash container 50, the scraping / smoothing part 52 comes into contact with the trash, and the dust near the inner surface of the trash container 50 is leveled by the scraping / smoothing part 52.
As time elapses, the trash starts to rotate (turning around the central axis of the trash container 50), and thus rotates while moving toward the inner surface of the trash container 50 by the centrifugal force. Even in this state, since the dust cannot completely follow the rotation of the dust container 50, the dust that has moved toward the inner surface of the dust container 50 sequentially contacts the leveling portion 52 and is leveled.
Then, since the garbage in the garbage container 50 exists almost uniformly along the circumferential direction of the garbage container 50, the rotational speed of the garbage container 50 is set to the rotation (dehydration speed) for performing the normal dehydration operation thereafter. If dropped, dewatering can be performed in a state in which there is no vibration caused by the swaying of the trash container 50 or the swaying.

The acceleration for high-speed rotation operation from the stationary state of the garbage container 50 is not particularly limited as long as the above-described effect (scraping) can be obtained. It may be set to a suitable value according to the shape, and the state of the driving unit (voltage for an electric motor, air pressure for a pneumatic motor, etc.) and the height of the scraping unit 52 are changed and experimented. Just decide.
For example, in the case of a plastic waste container with an inner diameter of 150 mm and a capacity of 1700 cc, if a universal motor of 100V-300W (output) is used, starting at 70V and performing steady dehydration operation at 30V after 1 second will be effective. Can be obtained.

(Description of water supply mechanism 30)
Next, the water supply mechanism 30 will be described in detail.
In the waste disposal apparatus 1 of the present embodiment, the water supply mechanism 30 that supplies water into the waste container 50, specifically, the waste that is crushed by the crushing blade 16, while the crushing blade 16 is rotating. A water supply mechanism 30 is provided.

As shown in FIG. 5, the lid 15 of the case 10 includes an outer lid 15a attached to the opening of the main body 11 and an inner lid 15b provided on the inner surface of the outer lid 15a.
The inner lid 15b is rotatably attached to the crushing blade rotating shaft 17 described above. Moreover, the inner lid 15b is disposed so as to be attached to the opening of the trash container 50 accommodated in the case 10 when the outer lid 15a is attached to the opening of the main body 11.

For this reason, when the bag WB is attached to the garbage container 50, the upper end of the bag WB can be sandwiched between the inlet of the garbage container 50 and the inner surface of the inner lid 15b. Then, since the upper end of the bag WB is fixed, it is possible to more reliably prevent the bag WB from getting in the way during the crushing operation.
Moreover, since the inner lid 15b is rotatably attached to the crushing blade rotating shaft 17, it can rotate with the garbage container 50 when the garbage container 50 rotates. Then, when the garbage container 50 rotates, it is possible to prevent the bag WB from being damaged due to friction between the garbage container 50 and the inner surface of the inner lid 15b.

As shown in FIG. 5, the inner lid 15 b is provided with a drainage portion 32 for supplying water into the garbage container 50 at the center thereof (that is, in the vicinity of the crushing blade rotating shaft 17). A pump unit 35 is provided between the unit 32 and the inner surface of the outer lid 15a.
The pump unit 35 is configured to store water accumulated between the inner lid 15b and the inner surface of the outer lid 15a when the case 10 is attached to the base 2 so that the lid 15 is located below and the bottom 11b is located above. Is supplied toward the drainage part 32 of the inner lid 15b.

  As shown in FIG. 5, the pump unit 35 includes a rotating cylinder 36 fixed to the crushing blade rotating shaft 17 and a cylindrical member provided to surround the rotating cylinder 36 attached to the crushing blade rotating shaft 17. 39 is provided.

First, the rotating cylinder 36 is a cylindrical member, is attached to the crushing blade rotating shaft 17, and is immersed in water accumulated between the inner lid 15b and the inner surface of the outer lid 15a. It is arranged.
A plurality of agitation grooves 37 are formed on the outer peripheral surface of the rotating cylinder 36. The stirring groove 37 is provided to effectively transmit the rotational force of the rotating cylinder 36 to water when the rotating cylinder 36 rotates.
Note that a plurality of protrusions and the like may be provided on the outer peripheral surface of the rotating cylinder 36 in place of the plurality of stirring grooves 37 as long as the rotational force of the rotating cylinder 36 can be effectively transmitted to the water.

  The cylindrical member 39 is a member having a cylindrical wall surface disposed so as to be coaxial with the rotary cylinder 36. The cylindrical member 39 is disposed such that a certain amount of gap is formed between the inner surface of the cylindrical wall surface (hereinafter simply referred to as the inner surface of the cylindrical member 39) and the outer surface of the rotating cylinder 36. . A flange portion 39a protruding inwardly from the end edge is provided along one inner end edge of the cylindrical wall surface (the lower end in FIG. 5).

  And the guide wall 38 is provided in the outer surface (lower surface in FIG. 5) of the inner lid 15b so that the drainage part 32 may be enclosed. The guide wall 38 is formed so that the lower end thereof is positioned below the upper end of the cylindrical member 39 and the end of the cylindrical member 39 on the inner lid 15b side is surrounded in the space in the guide wall 38. Yes.

Since it is the above structure, when the crushing blade rotating shaft 17 rotates, the rotating cylinder 36 can also be rotated together with the crushing blade rotating shaft 17. Along with the rotation of the rotary cylinder 36, a vortex centered on the crushing blade rotating shaft 17 is formed in the cylindrical member 39, and the inside of the cylindrical member 39 has a low pressure and the outside has a high pressure.
At this time, a flange portion 39a is provided at the lower end of the cylindrical member 39 and restricts downward movement of water located in the vicinity of the inner surface of the cylindrical member 39. The located water moves upward along the inner surface of the cylindrical member 39. That is, since water can be flowed from the outer lid 15a side to the inner lid 15b side, water can be supplied from the drainage part 32 to the garbage crushed by the crushing blade 16.

  Further, since the guide wall 38 is provided so as to surround the end portion on the inner lid 15b side of the cylindrical member 39, the water supplied from the inner surface of the cylindrical member 39 to the inner lid 15b side is more effectively drained. It can be supplied into the garbage container 50 from the section 32.

If the water supply mechanism 30 is provided in the case 10 as described above, it is not necessary to provide a mechanism for supplying water from the outside of the case 10 into the garbage container 50, so that the structure of the apparatus can be simplified. In addition, the degree of freedom of the place where the device is used can be increased.
In particular, as described above, if the rotating cylinder 36 of the water supply mechanism 30 is operated using the driving force for rotating the crushing blade rotating shaft 17, that is, the driving force for driving the crushing blade 16, the water supply mechanism 30. Since a special drive source for operating the device is not required, the structure of the apparatus can be simplified.

  As shown in FIG. 5, the cylindrical member 39 described above has an advantage that maintenance (cleaning or the like) can be easily performed if it is provided separately from the inner lid 15b and the outer lid 15a. However, the cylindrical member 39 may be formed integrally with the inner lid 15b and the outer lid 15a. For example, if the above-described guide wall 38 is extended downward so that the guide wall 38 can surround the entire rotary cylinder 36, the guide wall 38 can function as the cylindrical member 39. Then, since there is no gap between the guide wall 38 and the cylindrical member 39, there is no water leaking from between them, and the efficiency of supplying water to the inner lid 15b can be improved.

(About the dent 31)
Further, in order to reduce the amount of water to be supplied into the case 10, a recessed portion 31 bulging outside is provided in a portion attached to the crushing blade rotating shaft 17, and the rotating cylinder 36 is disposed in the recessed portion 31. It is preferable to be provided. Providing such a recessed portion 31 can deepen the water depth only in the portion of the recessed portion 31, while in the portion other than the recessed portion 31, the distance between the outer lid 15 a and the inner lid 15 b can be reduced to reduce the water depth. The amount of water to be supplied inside can be reduced.

(About the discharge unit 32)
The discharge part 32 for supplying the water supplied from the pump part 35 into the garbage container 50 may be a simple through-hole provided in the inner lid 15b, but it is more preferable to have the following configuration.

  In FIG. 5, the code | symbol 32 has shown the discharge part provided in the inner cover 15b. The discharge portion 32 is a portion having a cylindrical space recessed from the inner lid 15b, and a plurality of discharge ports 34h are formed on the side wall thereof. The discharge part 32 is formed so that its inner diameter is larger than the diameter of the rotary cylinder 36 of the pump part 35.

  As shown in FIG. 7, a plurality of water flow control plates 35 inclined with respect to the radial direction of the discharge portion 32 are provided inside the discharge portion 32. The outer edge of each water flow control plate 35 is connected to the opening edge of the discharge port 34h. That is, the water flowing along the surface of the water flow control plate 35 is configured to be discharged from the discharge port 34h.

  With this configuration, when the water supplied from the pump unit 35 flows into the discharge unit 32, it flows along the surface of the water flow control plate 35 and is supplied into the garbage container 50 from the discharge port 34h. Then, since the water flow control plate 35 is inclined with respect to the radial direction of the discharge portion 32, a vortex flow centering on the central axis in the garbage container 50 is formed in the garbage container 50. For this reason, the dust that has adhered to the inner surface of the garbage container 50 can be separated from the inner surface by the water flow by the formed vortex, so that the garbage container 50 can be prevented from being clogged by the dust that has adhered to the inner surface of the garbage container 50. Can do.

  Moreover, since it becomes easy to supply garbage to the position of the crushing blade 16 by the water flow formed in the garbage container 50, it becomes possible to improve crushing efficiency.

(About the crushing blade 16)
As shown in FIGS. 5 and 9, in the dust disposal apparatus 1 of the present embodiment, since the discharge portion 32 is provided as described above, the central portion where the discharge portion 32 is provided on the inner surface of the inner lid 15 b. There is a step between it and the surrounding area. In other words, a donut-shaped recess 40 is formed on the inner surface of the inner lid 15b.
With such a recess 40, even if there is a large lump in the crushed garbage, the length of contact between the lump and the tip of the crushing blade 16 is at most about the width of the recess 40. Then, even if the big lump and the crushing blade 16 contact, the resistance applied from the lump to the crushing blade 16 can be reduced. In other words, even if the output of the motor 5 that drives the crushing blade 16 is reduced, dust can be crushed, so that the motor 5 can be downsized and the apparatus can be made compact.

In particular, if only the tip 16a of the crushing blade 16 protrudes toward the recess 40 from the outer periphery of the discharge part 32, the motor 5 can be further reduced in size.
If both ends protrude toward the dent 40 side, both ends receive resistance from dust, so the motor 5 requires a driving force to rotate the crushing blade 16 against resistance applied to both ends. Is done. Therefore, a large motor 5 having a large output is required.
However, as described above, if the crushing blade 16 crushes dust with only the tip portion 16a, it is sufficient if there is a driving force to rotate the crushing blade 16 against resistance applied only to the tip portion 16a. The motor 5 can be reduced in size.
When only the tip 16a of the crushing blade 16 is protruded toward the dent 40, a counterbalance 16b is provided on the opposite side of the tip 16a so that vibration and runout do not occur due to rotation of the crushing blade 16. It is preferable to make it.

The waste disposal apparatus of the present invention is suitable for processing general waste that can be crushed, especially waste that contains moisture such as garbage collected in the sink of a household sink or food waste generated at a business establishment. Yes.
In addition, the size of the dust disposal apparatus of the present invention is not particularly limited, and if it is increased in size, it can be adopted as a commercial waste disposal facility.

DESCRIPTION OF SYMBOLS 1 Garbage disposal apparatus 4a Garbage disposal container holding part 4b Shaft holding part 10 Garbage disposal container 11 Main part
11w Liquid storage space 15 Lid 16 Crushing blade 20 Waste container drive mechanism 50 Waste container C Case

Claims (7)

An apparatus for crushing and dewatering garbage stored in a water-permeable garbage container that is cylindrical and has an opening for throwing garbage into one end in the axial direction,
A case capable of accommodating the trash container in a rotatable state around the central axis of the trash container;
A crushing blade disposed in the garbage container in a state of being accommodated in the case;
A crushing blade in a state disposed in the trash container, or a driving mechanism capable of rotating the trash container in a state accommodated in the case around a central axis of the trash container;
In the state where the crushing blade is rotated by the drive mechanism, a water supply mechanism for supplying water into the garbage container,
The water supply mechanism
A waste disposal apparatus, comprising a discharge portion that is provided in the vicinity of the crushing blade and supplies water to the waste that is crushed by the crushing blade. The case is
A bottomed cylindrical main body having an opening at one end for accommodating the waste container in a rotatable state;
A lid that is attached to the opening of the main body and seals the opening in a liquid-tight manner;
The drive mechanism is
A drive unit for supplying a drive force for rotating the garbage container and the crushing blade;
A trash container driving unit that is detachable from the driving unit and rotates the trash container in a state of being accommodated in the main body unit by a driving force supplied from the driving unit;
A crushing blade driving unit that is detachable from the driving unit and rotates the crushing blade by a driving force supplied from the driving unit,
The lid is
An inner lid attached to the opening of the trash container accommodated in the case;
On the inner surface of the inner lid,
The dust disposal apparatus according to claim 1, wherein the crushing blade and the discharge unit are provided. The case includes a reservoir that can store water;
The waste water treatment apparatus according to claim 1 or 2, wherein the water supply mechanism supplies water in the storage part into the waste container. The water supply mechanism is
4. The dust disposal apparatus according to claim 1, further comprising a pump unit that is driven by the crushing blade driving unit and supplies water in the storage unit to the discharge unit. The pump part is
A rotating cylinder fixed to the crushing blade rotating shaft and disposed so as to be coaxial with the crushing blade rotating shaft;
A hollow cylindrical member provided to accommodate the rotating cylinder therein;
The rotating cylinder is
5. The dust disposal apparatus according to claim 1, wherein the dust disposal apparatus is immersed in water stored in the storage section in a state of being disposed inside the cylindrical member. The discharge part is
A water flow control plate for controlling the flow of discharged water is provided so as to form a vortex around the central axis in the garbage container. The waste disposal apparatus according to 3, 4, or 5. The garbage container
On its inner surface, it has a protruding stirrer,
The garbage container drive unit
The trash container is accelerated at an acceleration at which the trash in the trash container cannot follow the rotation of the trash container when the trash container is rotated around the central axis of the trash container. The waste disposal apparatus according to 2, 3, 4, 5 or 6.

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