JP2004216251A - Garbage disposal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a garbage disposal which uses a garbage decomposing base material containing thermophilic aerobic bacteria, has narrow width (thin form), is compact and does not occupy a large space. <P>SOLUTION: The garbage disposal is constituted by providing with a box-shaped treatment tank which has an upward charging port at an upper part and has a circular arc-shaped bottom part, a box-shaped outer frame in which the treatment tank is housed, an agitator which is installed in the treatment tank and a rotary shaft center of which is directed in a horizontal direction and a heating means for heating the treatment tank. Whole shape of the outer frame is a longitudinal box shape with width narrower than depth. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a solid organic waste treatment apparatus, and more particularly to a so-called high-temperature bio-type garbage treatment apparatus that decomposes kitchen garbage (garbage) from a home kitchen with high-temperature aerobic bacteria.
[0002]
[Prior art]
There are various types of high-temperature bio-type garbage treatment apparatuses, and examples thereof include JP-A-7-290029 (Patent Document 1) and JP-A-6-304542 (Patent Document 2).
[0003]
[Patent Document 1]
JP-A-7-290029
[Patent Document 2]
JP-A-6-304542
[0004]
[Problems to be solved by the invention]
A high-temperature bio-type garbage treatment apparatus using high-temperature aerobic bacteria is excellent in that garbage is quickly decomposed, and the residue (compost) after the decomposition is less moist. However, since the processing apparatus is relatively large, it has been difficult to secure a place for use in a home kitchen.
[0005]
In view of the above problems, an object of the present invention is to provide a garbage disposer that is compact and can be used in a kitchen where space is not required.
[0006]
[Means for Solving the Problems]
The present invention provides a box-shaped processing tank having an upwardly-directed inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is placed, and an openable / closable opening / closing port for the inlet. A waste mixing lid, a stirrer provided in the processing tank and turning the direction of the axis of rotation horizontally, and a heating means provided in the processing tank and the waste charging lid, A garbage disposer using high-temperature aerobic bacteria as a base material for decomposing garbage in the tank, wherein the heating is performed so that the temperature of the garbage to be decomposed is maintained at about 60 ° C to 80 ° C. It is characterized by heating by means.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0008]
First, the overall structure of the garbage disposer will be described with reference to FIGS.
[0009]
The garbage disposer has a treatment tank 1, both side plates 2, 2, a front support plate 3, a rear support plate 4, a front decorative plate 5, a refuse input lid 6, and a bottom base 7. The processing tank 1, the two side plates 2 and 2, the front support plate 3, the rear support plate 4, the front decorative plate 5, the refuse input lid 6, and the bottom base 7 are formed of synthetic resin. Made of heat-resistant polypropylene.
[0010]
The side plates 2 and 2, the front support plate 3, and the rear support plate 4 support the processing tank 1 and are durable with reinforcing ribs on the inside. The side plates 2 and 2 and the rear support plate 4 also serve as decorative panels, so that the surface is a clean panel surface.
[0011]
The garbage disposer is assembled in a procedure as shown in FIGS.
[0012]
The front support plate 3 and the rear support plate 4 are attached to the bottom base 7 so as to stand up, and the processing tank 1 is supported by the front support plate 3 and the rear support plate 4. The processing tank 1 is fixed to the support projections of the front support plate 3 and the rear support plate 4 using screws. The processing tank 1 is supported so as not to come off by the main fixation using these screws.
[0013]
After the processing tank 1 is assembled and supported by the front support plate 3 and the rear support plate 4, the front support plate 3 and the two side plates 2 are mounted on the rear support plate 4 so as to cover both side surfaces of the processing tank 1. . By attaching the two side plates 2 and 2 to the front support plate 3 and the rear support plate 4, an outer frame that stands on the bottom base 7 is formed, and the outer frame body is joined to one of the two. Become. The front decorative plate 5 is attached to the front support plate 3 so that reinforcing ribs and the like on the surface of the front support plate 3 are hidden.
[0014]
Since the processing tank 1 is supported by being placed inside the strong outer frame, the overall structure of the waste treatment machine is also strong. Moreover, the assembling is performed by the above-described procedure, so that the assembling property is good.
[0015]
The outer frame has a space below the processing tank 1. In this space, electric parts such as a motor and a control board are placed. Details will be described later.
[0016]
This garbage disposer is thin and compact overall and has good storage in the kitchen.
[0017]
The garbage disposer has a vertically long box shape whose overall shape is narrower than its depth. More specifically, the width is about 220 mm, the depth is about 400 mm, and the length is about 600 mm. This narrow garbage disposer can be stored in a corner of a kitchen or in a gap between furniture, so that it is not easily disturbed. Further, since the food waste is stored in a gap or the like, the food waste disposer does not easily fall down, and there is little possibility that untreated food waste will spill out.
[0018]
The garbage processing machine has a length of about 600 mm and the garbage charging lid 6 is located above the processing tank 1, so that the garbage can be easily charged without bending down. When it is desired to increase the height, a lower storage box is prepared and placed on the lower storage box, so that the height can be set to 800 mm to 850 mm. At this height, it will be about the same height as the kitchen table, making it easier to put in garbage.
[0019]
The processing tank 1 has an arc-shaped bottom portion 20 when viewed from the side, a box shape that is slightly longer in the vertical direction, and has an input port 21 at an upper portion. Moreover, the processing tank 1 has a narrow width and a long depth, like the overall shape of the garbage processing machine, and has a rectangular shape when viewed from above.
[0020]
When viewed from the side (cross-sectional shape), the processing tank 1 has an arc-shaped bottom portion 20 as shown in FIGS. 4 and 5, but when viewed from the front (front cross-sectional shape), as shown in FIGS. As shown in FIG. 22, the bottom portion 20 is not formed in an arc, and both lower corners are curved. Further, as shown in FIG. 22 (front cross-sectional shape), the processing tank 1 is formed such that the width L1 of the charging port 21 is larger than the width L2 of the middle stage or lower. The processing tank 1 has a narrow width and a long depth as described above. Since the inlet 21 is widened in the narrower width, it becomes easier to input garbage.
[0021]
The peripheral edge of the inlet 21 has a thicker structure than other portions. Thereby, the upper part of the garbage disposal machine including the inlet 21 is strong.
[0022]
In addition, a downward supporting groove 22 is formed on the outer peripheral edge of the inlet 21. The upper ends of the side plates 2 and 2, the front support plate 3, the rear support plate 4, and the front decorative plate 5 are fitted into the support grooves 22. Since the upper ends are not exposed, the appearance is improved, the structure is secure, and the structure is combined with each other, so that the structure is more robust.
[0023]
In addition, when the input port 21 is inserted, even if the juice of the garbage spills and adheres to the peripheral portion (outer peripheral edge) of the input port, the support groove 22 is directed downward, so that the juice does not enter and is sanitary. is there.
[0024]
The processing tank 1 is provided with a stirrer 25. The stirring body 25 is provided so as to rotate in the processing tank 1. The rotating shaft 26 of the stirring body 25 is rotatably supported by left and right side walls 27 and 28 forming the processing tank 1 via bearings 29 and 30. The rotation axis of the rotation shaft 26 is placed horizontally (horizontally). The rotating shaft 26 has three stirring blades 35, 36, 37. The front side wall 38 and the rear side wall 39 forming the processing tank 1 are formed in an arc shape so that the bottom side forms an arc of the bottom portion 20, and form a substantially semicircular arc as a whole. The stirring blades 35, 36, 37 rotate inside the processing tank 1 along the arc surface of the lower portion 20 having such an arc shape.
[0025]
The stirring blades 35, 36, and 37 are attached to the rotating shaft 26 so as to be arranged at substantially equal intervals (120 angles) in the rotating direction. In other words, they are arranged at substantially equal intervals when viewed from the axial direction of the rotating shaft 26.
[0026]
The stirring blade 35 is supported by the rotating shaft 26 so as to be located at the center of the processing tank 1 as shown in FIG. In other words, the stirring blade 35 is located at the center of the rotating shaft 26 in the longitudinal direction. The stirring blades 36 and 37 are supported by the rotating shaft 26 so as to be positioned at both ends of the rotating shaft 26 with the stirring blade 35 being divided between the left and right sides. That is, the stirring blades 36 are arranged closer to the side wall 27 and the stirring blades 37 are arranged closer to the side wall 28. The stirring blades 36 and 37 have the same shape, but the stirring blade 35 located at the center has a different shape.
[0027]
The stirring blade 35 will be described with reference to FIG.
[0028]
The stirring blade 35 has two stirring blade pieces 44 and 45 and a support arm 40. The support arm 40 is common to those provided on the stirring blades 36, 37, but the stirring blade pieces 44, 45 have a different shape / structure from those of the stirring blades 36, 37. The main features of the stirring blade 35 are that it has three fingers 50 whose tip side is divided into three branches, and that it is composed of two stirring blade pieces 44 and 45. The stirring blade 35 is generally shaped like a hand with three fingers.
[0029]
The upper stirring blade piece 38 is made of synthetic resin. The lower stirring blade piece 39 is formed of a steel plate, and is strongly fixed to the support arm 40 by welding or a screw. The rising ribs 51 provided on both ends of the stirring blade piece 39 are fitted to step portions 52 provided on both ends of the stirring blade piece 39. By this fitting, the two stirring blade pieces 44 and 45 fastened by screws or the like are more firmly connected, and a strong stirring blade 35 is provided.
[0030]
The stirring blade 35 has a thickness. The two stirring blade pieces 44 and 45 are overlapped so as to embrace each other, and the thickness of the stirring blade piece 38 in the rotation direction is sufficiently larger than that of the stirring blade piece 39. However, it is sufficiently thicker than the stirring blades 36 and 37. Since the stirring blade piece 38 is formed of a synthetic resin, it can be easily made thicker than a steel plate.
[0031]
The crushing portion related to the stirring blade 35 will be described with reference to FIGS. 26, 23, 24, 27, and 3. FIG.
[0032]
The crushing unit 55 is provided inside the processing tank 1. The crushing part 55 is provided on the rear side wall 39 of the processing tank 1 at a flat position where the arc of the bottom part 20 ends. The crushing portion 55 having the substrate portion 56 and two crushing teeth 57 and 58 that are bent and raised on both sides of the substrate portion 56 is made of a steel plate. The substrate unit 56 is firmly attached to the processing tank 1 by fastening the substrate unit 56 to the processing tank 1 with screws or the like.
[0033]
The substrate portion 56 has a width of about 42 mm and a length of about 120 mm. The height of the two crushing teeth 57 and 58 rising from the substrate 56 is approximately 22 mm. The crushing teeth 57 and 58 are placed so as to face each other with a slightly smaller interval than 42 mm, and are provided so as to be slightly offset in the vertical direction. The step is approximately 14 mm, and the crushing teeth 57 are arranged on the lower side and the crushing teeth 58 are arranged on the upper side. The crushing portion 55 is provided such that the extending direction of the crushing teeth 57 and 58 extends along the up and down direction of the processing tank 1, and the length of the crushing teeth 57 and 58 in the up and down direction is about 32 mm. In other words, the crushing teeth 57 and 58 have a shape protruding toward the inside of the processing tank 1 and extending in the vertical direction.
[0034]
Such shape / structure
The crushing unit 55 having the (configuration) is placed at the center of the processing tank 1, that is, at the center of the rear side wall 39. Since the stirring blade 35 is supported by the rotating shaft 26 so as to be located at the center of the processing tank 1 as described above, the crushing teeth 57 and 58 pass between the three fingers 50 when the stirring blade 35 rotates. It becomes a relationship that does. In other words, the arrangement is such that the crushing teeth 57 can pass through one of the two gaps formed between the three fingers 50 and the crushing teeth 58 can pass through the other.
[0035]
The discharge port of the processing tank will be described with reference to FIGS.
[0036]
The discharge port 70 is an outlet for discharging compost described later in detail from the processing tank 1. The discharge port 70 is provided on the opposite side of the crushing part 55, that is, on the front side wall 38 side. The discharge port 70 is provided with a lid 71, which is closed except when discharging compost. The discharge port 70 is provided at substantially the same height position as the crushing section 55. In the drawing, the discharge port 70 is located slightly above the rotation axis 26 of the stirring blade, but may be provided at the same height as the axis.
[0037]
The reason why both the discharge port 70 and the crushing section 55 are located at substantially the same height as the rotating shaft 26 of the stirring blade is to sufficiently exert the compost discharging function and the garbage crushing function by the stirring blade. The gap between the tip of the stirring blade and the arc surface of the bottom 20 of the processing tank 1 is about 10 mm. This is because when the discharge port 70 and the crushing section 55 are raised above the rotation shaft 26, the gap increases, and the function of discharging the compost and the function of crushing garbage by the stirring blade cannot be maintained. Conversely, if it is too low below the rotary shaft 26, the discharge path leading to the discharge port 70 becomes complicated, and there is a problem that the crushing load in the crushing section becomes excessive. The height position is appropriate.
[0038]
FIGS. 3, 4, 5, 27, 28, 9, 10, 10 and 6 show the space of the outer frame body formed below the processing tank 1 and the electric components and devices housed in this space. Will be described.
[0039]
A motor 80 for driving the agitator 25 is provided in a space below the processing tank 1 surrounded by the bottom base 7, the front support plate 3, the rear support plate 4, and both side plates 2 and 2. The motor 80 has a built-in gear for deceleration, and the reduced output shaft is provided with a small-diameter gear 81.
[0040]
The rotating shaft 26 of the stirring body 25 is provided with a large-diameter gear 82. The large-diameter gear 82 is placed outside the processing tank 1 and in a narrow gap between the right side wall 28 and the side plate 2. A chain belt 83 is hung on the gear 82 and the gear 81, and the rotation of the motor 80 is transmitted to the agitator 25.
[0041]
A reinforcing support plate 84 is provided. The reinforcing support plate 84 is a plate-like member made of a vertically long steel plate placed in the narrow gap and extending to a space below the processing tank 1. Since the bearing 30 and the motor 80 are supported by the reinforcing support plate 84, the strong rotational force of the decelerated motor is reliably transmitted to the agitator 25 and cannot be applied to the processing tank 1 made of synthetic resin. No power is applied.
[0042]
On the front side of the motor 80, a cooling fan 85 is provided. It rotates with the rotation of the motor 80 to cool the motor 80.
[0043]
On the front side of the cooling fan 85, a control board 86 for controlling the operation of the motor 80 and various controls relating to waste treatment is provided. The control board 86 will be described in more detail later.
[0044]
The space below the processing tank 1 is further provided with deodorizing means for removing odor from exhaust gas discharged from the processing tank 1. The deodorizing means has a deodorizing unit 90 and a blowing unit 91. The deodorizing unit 90 has a heating section 92 provided with a heater and a deodorizing section 93 provided with a platinum catalyst. The blower unit 91 includes a blower 94, an intake mixer 95, and an exhaust deflection unit 100. The exhaust side of the deodorizing unit 90 and the intake side of the intake mixing section 95 are connected to each other through a communication pipe 96. The outside air suction port 97 of the suction mixing section 95 is arranged so as to face the suction port 98 provided in the rear support plate 4. The blower 94 has a sirocco-shaped fan, and the exhaust in the horizontal direction (along the bottom base 7) discharged from the blower 94 is deflected downward by the exhaust-direction deflecting unit 100, and the exhaust port (see FIG. (Not shown) to the outside.
[0045]
The heating unit 92 of the deodorizing unit 90 is disposed on the upstream side, and the deodorizing unit 93 is disposed on the downstream side. In order to activate the function of the catalyst of the deodorizing section 93, the heating section 92 heats the catalyst to a high temperature (300 ° C.) and then sends deodorizing air (gas) to the deodorizing section 93.
[0046]
The suction side of the deodorizing unit 90 is connected to the odor release port 110 of the processing tank 1 through a ventilation duct 99 serving as an odor exhaust passage. The ventilation duct 99 is passed through a narrow gap between the right side wall 28 of the processing tank 1 and the side plate 2. The odor release port 110 is provided above the right side wall 28 of the processing tank 1. A filter 111 is provided at the odor releasing port 110 so as to face the inside of the processing tank 1. The filter 111 is for suppressing garbage to be processed from entering the odor vent 110, and is preferably made of a material having fine air permeability. The filter 111 is detachably attached. The filter 111 is removed when cleaning or the like.
[0047]
The odor generated in the processing tank 1 is carried to the deodorizing unit 90 through the ventilation duct 99 and deodorized. Although the exhaust gas after deodorization from the deodorizing unit 90 has a high temperature close to the ignition point, it mixes with the outside air in the intake mixing section 95 and has a low temperature and is discharged from the exhaust port of the bottom base 7 to the kitchen floor or the like. No discomfort occurs.
[0048]
In this manner, various devices including electric components such as the deodorizing means, the motor 80, and the control board 86 are collectively housed in the space below the processing tank 1, and the upper part is occupied by the processing tank. As a result, a large capacity of the processing tank could be ensured irrespective of the compact shape having the narrow width and the long depth described above.
[0049]
The processing tank is configured to be entirely heated by heating means. This will be described with reference to FIG.
[0050]
A sheet-like heater plate 120 is provided on the left side wall 27 of the processing tank 1, a sheet-like heater plate 121 is provided on the right side wall 28, and a sheet-like heater plate 122 is provided on the front side wall 38, the rear side wall 39, and the bottom 20. Is provided. Since these heater plates have substantially the same shape as the individual surface walls, the outer surface of the processing tank 1 is almost completely covered with the sheet-like heater plates.
[0051]
The sheet-like heater plate has a flexible main sheet having good thermal conductivity with an adhesive applied to both sides, a flexible heating wire spread all over the main sheet, and the heating wire. Has a heat reflecting sheet of aluminum foil attached to the sheet as described above.
[0052]
Since the sheet-like heater plate having the above-described configuration has flexibility and the main sheet is provided with an adhesive, it can be stuck to the outer surface of the processing tank 1 so as to be in close contact therewith. . Since the sheet-like heater plate is in close contact with the processing tank 1, heat generated by the heater plate is transmitted to the processing tank 1 satisfactorily. In addition, heat leakage to the outside can be sufficiently suppressed by the heat reflection sheet made of aluminum foil, so that heat generated by the heater plate is supplied to the processing tank 1 without waste.
[0053]
The sheet-shaped heater plates are provided so that their heat generating electric capacity is about 200 W and the heat generating temperature is about 130 ° C. The garbage in the treatment tank 1 is decomposed by high-temperature aerobic bacteria while being kept at a temperature of about 60 ° C. to 80 ° C. by the sheet-like heater plate.
[0054]
As described above, since the processing tank 1 has a long depth but a narrow width, the heat of the heater plate is transferred to the inside of the garbage in the processing tank 1. Since the food can be heated to a temperature of 60 ° C. to 80 ° C. to the depth of the garbage, the decomposition treatment by bacteria is performed well.
[0055]
The dust input lid will be described in detail with reference to FIG.
[0056]
The dust input cover 6 includes an upper cover 130, an inner cover 131, a heater plate 132, a heat insulating plate 133, a display element substrate 134, and a display panel cover 135.
[0057]
The heater plate 132 has a configuration in which a heat-generating wire (approximately 200 W) subjected to insulation treatment is provided on a substrate having good thermal conductivity such as stainless steel. The heater plate 132 is attached to a heater storage section 136 provided in the inner lid section 131. A grid is provided at the bottom of the heater storage section 136. Radiation heat of the heater plate 132 is transmitted into the processing tank 1 from the gaps of the lattice. Since the grid is provided, there is no danger of contact with the heater plate 132, and the grid is safe. Since the heat insulating plate 133 is interposed between the heater plate 132 and the upper lid 130, the temperature rise of the upper lid 130 is suppressed.
[0058]
The inner lid 131 has a display element housing 137 on the front side adjacent to the heater housing 136. The display element substrate 134 is stored in the display element storage section 137.
[0059]
The inner lid portion 131 in which the display element substrate 134, the heater plate 132, the heat insulating plate 133, and the like are housed and mounted, and the upper lid portion 130 are fastened with screws or the like, and are configured as the dust input lid 6.
[0060]
Since the treatment tank 1 is heated from the entire surface including the upper surface side by the heater plate 132 or the sheet-like heater plate, the garbage is heated without unevenness, and the decomposition / treatment by bacteria is favorably performed. In addition, since the refuse input lid 6 is heated by the heater plate 132, steam from the garbage does not become water droplets and adhere to the inner surface side of the refuse input lid 6, so that there is no unsanitary condition. is there.
[0061]
FIGS. 13, 14, 15, 16, 17, 18, 19, and 20 will be described with respect to the hinge for supporting the dust insertion lid so that it can be opened and closed.
[0062]
The hinge base 140 has a flat surface portion 141, a rising portion 142, and a rising portion 143. The flat surface portion 141 has sleeve portions whose both end portions slightly protrude toward the near side. The rising portion 142 is formed so as to rise from the front end side of the flat surface portion 141, and extends so as to be curved over the inner end sides of both sleeve portions.
[0063]
The standing portion 143 is formed so as to fall from the rear end side of the flat surface portion 141 and extends so as to be curved over the inner end sides of both sleeve portions. The flat surface portion 141 is provided with support bosses 144 rising to both end sides. Immediately behind the support boss 144, a stop pin 145 rising from the flat surface portion 141 is provided alongside the support boss 144.
[0064]
The hinge base 140 is attached to the rear side of the inlet 21 of the processing tank 1. The lower surface of the flat surface portion 141 of the hinge base 140 is in contact with the upper surface of the peripheral edge of the inlet 21, and the outer peripheral side of the standing portion 143 is in contact with the upper inner peripheral edge of the inlet 21, so that the hinge base 140 is placed on the upper part of the processing tank 1. The hinge base 140 is securely fastened and fixed to the upper portion of the processing tank 1 by screwing the fastening screws passed through the sleeve portions to the periphery of the inlet 21.
[0065]
As shown in FIG. 14, the hinge base 140 is placed such that the flat surface portion 141 covers the upper rear inner peripheral side of the inlet 21. With such a configuration that the hinge base 140 covers, a large volume of the processing tank 1 can be ensured in a range within the outer frame. Further, although the input port 21 is narrowed by the amount of the cover, the input port 21 is on the rear side, so that it does not hinder the input of the garbage. Since the hinge base 140 is a separate member from the processing tank 1, the molding die can be easily pulled out above the inlet 21 when forming the processing tank.
[0066]
Two hinge fittings 150 are fastened and fixed to the support boss 144 by screws 151. Since the stopper pin 145 is also fitted to the hinge fitting 150, the hinge fitting 150 is securely fixed without turning on the support boss 144. The hinge shaft 152 is supported so as to span the two hinge fittings 150. By fitting a shaft support groove 153 provided in the inner lid portion 131 of the dust input cover 6 into the hinge shaft 152, the dust input cover 6 is supported by the hinge shaft 152 in a freely rotatable / openable / closable manner. become.
[0067]
The hinge cover 154 is attached so as to cover the hinge base 140. The hinge cover 154 completely covers the hinge mechanism including the support boss 144, the fixing pin 145, and the hinge fitting 150, so that the hinge mechanism is not exposed and has a good appearance. Further, since the hinge mechanism is located slightly inward of the upper peripheral edge of the input port 21, it is not exposed to the rear side of the garbage disposal machine and the upper side of the refuse input lid 6, so that the appearance is good.
[0068]
Regarding the power supply cord 160 crawled on the refuse input cover 6, FIGS.
This will be described with reference to FIGS.
[0069]
A cord 160 for supplying power to the heater plate 132 is routed between the hinge base 140 and the hinge cover 154. The cord 160 crawls through a gap between the outer frame and the processing tank 1, and extends upwardly through a cord outlet hole 159 of the processing tank 1 and a cord through hole 161 formed in the flat surface portion 141 of the hinge base 140, and substantially at a right angle. Break. Then, the inside of the hinge base 140 and the hinge cover 154 is crawled along the longitudinal direction, and on the way, immediately outside the inside from the inside, dives through the cord lead-in hole 162 formed in the inner lid portion 131 of the refuse input lid 6, The cord 160 reaches the heater plate 132 by crawling inside the lid 6 for dust input. In addition, the cord 160 goes out of the hinge base 140 and the hinge cover 154, dives into the cord lead-in hole 162, and crawls inside the refuse input cover 6, and the cord 160 draws a large arc and bends at almost a right angle. Present.
[0070]
The cord 160 is bent with the opening and closing of the refuse input cover 6. However, the bending does not take place exclusively outside the hinge base 140 and the hinge cover 154 and under the cord draw-in hole 162, but the majority of the bending crawls inside the hinge base 140 and the hinge cover 154. In the range, the cord 160 performs a twisting movement. This twisting movement has a very small bending stress applied to the cord as compared to the movement of bending the cord at a right angle, and does not cause a problem that the cord is broken even if the garbage charging lid 6 is repeatedly opened and closed. It is.
[0071]
An electric circuit related to the control board will be described in detail with reference to FIG.
[0072]
The control board 86 is mainly composed of a microcomputer, and various electronic parts / electric parts are connected around the control board 86 to form an electric circuit of the following garbage processing machine.
[0073]
A commercial AC power supply is connected to the control board 86 via the outlet 170 and the current fuse 171. The motor 80 is connected to an AC power supply via another current fuse 172, and is also connected to the control board 86. The motor 80 is an induction motor of a condenser run, and the forward / reverse operation is performed according to an instruction from the control board 86.
[0074]
The magnet speed detection switch 173 provided in the motor 80 has a switch contact, and this switch contact is connected to the control board 86. The ON / OFF timing of the switch contact changes according to the rotation speed of the motor 80. When the load applied to the motor 80 increases, the rotation speed of the motor 80 decreases, and the on / off timing of the switch contact is delayed. The control board 86 sequentially measures the ON / OFF timing, and when the ON / OFF timing falls below a predetermined value, the control board 86 determines that the load applied to the stirrer is excessive, and stops supplying power to the motor 80. Stop the motor operation.
[0075]
The heating wire (heater) 174 of the heater plate 120, the heating wire (heater) 175 of the heater plate 121, and the heating wire (heater) 176 of the heater plate 122 in the processing tank 1 are controlled by an AC power supply through the current fuse 172. Connected to substrate 86. The heating wire (heater) 177 of the heater plate 132 of the dust input lid 6 is also connected to the AC power supply and the control board 86 via the current fuse 172. A heating wire (heater) 178 of the heating unit 92 of the deodorizing unit 90 is also connected to the AC power supply and the control board 86 via the current fuse 172.
[0076]
The control board 86 controls the heat generation of the heat generation line (heater) 174, the heat generation line (heater) 175, the heat generation line (heater) 176, and the heat generation line (heater) 177 so that the heat generation is maintained at 130 ° C. and does not exceed 140 ° C. . By maintaining at this temperature, the decomposition of garbage by bacteria is performed favorably. Since the temperature does not reach 140 ° C. or higher, there is no thermal damage to the processing tank 1 made of heat-resistant polypropylene resin.
[0077]
Since the heat generated by the heat generation line (heater) 178 is controlled by the control board 86 so as to be maintained at 300 ° C., the performance of the deodorizing section 93 using the platinum catalyst is favorably maintained.
[0078]
The control board 86 includes a cover opening / closing detection switch 190 for a refuse input cover, a discharge opening / closing detection switch 191 for detecting opening / closing of a compost discharge opening 70, and a filter detection switch 192 for detecting attachment / detachment of the filter 111 of the processing tank 1. It is connected to the. These switches are of the magnet type.
[0079]
In response to the detection signals of these switches, the control board 86 controls the operation of the garbage disposal machine. When the detection signal of the lid opening / closing detection switch 190 indicates that the lid is open, the control board 86 instructs to stop the garbage disposal machine.
[0080]
When the detection signal of the discharge opening / closing detection switch 191 indicates that the lid 71 is open, the control board 86 instructs to stop the garbage treatment machine, and the compost discharging operation is performed manually. The driving operation is performed. Further, when the detection signal of the filter detection switch 192 indicates that the filter 111 has come off, the control board 86 instructs to stop the garbage treatment machine.
[0081]
The fan motor 193, the fan motor 194 for the ion generator, and the ion generator 195 of the blower unit 91 of the deodorizing means are connected to the control board 86.
[0082]
The detection thermistor 196 for detecting the heat generation temperature of the heat generation line (heater) 174, the heat generation line (heater) 175, and the heat generation line (heater) 176 of the processing tank is connected to the control board 86. The detection thermistor 197 for detecting the heat generation temperature of the heat generation line (heater) 177 of the refuse input lid and the detection thermistor 198 for detecting the heat generation temperature of the heat generation line (heater) 178 of the deodorizing unit 90 are connected to the control board 86. Have been. In response to the detection signals of these thermistors, the control board 86 turns on the heating wires (heaters) 174, 175, 176, 177 and 178. Is controlled so that a predetermined temperature is maintained.
[0083]
A display panel cover 135 is provided above the display element substrate 134 provided on the dust insertion cover. Various switches are provided inside the display panel cover 135. The cancel switch 200 is for canceling or stopping the operation of the garbage disposer. The deodorizing switch 201 is used to switch the intensity of deodorizing to be weakened or increased. The reserved operation setting switch 202 is used to set, change, or cancel the time of the reserved operation. The operation changeover switch 203 is for setting a changeover between the energy saving operation mode and the normal operation mode.
[0084]
The lid button 204 functions when opening and closing the refuse input lid 6. That is, by pressing the lid button 204, the closing of the refuse input lid is released, and by closing the refuse input lid, the closed state is maintained by the lid button 204. The lid button 204 is configured to work with the lid opening / closing detection switch 190. By pressing the lid button 204, the refuse input lid is opened and the lid open / close detection switch 190 is also operated, and a signal indicating that the lid is opened is output. By closing the dust input lid, the lid is closed and held by the lid button 204, and the lid open / close detection switch 190 is also operated to output a signal indicating that the lid is closed. These switches are connected to the control board 86.
[0085]
The operation mode will be described with reference to FIGS.
[0086]
First, the normal operation mode shown in FIG. 31 will be described.
[0087]
In the normal operation mode, basically, the stirring drive of the stirrer and the heating of the treatment tank 1 are automatically performed in accordance with the opening and closing of the dust introduction lid.
[0088]
When the garbage charging lid 6 is opened and garbage is disposed in the treatment tank 1, the garbage charging lid 6 is closed. The control board drives the motor 80 upon seeing the signal of the lid open / close detection switch 190 indicating that the lid is closed. The motor 80 is operated for about 4 hours while repeating forward / reverse rotation. During this time, the agitation by the agitator is performed while heating the treatment tank 1, so that the garbage is well decomposed by bacteria and becomes compost.
[0089]
The forward rotation time of the motor 80 is about 107 seconds, and the reverse rotation time is about 90 seconds. The rotation speed of the stirrer that is transmitted with the rotation of the motor decelerated is about 6 RPM. There is a pause of about 3-5 seconds between forward and reverse rotation. The downtime is shorter than a normal rotation / reverse rotation operation of about 2 minutes per operation.
[0090]
Since the decomposition operation time of about 4 hours is controlled by the sensor, it may be long or short depending on the amount of garbage to be processed. Even if there is no garbage, when the garbage introduction lid 6 is opened and closed, the forward / reverse operation of the motor 80 is performed for about 30 seconds. The operation for about 30 seconds is also performed by the sensor control. Instead of the sensor control, it is also possible to stop by a timer after a predetermined time (4 hours or 5 hours) has elapsed.
[0091]
The operation of the deodorizing means (the deodorizing unit 90 and the blowing unit 91) is performed together with the operation of the motor 80. When the decomposition process is not performed, odors from the garbage are rarely generated, and since the garbage is coated on the sawdust containing bacteria, it is considered that the odor is unlikely to leak. If necessary, the operation of the deodorizing means may be continued for a short time after the operation of the motor 80 is stopped.
[0092]
The operation of the ion generator 195 does not necessarily need to be combined with the operation of the motor 80. Here, since a long-time operation of 14 hours is performed, there is a partial lap operation.
[0093]
The energy saving operation mode will be described with reference to FIG.
[0094]
This operation mode is characterized in that the garbage decomposition process is integrated at a predetermined time.
[0095]
Even if the garbage input lid 6 is opened and closed by the input of kitchen garbage in the morning, daytime, and evening cooking, the operation for disassembling the garbage is not performed. Only the operation of rotating and driving the stirrer is performed for about 5 minutes, and the garbage is kept applied to the powdery decomposition-treated base material, and waits until the reserved operation start time at midnight. The degradation substrate is a powder containing high temperature aerobic bacteria. Residue (compost) produced by the decomposition of garbage also joins the decomposition-treated substrate.
[0096]
When the reserved time comes, the operation of the motor 80 is automatically started, and the garbage decomposition processing operation is performed for about 4 hours. A deodorizing operation is also performed.
[0097]
That is, the reservation timer function can arbitrarily set the start time of the disassembling process operation. When the reservation is set, even if the refuse charging lid 6 is opened and closed, the operation for performing the garbage disassembling process is not performed. Then, a short coating operation (about 5 minutes) with a stirrer is performed to the extent that the substrate containing the bacteria of the decomposition treatment is applied to the garbage, and the decomposition treatment operation is performed collectively when the reserved time has come.
[0098]
The disassembly operation is completed in the middle of the night when the kitchen is not used, so even if there is a driving sound or a slight odor leak, there is no effect on the bedroom, it does not disturb sleep, and comfortable life Can be provided.
[0099]
The switching between the energy saving operation mode and the normal operation mode is performed by the operation switch 203 as described above. The operation start time is performed by a reservation timer function. The setting / change of the operation start time to be reserved is performed by the reservation operation setting switch 202.
[0100]
In this reserved operation, the method of reserving the operation start time instead of the method of reserving the end time is because the time spent in the decomposition processing of garbage cannot be easily measured before the operation starts.
[0101]
The time spent in the decomposition process of garbage varies depending on the amount and type of garbage, and it is not easy to accurately measure the processing time in advance. Therefore, a method of reserving the operation start time is appropriate.
[0102]
Since the garbage for one day is processed all at once, the power consumption is greatly reduced. Normal household garbage output per day is about 0.7 kg. The decomposition process of about 0.7 kg of garbage is about 4 to 5 hours, so it can be sufficiently performed within night time. The middle of the night when the kitchen is not used can be selected by the reservation timer, and the kitchen garbage can be decomposed.
[0103]
During the garbage decomposition operation, the exhaust air after deodorization is discharged from the exhaust port provided in the bottom base 7 of the garbage processor to the kitchen floor or the like, and is dispersed so as to spread on the floor. And no discomfort occurs.
[0104]
Stirring of the garbage is performed by a stirring blade of a stirring body. The central stirring blade 35 performs the crushing of the garbage and the scraping of the compost in addition to the stirring of the garbage. This crushing and scraping will be described.
[0105]
The crushing is effectively performed when the stirring body is rotated forward. The forward rotation is a rotation in which the stirrer is directed upward from below with respect to the crushing section.
[0106]
By this forward rotation, when the finger of the stirring blade 35 meets the crushing teeth 57 and the crushing teeth 58 of the crushing section, the lump of kitchen waste is crushed / crushed. In the forward rotation, the crushed garbage jumps up toward the upper side of the garbage stored in the processing tank 1, so that the crushing is performed well. In the reverse rotation, the crushed garbage is pushed into the accumulated garbage, so that the crushed garbage is not easily crushed.
[0107]
Incidentally, the standard amount of garbage that can be favorably treated is up to a height of about 70 mm from the rotating shaft 26 in terms of the height of the garbage accumulated in the treatment tank 1. When the stirring blade comes directly above, the support arm 40 is left, and the stirring blade is exposed above the garbage. When the amount of garbage increases, the crushed garbage cannot be jumped over the accumulated garbage, so that crushing / crushing is inferior even in the normal rotation.
[0108]
When the stirring blades 35 approach the crushing section 55, the stirring blades made of a steel plate are positioned on the lower side, and the stirring blades made of synthetic resin are positioned on the upper side. Are embraced. In the forward rotation, a large crushing torque acts on the stirring blade 35. Therefore, when approaching the crushing portion 55, the stirring blade piece made of a steel plate is on the lower side in terms of strength. It is advantageous.
[0109]
In addition, by the reverse rotation, dust caught on the lower end sides of the crushing teeth 57 and the crushing teeth 58 of the crushing portion at the time of the normal rotation is removed. By repeating forward / reverse rotation, the garbage can be evenly distributed, and the garbage can be decomposed satisfactorily.
[0110]
In the crushing part, a vertical step is provided between the crushing teeth 57 and the crushing teeth 58. Due to this step, the timing of the garbage that bites into the lower end or the upper end of the crushing teeth 57 and the crushing teeth 58 is temporally shifted, and it is difficult for the garbage to bite at the same time.
[0111]
The stirring blade 35 has a thickness as described above. Because of the thickness, the garbage is less likely to be caught by three fingers as compared with a thin one, so that a decrease in crushing performance can be suppressed.
[0112]
Compost discharge is described.
[0113]
When the amount of compost accumulated in the processing tank 1 increases, the compost is discharged. The compost is discharged by opening the lid 71 of the discharge port 70 and reversing the stirring body. The discharge of the compost is performed by first stopping the operation of the garbage disposer, preparing a material for receiving the compost outside the discharge port 70, and then reversing the stirring body. The reversal is continued. In the reverse rotation, the stirring blade 35 rotates in a direction from the bottom to the top with respect to the discharge port 70. Since the stirring blade 35 has a wide flat surface, such as the palm of the stirring blade, oriented in the rotation direction, the compost is carried so as to be scooped by the palm and discharged from the discharge port 70. The stirring blade 35 is provided so as to be located at the center of the processing tank 1. Since both corners of the bottom portion 20 on both sides of the stirring blade 35 are curved, the compost naturally gathers at the center of the bottom portion 20. Is well scooped by the stirring blade 35.
[0114]
In the treatment tank 1, the discharge port 70 is provided on the front side wall 38 and the crushing section is provided on the rear side wall 39 so that the discharge port 70 and the crushing section are at the same height as the rotary shaft 26. I was prepared. This height position has the advantage that the compost is discharged well and the garbage is crushed well.
[0115]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the garbage processing machine with a narrow (thin) compact and space-saving can be provided.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing an entire garbage disposal machine according to an embodiment of the present invention.
FIG. 2 is an external perspective view of the garbage disposer according to the embodiment of the present invention, showing a state where a refuse input lid is opened.
FIG. 3 is a longitudinal sectional view of the garbage disposal machine according to the embodiment of the present invention.
FIG. 4 relates to the embodiment of the present invention and is a sectional view of FIG.
FIG. 5 is a sectional view (b)-(b) of FIG. 3, according to the embodiment of the present invention.
FIG. 6 is an exploded view showing the garbage disposer disassembled into a main body and an outer frame according to the embodiment of the present invention.
FIG. 7 relates to the embodiment of the present invention and is an assembling procedure diagram {circle around (1)} showing a process of assembling a main body portion and an outer frame of the garbage disposal machine.
FIG. 8 is an assembling procedure diagram (2) according to the embodiment of the present invention, in which a main body portion and an outer frame of the garbage disposal machine are assembled.
FIG. 9 relates to the embodiment of the present invention and is an assembling procedure diagram (3) showing assembling a main body portion and an outer frame of the garbage disposal machine.
FIG. 10 is an assembling procedure diagram (4) according to the embodiment of the present invention, showing how the outer frame is assembled with the main body of the garbage disposal machine.
FIG. 11 relates to the embodiment of the present invention, and is an assembling procedure diagram {circle around (5)} (assembly completed) showing assembling a main body portion and an outer frame of the garbage disposal machine.
FIG. 12 is an exploded view of a dust input lid according to the embodiment of the present invention.
FIG. 13 is a view showing a hinge portion of a dust input lid according to the embodiment of the present invention.
FIG. 14 is an enlarged view of a portion A in FIG. 13 according to the embodiment of the present invention.
FIG. 15 is an exploded view of a hinge portion of the refuse input lid according to the embodiment of the present invention.
16 is an enlarged view of a portion B in FIG. 15 according to the embodiment of the present invention.
17 is an enlarged view of a portion A in FIG. 15 according to the embodiment of the present invention.
FIG. 18 is a view related to the example of the present invention, showing wiring to a heater provided in a dust introduction lid.
19 is an enlarged view of a portion B in FIG. 18 (before crawling the wiring) according to the embodiment of the present invention.
FIG. 20 relates to the example of the present invention and is an enlarged view of a portion B in FIG. 18 (wiring is laid).
FIG. 21 is an exploded view of a heater provided in the processing tank according to the embodiment of the present invention.
FIG. 22 is a longitudinal sectional view of a processing tank according to the embodiment of the present invention.
FIG. 23 is a view of the inside of the processing tank viewed from above according to the embodiment of the present invention.
FIG. 24 relates to an example of the present invention and is a view showing a stirring body and a crushing section in a processing tank.
FIG. 25 is a view showing a single agitator according to the embodiment of the present invention ((a) / (b) is a view in which the viewing direction is changed).
FIG. 26 relates to an example of the present invention, and is a view showing a single piece of a crushing part ((a) shows a plane, (b) shows a front, and (c) shows a side).
FIG. 27 is a view showing a flow of exhaust gas according to the embodiment of the present invention.
FIG. 28 is a view showing an exhaust flow including a relationship with a bottom base according to the embodiment of the present invention.
FIG. 29 is an entire circuit diagram according to the embodiment of the present invention.
FIG. 30 is a view showing an energy saving operation mode according to the embodiment of the present invention.
FIG. 31 is a view showing a normal operation mode according to the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Treatment tank, 6 ... Litter input lid, 7 ... Bottom base 7, 20 ... Bottom, 21 ... Input port, 25 ... Agitator.

Claims (41)

A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is provided, and a direction of a rotation axis provided in the processing tank. In a garbage disposer having a stirring body for laying down and a heating means for heating the treatment tank,
A garbage disposal machine characterized in that the overall shape of the outer frame is narrower than depth and has a vertically long box shape. In the garbage processing machine according to claim 1,
The garbage disposal machine, wherein the outer frame has a width of about 220 mm, a depth of about 400 mm, and a length of about 600 mm. A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is provided, and a direction of a rotation axis provided in the processing tank. A garbage disposer using a high temperature aerobic bacteria as a base material for decomposing garbage in the treatment tank, comprising a stirring body for laying down and heating means for heating the treatment tank,
A garbage disposal machine characterized in that the garbage is heated by the heating means so that the temperature of the garbage to be decomposed is maintained at about 60C to 80C. A box-shaped processing tank having an upwardly-directed inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is placed, and an openable / closable refuse inlet for opening / closing the inlet. A lid, a stirrer provided in the processing tank and turning the direction of the rotation axis horizontally, and heating means provided on the processing tank and the refuse charging lid, In a garbage disposer using high temperature aerobic bacteria as a base material for decomposing garbage,
A garbage disposal machine characterized in that the garbage is heated by the heating means so that the temperature of the garbage to be decomposed is maintained at about 60C to 80C. A box-shaped processing tank having an upwardly-directed inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is placed, and an openable / closable refuse inlet for opening / closing the inlet. A lid, a stirrer provided in the processing tank and turning the direction of the rotation axis horizontally, and heating means provided on the processing tank and the refuse charging lid, In a garbage disposer using high temperature aerobic bacteria as a base material for decomposing garbage,
A garbage disposer, wherein a sheet-like heater adhered to an outer surface of the processing tank is used as a heating means for the processing tank. A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is provided, and a direction of a rotation axis provided in the processing tank. A garbage disposer using a high temperature aerobic bacteria as a base material for decomposing garbage in the treatment tank, comprising a stirring body for laying down and heating means for heating the treatment tank,
A garbage disposal machine comprising a deodorizing means for removing odor from exhaust gas discharged from the processing tank. The garbage processor according to claim 6,
The garbage disposal machine, wherein the deodorizing means has a deodorizing unit and a blowing unit. The garbage disposer according to claim 7,
The said deodorizing unit has the deodorizing part and the heating part provided in the upstream of this deodorizing part, The garbage processing machine characterized by the above-mentioned. The garbage processor according to claim 8,
The garbage disposal machine, wherein the deodorizing section is provided with a platinum catalyst. The garbage disposer according to claim 8 or claim 9,
The garbage processing unit has a blower unit and an intake mixing unit provided on the upstream side of the blower unit, and the exhaust air and the outside air of the deodorizing unit flow into the intake mixing unit. Machine. The garbage processor according to claim 6,
The deodorizing means has a deodorizing unit and a blower unit provided downstream of the deodorizing unit,
The garbage disposal machine, wherein the blower unit includes a blower unit and an exhaust-direction deflecting unit provided downstream of the blower unit and deflecting exhaust gas discharged from the blower unit downward. The garbage processor according to claim 6,
The deodorizing means has a deodorizing unit and a blower unit provided downstream of the deodorizing unit,
A garbage disposal machine comprising: an odor release port provided in the treatment tank; and a ventilation duct communicating the odor release port with the deodorizing unit. The garbage processor according to claim 12,
The garbage disposal machine is characterized in that the odor vent is provided above the treatment tank, and the odor vent is provided with a removable air-permeable filter for preventing the inflow of garbage. A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is provided, and a direction of a rotation axis provided in the processing tank. A garbage disposer using a high temperature aerobic bacteria as a base material for decomposing garbage in the treatment tank, comprising a stirring body for laying down and heating means for heating the treatment tank,
The stirring body has a plurality of stirring blades,
At least one stirring blade is formed in the shape of a hand having a plurality of fingers,
A garbage disposal machine characterized in that a crushing section having crushing teeth passing between the fingers is provided in a processing tank when the stirring member is rotated. The garbage disposer according to claim 14,
The garbage disposal machine, wherein the stirring blade has three fingers, and the crushing unit has two crushing teeth. The garbage disposer according to claim 14,
The garbage disposer, wherein the crushed teeth have a shape protruding inside the treatment tank and extending in a vertical direction. The garbage disposal machine according to claim 16,
A garbage disposal machine comprising two crushing teeth and displaced so that a step is formed in a vertical direction. The garbage disposer according to claim 14,
Provided in the processing tank so that the rotation axis of the stirring body is placed horizontally,
The hand-shaped stirring blades are provided at the center in the longitudinal direction of the rotating shaft, and the other stirring blades are provided near both ends of the rotating shaft.These stirring blades are arranged at substantially equal intervals when viewed from the axial direction of the rotating shaft. A garbage processing machine characterized by the fact that: The garbage disposer according to claim 14,
Provided in the processing tank so that the rotation axis of the stirring body is placed horizontally,
A hand-shaped stirring blade is provided at the center in the longitudinal direction of the rotating shaft,
A garbage disposal machine wherein the crushing unit is provided at a position substantially at the same height as the rotating shaft. In the garbage disposer according to any one of claims 14 to 19,
The garbage disposer, wherein the stirring blade has two stirring blade pieces to be tied together. The garbage disposer according to claim 20,
One of the stirring blade pieces is formed of a steel plate, the other stirring blade piece is formed of a synthetic resin, and the thickness in the rotation direction of the stirring blade is formed thicker than the stirring blade piece of the steel plate. Garbage processing machine. The garbage disposer according to any one of claims 14 to 21,
The garbage disposer, wherein the stirring blade is repeatedly rotated forward and backward, and the normal rotation is a rotation of the stirring blade in a direction from below to above with respect to a crushing portion. The garbage disposer according to claim 22,
The garbage disposal, wherein the stirring body is provided with a rotation pause shorter than the normal rotation / reverse rotation time between the normal rotation / reverse rotation, and the normal rotation / reverse rotation time per time is within 2 minutes. Machine. The garbage processor according to claim 23,
A garbage disposer wherein the forward rotation time of the stirring body is longer than the reverse rotation time. The garbage processor according to claim 21,
When the stirrer approaches the crushing section, the stirring blade piece formed of a steel plate is located on the lower side, and the stirring blade piece formed of a synthetic resin is located on the upper side. Garbage processing machine. In the garbage disposal machine according to any one of claims 14 to 25,
A garbage disposal machine, wherein a discharge port for discharging compost obtained by decomposing garbage is provided in the treatment tank, and a lid that can be opened and closed to open and close the discharge port is provided. The garbage disposer according to claim 26,
A garbage disposer wherein the discharge port is provided at a position substantially at the same height as a rotation axis of the stirring body. In the garbage processor according to claim 26 or claim 27,
A garbage disposal machine wherein the discharge port is located on the opposite side of the crushing section with the stirring body in between. In the garbage processing machine according to any one of claims 26 to 28,
The garbage disposer according to claim 1, wherein the stirring blade has a wide flat surface facing the rotation direction. In the garbage disposer according to any one of claims 26 to 29,
A garbage disposer characterized in that when discharging compost, the stirring blade is rotated in a direction from bottom to top with respect to a discharge port. A garbage disposer according to any one of claims 22 to 24,
A garbage garbage having a reservation timer function for making a reservation for a disassembling operation for performing agitation by the stirrer, heating of the treatment tank by the heating means, and operation of the deodorizing means when a reservation time arbitrarily settable comes Processing machine. The garbage disposer according to claim 31,
While the reservation by the reservation timer function is set, the processing base material containing the bacteria for the decomposition process is removed every time the refuse input lid for opening / closing the input port of the processing tank is opened and closed. A garbage processing machine characterized in that a coating and stirring operation is performed by a stirring body that is short enough to be applied to garbage. The garbage disposer according to claim 31,
When the reservation by the reservation timer function is not set, the disassembling operation is performed every time the refuse input lid for opening / closing the input port of the processing tank is opened and closed. Processing machine. In the garbage processing machine according to any one of claims 31 to 33,
The garbage processing machine is characterized in that the decomposition processing operation time is set to about 4 to 5 hours, and the decomposition processing operation time varies depending on the amount of garbage when sensor control is not performed for a fixed time. A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is provided, and a direction of a rotation axis provided in the processing tank. A garbage disposer using a high temperature aerobic bacteria as a base material for decomposing garbage in the treatment tank, comprising a stirring body for laying down and heating means for heating the treatment tank,
The outer frame has both side plates, a front support plate, a rear support plate, and a bottom base. The processing tank is fastened and fixed to the front support plate and the rear support plate standing on the bottom base, and the processing tank is surrounded from the outside. Both side plates are attached to the front support plate and the rear support plate,
In the processing tank, a downward supporting groove is formed at an outer peripheral edge of the input port, and the upper ends of the side plates, the front supporting plate, and the rear supporting plate are fitted into the supporting groove. Machine. The garbage processor according to claim 35,
A garbage processing machine wherein the processing tank, the both side plates, the front support plate, the rear support plate, and the bottom base are formed of synthetic resin. A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is provided, and a direction of a rotation axis provided in the processing tank. A garbage disposer using a high temperature aerobic bacteria as a base material for decomposing garbage in the treatment tank, comprising a stirring body for laying down and heating means for heating the treatment tank,
A garbage disposal machine characterized in that the processing tank is formed so that the width L1 of the input port is larger than the width L2 below the middle level, which is below the input port. In the garbage processing machine according to any one of claims 26 to 30,
The garbage disposer, wherein the treatment tank has both lower corners on both sides of the stirring blade in a curved shape. A box-shaped processing tank having an upwardly oriented inlet at the top and an arc-shaped bottom, a box-shaped outer frame in which the processing tank is placed, and an openable / closable refuse inlet for opening / closing the inlet. A base material that has a lid, a stirrer provided in the processing tank, and that turns the direction of the rotation axis horizontally, and a heating unit that heats the processing tank, and that decomposes garbage in the processing tank. Garbage disposer using high temperature aerobic bacteria as
A garbage disposal machine, wherein a hinge base of a hinge for supporting the refuse input lid so as to be openable and closable is attached to a rear upper side of the input port so as to cover the input port. In the garbage disposer according to claim 39,
Screw a pair of hinge brackets to the hinge base,
Hang the hinge axis over these two hinge brackets,
A garbage disposal machine wherein a garbage introduction lid is supported on the hinge shaft so as to be freely opened and closed. The garbage processor according to claim 40,
Cover the hinge base with the hinge cover,
The power supply cord that crawls through the gap between the outer frame and the processing tank and goes out above the processing tank further crawls the inside of the hinge cover on the hinge base along the longitudinal direction, and goes out from the inside on the way. A garbage disposal machine characterized by the fact that it immediately reaches the inside of the refuse input lid.

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