JPH08193785A - Dry type crude refuse treating apparatus - Google Patents

Abstract

PURPOSE: To efficiently dry crude refuse by rotatably providing a cylindrical partition wall having a heater on an inner wall surface in a cylindrical vessel in which a tornado fin is mounted on a rotary shaft to form an inner chamber and an outer chamber in the vessel. CONSTITUTION: A cylindrical partition wall 49 is rotatably provided in a vessel, a heat transfer plate 52 is provided at the inner wall surface of the wall 49, and an inner chamber A and an outer chamber B are formed in the vessel. A first tornado fin 70 is provided on a rotary shaft 58 disposed in the chamber A via a bracket 69, a second tornado fin 72 is provided at the outer periphery of the wall 49 disposed in the chamber B via a bracket 71, and the spiral directions of the fins 70, 72 are reversed. Thus, even if the rotating directions of the fins 70, 72 are similar, crude refuse dumped in the vessel is brought into contact with the plate 52 by the centrifugal forces of the fins 70, 72 at the times of rising and falling, and heated. Thus, the refuse drying time can be shortened, and the drying efficiency is improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dry-type food waste treating apparatus for bringing food waste introduced therein into contact with a heating portion to heat and dry it.

[0002]

2. Description of the Related Art Raw garbage includes cooked garbage, leftover food, etc.
There are even large amounts that are discharged from restaurants and food business operators, and depending on the type, there are various types such as high moisture content, low moisture content, hard content and soft content.
There is a food waste processing device as a device for processing these food wastes, and the processing method thereof includes a dry type and a combustion type.

FIG. 5 shows a schematic view of a conventional dry food waste processing apparatus, and FIG. 6 shows a mounting structure of a tornado fin applied to this conventional dry food waste processing apparatus.

As shown in FIG. 5, in a conventional dry food waste treating apparatus 101, a cylindrical container 102 has a heat insulating material 103 with a decorative plate 104 attached to the outer peripheral surface thereof, and a steam jacket 105 on the inner wall surface thereof. Is formed, and a steam supply pipe 106 is connected to the steam jacket 105. An input port 107 through which raw garbage can be input is formed in the upper part of the container 102, and the input port 107 can be opened and closed by a lid 108. On the other hand, a discharge port for discharging dried food waste is formed at the bottom of the container 102, and the lid 1
It is openable and closable by 09, and a drain 110 for discharging water is provided.

A rotary shaft 111 is located in the container 102,
The rotating shaft 111 is rotatably supported by a bearing 112, and the lower part thereof is drivingly connected to a motor 113 with a speed reducer. A bracket 114 is fixed to the rotary shaft 111, and a spiral tornado fin 115 is attached to an outer peripheral end of the bracket 114, and an outer peripheral edge of the tornado fin 115 is attached to the container 102. It is close to the inner peripheral surface of the steam jacket 105. It should be noted that the baffle 1 is provided in the upper part of the container 102.
16 is attached. Further, a cooler 117 and a ventilator 118 are attached to the container 102.

[0006] Therefore, the garbage is introduced through the inlet 107 of the container 102, the moisture content of the garbage or the moisture adjusting agent is added according to the kind of the garbage, and the lid 108 is closed, and the gear is attached. Rotating shaft 11 by driving electric motor 113
1 to rotate the tornado fin 115 via the bracket 114. Then, the garbage is moved upward by the rotating tornado fin 115, and is moved to the inner wall surface side of the container 102 by its centrifugal force. That is, as shown in FIG. 6, the food waste D is crushed as it comes into contact with the inner wall surface of the steam jacket 105 of the container 102, is heated, and moves while being rubbed. Thereafter, the food waste moved upward by the tornado fin 115 comes into contact with the baffle 116, moves toward the center of the container 102, and falls from the gap of the bracket 114 to the lower part of the container 102. Then, the dropped food waste is moved upward by the rotating tornado fin 115, and the same processing as described above is repeated.

Thus, the garbage is tornado fin 11
While repeating rising and falling by the turning of 5, the powder thermally decomposes and becomes a dry powder due to collision with the baffle 116 and friction with the inner wall surface of the steam jacket 105, and the powder is discharged from the discharge port. On the other hand, the steam generated from the garbage by heating is sucked by the ventilator 118 via the cooler 117 and discharged to the outside, and the cooling water is discharged by the drain 110.

[0008]

In the conventional dry food waste treatment apparatus 101 as described above, the food waste thrown into the container 102 is swept on the inner wall surface of the steam jacket 105 by the turning of the tornado fins 115. It is heated in contact with it, repeatedly rising and falling while being rubbed, and processed into a dry powder. However, when the garbage is raised by the tornado fins 115, the steam jacket 1 as a heating unit is used.
Although it is heated by contacting the inner wall surface of 05, it does not receive heat when falling. On the other hand, it is desired to treat a large amount of garbage in a short time, and in order to improve the treatment efficiency, the contact area with the inner wall surface of the steam jacket 105, that is, the heat transfer area is increased when the garbage is raised. There is a need to. In this case, the diameter and height of the steam jacket 105 may be increased, but this causes an increase in the size of the apparatus itself and limits the installation location.

Further, as shown in FIG. 6, garbage D
Steam jacket 1 by centrifugal force of Nade fin 115
05 in contact with the heating surface 105a as the inner wall surface of 05
It is heated, but at this time, the surface of the tornado fin 115 is
Due to the frictional force between the surface and the food waste D, centrifugal force is applied to the food waste D.
Sufficiently press against the heating surface 105a of the steam jacket 105.
I can't discipline. Therefore, the heated surface of the garbage D
Product A_HAnd evaporation area A _ECan be secured enough
The problem is that the processing time for drying food waste becomes longer.
There is a problem.

Further, when the food waste is heated, water vapor is generated and the pressure inside the container 102 rises. Therefore, the water vapor is sucked by the air blower 118, cooled by the cooler 117 and opened to the standby state. Due to the structure of the steam jacket 105, the inside is not evacuated to a slight negative pressure, and the drying efficiency of food waste is not so good. When the inside of the steam jacket 105 is set to a negative pressure or a vacuum state, the steam jacket 105 is overloaded, which causes a problem in strength, which makes it difficult to manufacture the reinforcing structure.

[0011] Also, some of the garbage is large or fibrous, and it cannot be decomposed even when heated, and is caught in the rotating parts or entangled with each other, which causes a failure.
Further, in the case of heat-treating food waste, it is necessary to put a water-adjusting agent in the container 102 together with the water content of the food waste or the kind of the food waste to adjust the processing time, which makes the work troublesome. Is.

The present invention is intended to solve such problems, and an object of the present invention is to provide a dry-type food waste treatment apparatus which improves the efficiency of the food waste drying treatment.

[0013]

In order to achieve the above-mentioned object, the dry food waste processing apparatus of the present invention is provided with a heating portion on the inner wall surface of a container having a cylindrical shape and having an upper opening which can be opened and closed by a lid. On the other hand, a spiral tornado fin is attached to a rotating shaft rotatably supported in the container in the vicinity of the heating part via a bracket, and the garbage thrown from the upper opening of the container is rotated. In a dry-type food waste treatment apparatus that heats and dries by contacting a heating portion of the inner wall surface of the container by the centrifugal force of a tornado fin, the inner cylinder partition wall having a cylindrical shape is rotatably provided in the container. A heating unit is provided on the inner wall surface of the wall, and an inner chamber and an outer chamber are formed inside the container.

Further, the dry food waste processing apparatus of the present invention is
While providing a spiral first tornado fin via a bracket on the rotating shaft located in the inner chamber of the container,
A spiral second tornado fin is provided on the outer peripheral surface of the inner cylinder partition wall located in the outer chamber of the container via a bracket, and the spiral directions of the first tornado fin and the second tornado fin are opposite to each other. It is characterized by that.

Further, the dry food waste processing apparatus of the present invention is
While providing a spiral first tornado fin via a bracket on the rotating shaft located in the inner chamber of the container,
A spiral second tornado fin is provided on the outer peripheral surface of the inner cylinder partition wall located inside the outer chamber of the container via a bracket, and the rotation directions of the first tornado fin and the second tornado fin are reversed. It is characterized by.

Further, the dry food waste processing apparatus of the present invention is
The first tornado fin or the second tornado fin on the upper part of the container
A baffle that is located above the tornado fin to push down the food waste is provided, and an opening that communicates the inner chamber and the outer chamber and moves the food waste is provided in a lower portion of the inner cylinder partition wall. It is a thing.

The dry food waste treating apparatus of the present invention is
The rotation speeds of the first tornado fin and the second tornado fin are different from each other.

Further, the dry food waste processing apparatus of the present invention is
The heating portion is formed by spirally providing a heating tube in which a heating fluid flows inside the inner cylinder partition wall.

The dry food waste treating apparatus of the present invention is
A heating portion is provided on the inner wall surface of a container having a cylindrical shape and an upper opening that can be opened and closed by a lid, while a rotating shaft rotatably supported in the container is in proximity to the heating portion via a bracket and has a spiral shape. In the dry food waste treatment device, which is equipped with the tornado fin, is heated and dried by contacting the heating portion of the inner wall surface of the container with the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container, The outer peripheral end side of the tornado fin is inclined downward.

Further, the dry food waste processing apparatus of the present invention is
A heating portion is provided on the inner wall surface of a container having a cylindrical shape and an upper opening that can be opened and closed by a lid, while a rotating shaft rotatably supported in the container is in proximity to the heating portion via a bracket and has a spiral shape. In the dry food waste treatment device, which is equipped with the tornado fin, is heated and dried by contacting the heating portion of the inner wall surface of the container with the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container, It is characterized in that a vacuum generating device for evacuating the inside of the container is provided.

Further, the dry food waste processing apparatus of the present invention is
A heating portion is provided on the inner wall surface of a container having a cylindrical shape and an upper opening that can be opened and closed by a lid, while a rotating shaft rotatably supported in the container is in proximity to the heating portion via a bracket and has a spiral shape. In the dry food waste treatment device, which is equipped with the tornado fin, is heated and dried by contacting the heating portion of the inner wall surface of the container with the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container, It is characterized in that a crushing device for crushing the food waste put into the container is provided, and a dehydrating device for removing the water content of the food waste crushed by the crushing device is provided.

[0022]

[Function] In a cylindrical container in which a spiral tornado fin is mounted on a rotating shaft via a bracket, a cylindrical inner cylinder partition wall having a heating portion on the inner wall surface is rotatably provided. By forming an inner chamber and an outer chamber inside the container, when heating the food waste by bringing it into contact with the heating portion of the container by the centrifugal force of the tornado fin, the heating area and evaporation area are sufficiently secured, Or increase.

Since the first tornado fins are provided in the inner chamber of the container and the second tornado fins are provided in the outer chamber and the spiral directions of the respective tornado fins are made opposite to each other, the rotation directions of the respective tornado fins are the same. Also, the food waste put in the container will be heated by contacting the heating unit by the centrifugal force of the tornado fins when rising and falling.
The processing time for drying food waste is shortened.

By providing the first tornado fins in the inner chamber of the container and the second tornado fins in the outer chamber and reversing the rotating directions of the respective tornado fins, even if the spiral directions of the respective tornado fins are the same. During the ascent and descent, the food waste put in the container comes into contact with the heating section and is heated by the centrifugal force of the tornado fins, and the drying processing time of the food waste is shortened.

A baffle located above one of the tornado fins to push down the food waste was provided in the upper part of the container, and an opening for moving the food waste between the inner chamber and the outer chamber was provided in the lower part of the inner cylinder partition wall. Then, the food waste raised by one tornado fin moves to the other tornado fin side by the baffle and descends by this tornado fin, and the descended food waste moves from the opening of the inner cylinder partition wall to one tornado fin side. This means that food waste is efficiently circulated in the container for processing.

By making the rotational speeds of the first tornado fin and the second tornado fin different, raw garbage smoothly moves between the inner chamber and the outer chamber through the opening of the inner cylinder partition wall.

Since the heating tube is provided spirally inside the inner cylinder partition wall to form the heating portion, the inner cylinder partition wall can be easily reinforced.

A heating portion is provided on the inner wall surface of a cylindrical container, and the outer peripheral end side of a spiral tornado fin provided via a bracket on a rotating shaft rotatably supported in the container serves as the heating portion. By closely advancing downward,
When the garbage is brought into contact with the heating part of the inner wall surface of the container by the centrifugal force of the tornado fins to heat it, the frictional force between the tornado fins and the garbage is reduced, and the garbage is forcibly pressed against the heating part. Therefore, the heating area and evaporation area of food waste increase.

By providing the vacuum generating device for making the inside of the container a vacuum, when the food waste is heated and dried, the inside of the container is in a vacuum state by the vacuum generating device, inevitably lowering the saturation temperature of water, It becomes easy to dry. In addition, the odor inside the container is sucked by operating the vacuum generator during or after the drying process of the garbage.

By providing the crushing device for crushing the food waste put in the container and the dehydrating device for removing the water content of the food waste, large food waste and fibrous substances are crushed in advance by the crushing device. Therefore, it will not be caught or entangled in the rotating part, and the water crushed by the crusher will be dehydrated by the dehydrator, and the drying process time will be eliminated without the need to add a moisture regulator. Is shortened.

[0031]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 1 is a schematic view showing a dry food waste processing apparatus according to an embodiment of the present invention, FIG. 2 is a sectional view of a container of the dry food waste processing apparatus of this embodiment, and FIG. Section III, Figure 4 shows the outline of the tornado fin mounting structure.

The dry type food waste processing apparatus of this embodiment is shown in FIG.
As shown in, a crushing device 11 for crushing raw garbage, a dehydrating device 12 for removing water from the raw garbage, a garbage storage tank 13 for temporarily storing the crushed and dehydrated garbage, and a treatment for drying the garbage The apparatus main body 14, the ejector vacuum generator 15 for making the inside of the processing apparatus main body 14 a vacuum, the discharging device 16 for discharging the processed material of the food waste processed by the processing apparatus main body 14, and the discharged processed material. It is composed of a processed material storage tank 17 for storing.

The crushing device 11 has a fixed blade 21 fixed and a rotary blade 23 which is rotated by an electric motor 22. The input garbage can be crushed by the fixed blade 21 and the rotary blade 23.

The dewatering device 12 connected to the crushing device 11 by the connecting pipe 24 has a hopper type separating plate (perforated plate) 26 rotated by an electric motor 25 and a backwashing cleaning nozzle 27, and the hopper type separating plate 26 is A discharge pipe 28 for discharging the separated water is attached, and the water of the crushed food waste can be removed by the hopper type separation plate 26. And the storage tank 13 integrated with the dehydrator 12
Can temporarily store crushed and dehydrated food waste.

The processing apparatus main body 14 connected to the storage tank 13 by the connecting pipe 29 can heat the food waste to dry it. The ejector vacuum generating device 15 connected to the processing device main body 14 can vacuum the inside of the processing device main body 14 and can suck waste steam and odor, and by the vacuum break valve 30. The vacuum state can be released. In addition, the processing device body 14
By discharging the lid 32 by the air cylinder 31, the discharging device 16 mounted on the device can discharge the processed food waste generated by drying the garbage in the processing device main body 14. The processed product storage tank 17 installed adjacent to the processing device body 14 can store the processed product discharged from the processing device body 14.

Here, the processing apparatus main body 14 described above will be described in detail. As shown in FIG. 2 and FIG. 3, in the processing apparatus main body 14, a cylindrical container 41 has a decorative plate 43 attached to the outer peripheral surface of a heat insulating material 42, and the inner wall surface of the container 41 has a spiral shape. The steam pipe 44 is arranged so as to form a heating section by mounting the heat transfer plate 45 inside the steam pipe 44. In addition, this steam pipe 4
Each end of 4 is inserted into the outside of the container 41, steam can be supplied from one end, and heated air and moisture can be discharged from the other end. An input port 46 through which raw garbage can be input is formed in the upper part of the container 41.
The lid 6 can be opened and closed by a lid 47. On the other hand, a discharge port 48 for discharging the processed raw garbage is formed on the side of the container 41.

A cylindrical inner cylinder partition wall 49 is rotatably supported in the container 41. The inner cylinder partition wall 49 partitions the interior of the container 41 into an inner chamber A and an outer chamber B. ing. The inner cylinder partition wall 49 is configured by holding a steam pipe 50 arranged in a spiral shape by a heat transfer cement 51 and mounting a heat transfer plate 52 inside. Each end of the steam pipe 50 is inserted into the outside of the container 41, so that steam can be supplied and discharged similarly to the steam pipe 44 described above. The inner cylinder partition wall 49 has a rotating cylinder 53 fixed at the center of the lower part and a supporting cylinder 5 for the container 41.
4 is rotatably supported by a bearing 55. Further, bearings 56,
A rotary shaft 58 is rotatably supported via 57.
The rotary cylinder 53 and the rotary shaft 58 are inserted into a housing 59 installed below the container 41, the first bevel gear 60 is fixed to the rotary shaft 58, and the rotary shaft 58 is inserted into the rotary cylinder 53. The second bevel gear 61 is fixed. on the other hand. The drive shaft 63 of the electric motor 62 mounted in the housing 59 is fixedly coupled with the drive gear 64 that meshes with the first bevel gear 60, while the driven shaft 67 drive-coupled through the reduction gears 65 and 66 is connected with the first drive gear 64. A driven gear 68 meshing with the second bevel gear 61 is fixed.

In the container 41, a plurality of brackets 69 extending in the radial direction are provided on the rotary shaft 58, and a spiral first tornado fin 70 is attached to the outer peripheral end of the bracket 69. The outer peripheral edge of the first tornado fin 70 is close to the inner peripheral surface of the heat transfer plate 52 of the inner cylinder partition wall 49. Further, a plurality of brackets 71 along the radial direction are fixed to the inner cylinder partition wall 49, and a spiral second tornado fin 72 is attached to the outer peripheral end of the bracket 71. The outer peripheral edge of 72 is close to the inner peripheral surface of the heat transfer plate 45 of the container 41. At this time, the first tornado fins 70 and the second tornado fins 72 are attached so that the outer peripheral end side inclines downward, and the respective tornado fins 70, 7 are attached.
2 has the opposite spiral direction. The upper baffle 73 is attached to the upper part of the container 41, the lower baffle 74 is attached to the lower part thereof, and the inner cylinder partition wall 4
An opening 75 that connects the inner chamber A and the outer chamber B is formed in the lower portion of the plate 9.

Therefore, when the electric motor 62 is driven, the drive shaft 63 and the drive gear 64 rotate, and the rotary shaft 58 is rotated via the first bevel gear 60, while the reduction gears 65, 66.
The driven shaft 67 and the driven gear 68 rotate via the, and the inner cylinder partition wall 49 can be rotated via the second bevel gear 61 and the rotary cylinder 53. Then, the first tornado fin 70 attached to the rotary shaft 58 via the bracket 69.
As the bracket rotates, the bracket 71 is attached to the inner cylinder partition wall 49.
The 2nd tornado fin 72 attached via is rotated. In this case, the first tornado fins 70 and the second tornado fins 72 rotate in the same direction, but the spiral directions are opposite, so that the food waste inside the container 41 is lowered by the first tornado fins 70. , And the second tornado fin 72 will raise it. Also, the first
The rotation speeds of the tornado fins 70 and the second tornado fins 72 are different, and in this embodiment, the second effect is caused by the heating effect.
The first tornado fin 70 is faster than the tornado fin 72.

The method of treating food waste by the dry food waste treatment apparatus of the present embodiment thus constructed will be described below.

As shown in FIG. 1, the food waste D is crushed by the crusher 1
It is thrown into 1 and is crushed by the fixed blade 21 and the rotary blade 23 here, and it mixes with water and becomes a slurry form. The crushed slurry-like food waste D flows to the dehydrator 12 through the connecting pipe 24, and in the hopper type separation plate 26 that is rotated by the electric motor 25, the water drops down and is separated, and is discharged from the discharge pipe 28. The garbage separated from the water is pushed out by the centrifugal force of the hopper type separation plate 26,
It falls into the storage tank 13. The hopper type separation plate 26
The water sprayed from the backwashing cleaning nozzle 27 prevents clogging. Then, the crushed and dehydrated food waste D is temporarily stored in the storage tank 13 until a fixed amount is stored, and when reaching the fixed amount, the raw garbage D flows to the processing device body 14 at once.

The food waste D sent from the storage tank 13 to the processing apparatus main body 14 by the connecting pipe 29 is heated here to be dried. That is, as shown in FIG. 2, when the food waste D is input from the input port 46 of the container 41, the rotating shaft 58 is rotated by the electric motor 62, and the first tornado fin 70 is swung via the bracket 69. The cylindrical partition wall 49 rotates, and the second tornado fin 72 turns via the bracket 71. This first tornado fin 7
0 and the second tornado fin 72 rotate in the same direction,
Since the spiral direction is reversed, the garbage in the inner chamber A is the first
Lowered by the tornado fin 70, lower baffle 7
4 and moves to the outer chamber B through the opening 75 of the cylindrical partition wall 49. And the garbage that moved to the outside room B is the second
Ascended by the tornado fin 72, the upper baffle 7
The inner chamber A is pushed out of the outer chamber B again to move. Further, the rotation speeds of the first tornado fin 70 and the second tornado fin 72 are different, the first tornado fin 70 is faster than the second tornado fin 72, and the heating effect is excellent.

At this time, the food waste is moved up and down by the rotating tornado fins 70 and 72, and is moved to the inner wall surfaces of the heat transfer plates 45 and 52 by the centrifugal force.
It is heated here. That is, as shown in FIG.
The heat transfer plate 45 and the heat transfer plate 52 of the cylindrical partition wall 49 are at high temperatures due to the steam pipes 44 and 50 through which steam flows, respectively, and the food waste D has a high temperature.
It will be heated by contacting the inner wall surface of the and will move while being rubbed, and this rise and fall will be repeated,
Or garbage D by collision with each baffle 73, 74
Is dried and finely ground into a powder. In this case, the outer peripheral ends of the tornado fins 70 and 72 are inclined downward, and when the garbage is brought into contact with the heat transfer plates 45 and 52 and heated by the centrifugal force of the tornado fins 70 and 72, The frictional force between the surfaces of the tornado fins 70, 72 and the food waste D is reduced, and the food waste D is forcibly pressed.
_H and evaporation area A _E increase, and the drying efficiency increases.

Further, as shown in FIG. 1, when the food waste is heated and dried by the turning of the tornado fins 70 and 72, the ejector vacuum generating device 15 is operated to suck the food waste so that the inside of the container 41 is vacuumed. In this state, the saturation temperature of water is inevitably lowered, the food waste is easily dried, and waste steam and odor generated by heating the food waste inside the container 41 are sucked.

When the garbage thus charged is heated and dried in the container 41 and processed into powder, the vacuum breaking valve 3
The vacuum state inside the container 41 is released by 0, and the air cylinder 3 of the discharge device 16 mounted on the processing device body 14 is released.
By opening the lid 32 by 1, the processed food waste inside is discharged from the discharge port 48 by the centrifugal force of the tornado fins 70 and 72. At this time, the odor inside the container 41 is removed by sucking again by the ejector vacuum generator 15. Then, the processed food waste discharged from the container 41 is temporarily stored in the processed product storage tank 17 to be cooled, and when a fixed amount is stored, it is used as an organic fertilizer carried out to the outside.

In the above-mentioned embodiment, by reversing the spiral directions of the first tornado fin 70 and the second tornado fin 72, the food waste is lowered in the inner chamber A and is discharged in the outer chamber B. The food waste was raised and the contact heating time between the food waste and the heat transfer plates 45 and 52 was lengthened.
The same effect can be obtained even if the spiral directions of 0 and the second tornado fin 72 are the same and the rotation directions are opposite.

Further, in the above-mentioned embodiment, the steam pipes 44 and 50 through which steam flows are used as the heating portion of the garbage, but the heating source is not limited to the steam pipes, and heating medium such as heating wire may be used. Anything is good.

[0049]

As described above in detail with reference to the embodiments, according to the dry food waste treating apparatus of the present invention, the heating portion is provided on the inner wall surface of the cylindrical container, while the container is provided inside the container. In a dry food waste treatment device that attaches a spiral tornado fin close to the heating part to a rotating shaft that is rotatably supported, and touches the heating part by the centrifugal force of the rotating tornado fin to heat dry it , A cylindrical inner cylinder partition wall is rotatably provided, and a heating unit is provided on the inner wall surface of the inner cylinder partition wall, and an inner chamber and an outer chamber are formed inside the container, so that raw garbage is heated. When heating by contacting a part, the heating area and evaporation area can be sufficiently secured or increased, and the heat treatment time for drying the food waste can be shortened to improve the efficiency of drying the food waste. Can be planned .

Further, according to the dry food waste processing apparatus of the present invention, the first tornado fin is provided in the inner chamber of the container, the second tornado fin is provided in the outer chamber, and the spiral directions of the respective tornado fins are reversed. Therefore, even if the rotation direction of each tornado fin is the same, it is possible to raise and lower the food waste put in the container by contacting the heating section by the centrifugal force of the tornado fins to heat it. The heating area and the evaporation area can be increased to shorten the drying treatment time.

Further, according to the dry food waste processing apparatus of the present invention, the first tornado fin is provided in the inner chamber of the container, the second tornado fin is provided in the outer chamber, and the rotation directions of the respective tornado fins are reversed. Therefore, even if the spiral direction of each tornado fin is the same, it is possible to contact the heating part by the centrifugal force of the tornado fin while heating and lowering the garbage put in the container to heat it. The heating area and the evaporation area can be increased to shorten the drying treatment time.

According to the dry food waste processing apparatus of the present invention, a baffle for pushing down the food waste is provided above one of the tornado fins in the upper part of the container, and the inner chamber and the outside are provided in the lower part of the inner cylinder partition wall. Since an opening for moving food waste to and from the room was provided, the food waste raised by one tornado fin is moved to the other tornado fin side by the baffle, and the food waste lowered by this tornado fin is moved to the inner cylinder partition wall. Since it moves from the opening to the one tornado fin side, the food waste can be efficiently circulated in the container to improve the drying treatment efficiency.

Further, according to the dry food waste processing apparatus of the present invention, the rotation speed of the first tornado fin and the second tornado fin is made different, so that the food waste is separated from the inner chamber through the opening of the inner cylinder partition wall. You can move smoothly to and from the outside room.

Further, according to the dry food waste processing apparatus of the present invention, the heating section is formed by spirally providing the heating tube through which the heating fluid flows inside the inner tube partition wall, thereby forming the inner tube partition. Walls can be easily reinforced.

Further, according to the dry food waste processing apparatus of the present invention, the heating portion is provided on the inner wall surface of the cylindrical container, and the spiral shape is attached to the rotary shaft rotatably supported in the container. Since the outer peripheral end side of the tornado fin is tilted downward near the heating part, when the garbage is brought into contact with the heating part and heated, the frictional force between the tornado fin and the garbage is reduced and The refuse is forcibly pressed against the heating portion, and the heating area and evaporation area of the garbage can be increased.

Further, according to the dry food waste treating apparatus of the present invention, since the vacuum generating device for making the inside of the container a vacuum is provided, the inside of the container is in a vacuum state by the vacuum generating device when heating and drying the food waste. Inevitably, the saturation temperature of water decreases, making it easier to dry and improving the efficiency of drying the processing of food waste.At the same time, during drying processing of food waste or after the completion of processing, a container is generated by a vacuum generator. It is possible to suck the odor inside.

Further, according to the dry food waste processing apparatus of the present invention, since the crushing apparatus for crushing the food waste put in the container and the dehydrating apparatus for removing the water content of the food waste are provided,
Large garbage and fibrous materials can be crushed in advance by a crushing device, which can prevent malfunctions due to the garbage getting caught in the rotating parts or getting entangled, and the garbage can be dehydrated by a dehydrator. Since water can be removed, it is possible to shorten the drying processing time by eliminating the need to add a water-adjusting agent, and save labor and save energy.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a dry food waste processing apparatus according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of a container of the dry food waste processing apparatus of this embodiment.

3 is a sectional view taken along line III-III in FIG.

FIG. 4 is a schematic diagram showing a mounting structure of a tornado fin of the present embodiment.

FIG. 5 is a schematic view of a conventional dry food waste disposal device.

FIG. 6 is a schematic view showing a mounting structure of a tornado fin applied to a conventional dry food waste disposal device.

[Explanation of symbols]

 11 Crushing device 12 Dehydrating device 13 Storage tank 14 Processing device main body 15 Ejector vacuum generating device 16 Discharging device 17 Treated material storage tank 41 Container 44,50 Steam pipe 45,52 Electric heating plate 49 Inner cylinder partition wall 53 Rotating cylinder 58 Rotating shaft 62 Electric motor 69,71 Bracket 70 First tornado fin 72 Second tornado fin 73,74 Baffle 75 Opening A Inner chamber B Outer chamber

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display location F26B 25/04

Claims (9)

[Claims] 1. A heating unit is provided on an inner wall surface of a container having a cylindrical shape and an upper opening of which is openable / closable by a lid, and a heating shaft rotatably supported in the container is connected to the heating unit via a bracket. A spiral-shaped tornado fin is attached in close proximity, and a dry type raw material that is heated and dried by contacting with the heating portion of the inner wall surface of the container by the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container In the waste treatment device, a cylindrical inner cylinder partition wall is rotatably provided in the container, a heating unit is provided on an inner wall surface of the inner cylinder partition wall, and an inner chamber and an outer chamber are formed inside the container. A dry-type food waste treatment device characterized in that 2. The dry food waste processing apparatus according to claim 1, wherein a spiral first tornado fin is provided via a bracket on the rotary shaft located in the inner chamber of the container, while the outer chamber of the container is provided. A second tornado fin having a spiral shape is provided on the outer peripheral surface of the inner cylinder partitioning wall via a bracket, and the spiral directions of the first tornado fin and the second tornado fin are opposite to each other. Dry type garbage processing device. 3. The dry food waste processing apparatus according to claim 1, wherein a spiral first tornado fin is provided through a bracket on the rotary shaft located in the inner chamber of the container, while the outer chamber of the container is provided. A dry second characterized in that a spiral second tornado fin is provided on the outer peripheral surface of the inner cylinder partition wall located at the position of the first tornado fin and the second tornado fin in opposite directions. Type garbage processing equipment. 4. The dry food waste treatment device according to claim 2 or 3, wherein a baffle for pushing down the food waste is provided above the first tornado fin or the second tornado fin in the upper part of the container. A dry food waste processing apparatus, characterized in that an opening for communicating food waste with the inner chamber and the outer chamber is provided in a lower portion of the inner cylinder partition wall. 5. The dry food waste processing apparatus according to claim 4, wherein the rotation speeds of the first tornado fins and the second tornado fins are different. 6. The dry food waste processing apparatus according to claim 1, wherein the heating section is formed by spirally providing a heating pipe in which a heating fluid flows inside the inner cylinder partition wall. Dry type garbage processing device. 7. A heating unit is provided on an inner wall surface of a container having a cylindrical shape and an upper opening of which is openable / closable by a lid, and a heating shaft rotatably supported in the container is connected to the heating unit via a bracket. A spiral-shaped tornado fin is attached in close proximity, and a dry type raw material that is heated and dried by contacting with the heating portion of the inner wall surface of the container by the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container In the waste processing apparatus, the outer peripheral end side of the tornado fins is inclined downward, the dry-type food waste processing apparatus. 8. A heating unit is provided on an inner wall surface of a container having a cylindrical shape and an upper opening of which is openable and closable by a lid, and a heating shaft rotatably supported in the container is connected to the heating unit via a bracket. A spiral-shaped tornado fin is attached in close proximity, and a dry type raw material that is heated and dried by contacting with the heating portion of the inner wall surface of the container by the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container The dry food waste disposal device, wherein the waste disposal device is provided with a vacuum generator for creating a vacuum inside the container. 9. A heating unit is provided on an inner wall surface of a container having a cylindrical shape and an upper opening of which is openable and closable by a lid, and a heating shaft rotatably supported in the container is connected to the heating unit via a bracket. A spiral-shaped tornado fin is attached in close proximity, and a dry type raw material that is heated and dried by contacting with the heating portion of the inner wall surface of the container by the centrifugal force of the tornado fin that rotates the food waste introduced from the upper opening of the container In the waste treatment device, a crushing device for crushing the food waste to be put into the container is provided, and a dehydrating device for removing moisture of the food waste crushed by the crushing device is provided. apparatus.