JP2001129516A - Garbage disposal device using microbe - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a microbial decomposition action to reach every part of the garbage by dehydrating and decomposing garbage and thereby realizing a thoroughgoing microbial decomposition treatment of the garbage. SOLUTION: In this garbage disposal device using microbes, a garbage decomposition treating drum is supported so that the drum is driven to rotate around the axial center which is set almost level and a water-permeable screen is tensely stretched over the peripheral face of the decomposition treating drum and further, a stirring transfer blade for transferring garbage forward while stirring it, is provided on the inner peripheral face of the screen. In addition, a pressurizing conical screw conveyor structured of a rotary conical screw whose diameter becomes larger forward, a hopper, into the rear end part of which garbage is dumped and a cylinder whose forward end is opened to the rear end part of the drum, is connected to the rear end of the drum. Further, the cylinder of the screw conveyor has numerous dehydrating holes through which moisture is discharged to the outside.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for treating food waste from homes, food processing plants and the like, wastes from breeding animals and plants, garbage from cultivation sites and other various garbage by the action of decomposing microorganisms.

[0002]

2. Description of the Related Art Conventionally, as this kind of garbage disposal apparatus,
There is known a structure in which raw garbage is directly charged together with microorganisms into a treatment tank, and air is blown by a blower while the input material is stirred by a stirring screw.

However, in the above-mentioned conventional apparatus, since raw garbage is directly introduced into the processing tank, it takes a long time for the microorganisms to be decomposed to the entire raw garbage, and furthermore, the water and garbage originally contained in the raw garbage are reduced. A large amount of water generated as a result of the action of decomposing microorganisms was retained in the treatment tank, and these large amounts of water suppressed the subsequent activity of the microorganisms, and as a result, left a large amount of undecomposed residues.

Therefore, measures have been taken to introduce sawdust and the like into the treatment tank as an absorbing material for the generated moisture, but the post-treatment of these sawdust and the like remains as a new problem.

[0005]

According to the first aspect of the present invention, the garbage is preliminarily treated so that the microorganisms are completely decomposed, thereby achieving a sufficient decomposition by the microorganisms. The challenge is to

As a means for solving the above problem, the invention of claim 1 of the present application is a method wherein the garbage decomposing drum is supported so that its axis is substantially horizontal and is driven to rotate about the axis. A screen through which water is permeable is stretched, and a stirring transfer blade for transferring garbage forward while stirring the garbage is provided on the inner peripheral surface of the screen. A pressurized conical screw conveyor comprising a rotary conical screw having a large diameter forward and a cylinder having a hopper at the rear end into which garbage is charged and having a front end opened into the rear end of the decomposition drum is connected. The present invention proposes an apparatus for treating garbage by microorganisms, wherein a plurality of dewatering holes for discharging moisture to the outside are provided in a cylinder of the above-mentioned conical screw conveyor.

A second object of the present invention, in addition to the object of the first aspect of the present invention, is to cleanly treat sewage extracted from garbage by the garbage disposal apparatus.

[0008] As a means for solving the problem, the invention of claim 2 of the present application is directed to a microbial sewage purifying tank provided with sewage discharged from the screen of the decomposition treatment drum and the cylinder of the pressurized conical screw conveyor. Proposes a garbage disposal device.

As the above-mentioned "screen" in the present invention, a wire mesh, a perforated plate and other various types are used.
Septic tanks of various structures are appropriately and selectively used as the "sewage septic tank by microorganisms". Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[0010]

1 and 2, a horizontally long box-shaped housing (1) is installed on a flat septic tank (2), and a garbage decomposing drum (3) is placed in the housing (1). In a state in which there is a proper space between 1) and the entire surface, its axis is substantially horizontal, and the axis is rotatably supported. A pressurized conical screw conveyor (4) is provided at the rear end of the drum (3). The screw conveyor (4) is connected to the drum (3) so that the axis thereof is substantially horizontal.
Is projected out of the housing (1).

The structure of the disassembling drum (3) is as follows. Brackets (5) and (6) protrude from both front and rear sides outside the housing (1), and both shafts have a rotating shaft (7) extending horizontally in the front-rear direction through the housing (1). Both ends are rotatably supported, and the drum (3) is fixed to the rotating shaft (7) at the axial center.

The drum (3) has a circular front end plate (8) fixed at the center to the rotation shaft (7), and four arms projecting radially from the rotation shaft (7) at the rear end. In this example, a screen (11) made of wire mesh is stretched in a cylindrical shape between the ring (10) fixed to each end of (9)..., Thereby closing the front end face and opening the rear end face. A plate-like blade (12) having a low height is formed on the inner peripheral surface of the screen (11) for stirring and transferring the garbage forward when the drum is rotated. It protrudes at an angle.

On the outer peripheral surface of the ring (10) of the drum (3), an annular endless groove rail (21) having a U-shaped cross section is provided.
And the groove rail (21) is supported at two points by rollers (22) and (22) projecting from the left and right sides of the lower portion inside the housing (1) as shown in FIG. It is.

The structure of the working conical screw conveyor (4) is as follows. The support frame (15) outside the housing (1) and the inside of the housing (1) are inserted into a cylinder (13) having a hopper (14) at the rear end while the rotary shaft (7) is passed through the axis. Arm (1
6) supported horizontally by the cylinder (13)
With the front end of the opening facing the rear end of the opening of the drum (3),
In this cylinder (13) a conical screw (17)
Is fitted and fixed to the rotation shaft (7) in a state where the large diameter portion is rotatably inserted toward the front.

A large number of small dewatering holes (18) are provided on the entire peripheral wall of the cylinder (13), and a cylindrical dehydration receiving cover (19) is mounted on the outer periphery of the cylinder (13). Dehydration discharge pipe (20) on one side of the lower part of 19)
Is connected.

(23) a frusto-conical cover for covering a space between the rear end of the opening of the drum (3) and the screw conveyor (4), the large diameter portion of which is fixed to the ring (10); The portion is made to go around the outer peripheral surface of the front end of the dewatering receiving cover (19) of the screw conveyor (4) with a small gap.

As means for driving the rotation of the drum (3) and the conical screw (17), the housing (1)
A motor (24) is installed on the outer front side, and a large-diameter sprocket (25) is fixed to the rotating shaft (7), and the small-diameter sprocket (26) fixed to the output shaft of the motor (24) is used. The chain (27) is wrapped around the large diameter sprocket (25), whereby the rotation of the motor (24) is reduced and transmitted to the drum (3) and the conical screw (17) via the rotating shaft (7).

(28) are air jet nozzles mounted on the housing (1) toward the screen (11) of the drum (3) as shown in FIG. The jam is removed and oxygen is supplied to the drum (3). Each nozzle is connected to an air pump.
(29) are exhaust ports for discharging gas in the housing (1), and are connected to suction blowers, respectively.

(30) a working opening with a sliding door (31), which is provided below the front end face of the housing (1); (32)
Is a spill take-out opening with a hinged door (33) established in the front end plate (8) of the drum (3).

Next, the structure of the septic tank (2) will be described. As shown in FIG. 1, an upper plate of the septic tank corresponding to the bottom plate of the housing (1) is gently inclined backward and downward to form a sewage guide chute (34). , A sewage inlet (35) is opened in the tank (2), and in the tank (2), natural or artificial porous stones, synthetic fiber bundles, and various other microorganisms are easily formed. The material (36) is laid to a considerable thickness, and a diffuser tube (37) for supplying oxygen to the microorganisms is provided in the settlement material (36). Each diffuser tube is an air supply tube (3
8) is connected to an air pump installed outside the tank. (39) is a drainage port of the purified water provided on the side wall of the tank (2).

The operation of the above example will be described. Motor (2
By the start-up of 4), the decomposition drum (3) and the conical screw (17) are rotated via the rotating shaft (7). When the garbage is put into the hopper (14) while adding the required microorganisms, the garbage is gradually and strongly pressurized while being conveyed forward through the cylinder (13) by the conical screw (17). The water contained in the garbage is dehydrated, and the separated sewage is discharged into the receiving cover (19) through the dehydration small holes (18) of the cylinder (13), and finally the garbage is removed by strong pressurization. The form is crushed and falls from the open end of the cylinder (13) to the rear end in the rotating drum (3) with the microorganisms in crushed pieces.

The crushed garbage that has fallen into the drum (3) is gradually moved forward in the drum (3) while being mixed with the microorganisms while being stirred by the blades (12). And disintegrate throughout the whole. During this time, the water generated by the decomposition of the dust drops on the guide chute (34) through the screen (11).

When the garbage is transferred to the front end in the drum (3) while being decomposed by microorganisms as described above,
It is decomposed almost without leaving its original form, leaving only a residue.

The sewage dewatered and separated from the conical screw conveyor (4) is discharged from the receiving cover (19) to the discharge pipe (2).
0), flows down onto the guide chute (34), flows into the septic tank (2) from the inflow port (35) together with the sewage dropped from the drum (3), and is subjected to a purifying action by microorganisms there.

As another embodiment, instead of or in combination with the air jet nozzles (28)..., Water is sprayed on the outer surface of the screen (11) of the drum (3) by the jet nozzles to form the screen (11). May be washed.

In still another embodiment, as shown in FIG. 3, a conical screw (17a) is rotatably fitted on a rotating shaft (7a), and a cylinder (13) of the screw (17a) is rotated.
Large diameter sprocket (40) is attached to the small diameter end protruding from a).
a), a small diameter sprocket (42a) is fixed to the output shaft of a new motor (41a), and rotation is transmitted from the sprocket (42a) to the sprocket (40a) via a chain (43a). Thereby, the conical screw (17a) is rotated at a higher rotational speed than the disassembly processing drum, and the other structure is substantially the same as that of FIGS.

As another embodiment, as shown in FIG. 3, a pair of crushing wheels (44a) and (44a) having a large number of teeth on an outer peripheral surface are engaged with each other in a hopper (14a) as shown in FIG. In this state, both wheels (44a) and (44a) are rotatably driven in the opposite direction by a motor so that garbage is crushed between the two wheels. 2 or FIG. 3 are substantially the same. According to this example, the garbage can be further crushed into pieces so that the microorganisms can act more completely.

[0028]

According to the first aspect of the present invention, the garbage is dehydrated and crushed by the pressurized conical screw conveyor to cause the microorganisms to reach the garbage, and the crushed garbage is stirred by the decomposition drum. At the same time, moisture generated by the decomposing action of the microorganisms is eliminated by the screen, whereby the decomposing action of the microorganisms is sufficiently exerted on the garbage, so that an effective decomposition treatment can be performed.

According to the second aspect of the present invention, in addition to the effects of the first aspect of the present invention, sewage dewatered and separated from garbage by the pressurized conical screw conveyor and discharged by decomposition from the decomposition treatment drum are provided. Sewage can be immediately purified by the septic tank.

[Brief description of the drawings]

FIG. 1 is a vertical sectional side view of a garbage disposal apparatus according to the present invention.

FIG. 2 is a sectional view taken along line II-II of FIG.

FIG. 3 is an enlarged vertical sectional side view of a pressurized conical screw conveyor portion of another embodiment.

[Explanation of symbols]

 2 Septic tank 3 Decomposition treatment drum 4, 4a Pressurized conical screw conveyor 11 Screen 12 Stirring transfer blade 13, 13a Cylinder 14, 14a Hopper 17, 17a Conical screw 18, 18a Dewatering small hole

Claims (2)

[Claims] A garbage decomposition processing drum is supported so that its axis is substantially horizontal, and is rotatably driven about the axis. A screen through which water permeates is provided on the peripheral surface of the decomposition processing drum. And, on the inner peripheral surface of the screen, a stirring transfer blade for transferring the garbage forward while stirring the garbage is provided, At the rear end of the decomposition processing drum, a rotary conical screw having a large diameter forward, A pressurized conical screw conveyor having a hopper into which garbage is charged at the rear end and a cylinder having a front end opened in the rear end of the decomposition drum is connected to the cylinder of the processing conical screw conveyor. A garbage disposal device using microorganisms, provided with a large number of dehydration holes for discharging moisture to the outside. 2. The apparatus for treating garbage with microorganisms according to claim 1, further comprising a microorganism sewage purification tank into which sewage discharged from the screen of the decomposition treatment drum and the cylinder of the pressurized conical screw conveyor flows. .