JPH06699A - Solidifying device - Google Patents

Abstract

PURPOSE:To rapidly solidify a large amt. of powder and chips by constituting the device in such a manner that the powder and chips fed between a revolving cylinder provided with many holes and a rotating press cylinder, etc., is solidified and extruded from the inner side of the cylinder. CONSTITUTION:The cylinder 1 rotates toward an arrow 9 and the press roller 2 rotates toward an arrow 8 as well. A belt conveyor 3 is driven and the powder and chips 4 are sent into the spacing between the cylinder 1 and the press roller 2. The power and chips 4 are held by the cylinder 1 and the press roller 2 and are pushed under pressurization into the many holes 5 provided on the cylinder 1. The powder and chips 4 are successively pushed into the holes 5 provided on the cylinder 1 by the repetition of the above-mentioned operation until the powder and chips are gradually extruded as solids 7 from the holes 6 on the inner peripheral surface of the cylinder 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solidifying device for turning powder such as sawdust and chips into solids having an appropriate size.

[0002]

2. Description of the Related Art Sawdust and the remaining powder of ash, which burns coal, can only be treated as waste in this state. However, even if sawdust is made into a suitable size, it can be used as a fuel like firewood, and if ash or the like is solidified and solidified, it can be reused as a building material. If it can be used in this way, the amount of waste is reduced, and it becomes possible to provide inexpensive fuels and building materials, and the waste is transformed into useful ones.

Even when it cannot be converted into a useful material as described above, it is difficult to clean the powder as it is, and when the wind blows it rises into the atmosphere as dust, so it must be stored in a sealed state and transported. Even in the case, a similar problem occurs. If powder is pressed and solidified, the occupied volume will decrease,
The cost of storage and transportation will be reduced, and the problem of dust will not occur.

[0004]

Since a large amount of powders and chips as wastes are generated today, it is very difficult to dispose of them. A binder such as cement may be added and agitated to simply solidify such powders and chips, but this causes the volume to increase by the amount of cement added. It is necessary to apply a considerably high pressure in order to make the occupied volume of the resulting solid matter as small as possible. For this reason, a solidification device that applies pressure to powder or chips with a piston has already been provided on the market, but this method makes it difficult to dispose of a large amount of powder in a short time.
If this is made large in order to process a large amount of powder or the like in a short time, the solidifying device is inevitably expensive. Conventionally, an inexpensive solidification device for processing a large amount of powder in a short time has not been provided on the market.

[0005]

According to the present invention, in order to achieve the above object, a powder, a chip, or the like is provided with a large number of rotating trays or holes for taper or reverse taper. It is sent between the rotating cylinder and the rotating pressure roller, and the powder, chips, etc. are pressed into the hole provided in the cylinder and solidified inside the cylinder while applying pressure. A cylinder provided with a large number of rotating or tape or reverse taper holes that are extruded or powder or chips rotate, and a large number of convex portions having a shape corresponding to the holes of the cylinder. It is fed into a rotating pressure roller provided on the surface and the powder, chips, etc. are pushed through the holes provided in the cylinder and pressure is applied to the inside of the cylinder while solid is applied. It is crushed and extruded, or powder, chips, etc. Of the powder or chips, etc. are pressed against the surface of the cylinder by being fed into between the cylinder provided with the holes of the tray or the taper or the reverse taper and the rotating pressing roller. After that, a large number of convex portions having a shape corresponding to the holes of the cylinder are provided on the surface and rotate.
Thus, the powder, chips, and the like are pushed through the holes provided in the cylinder and solidified and pushed inside the cylinder while pressure is applied.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the embodiments shown in the drawings. FIG. 1 is a principle sectional view of a solidification apparatus showing an embodiment of the present invention. This solidifying device is provided with a cylinder 1 having a large number of holes 5 and a pressing roller-2 in contact with the circumferential surface of the cylinder 1. A belt conveyor 3 that conveys powder and chips 4 is mounted on the cylinder 1. The cylinder 1 is provided with a large number of holes 5 as shown in FIG. Here, the powder and the chip 4 include paper, resin such as vinyl and plastic.

The operation will be described below. The cylinder 1 rotates in the direction of arrow 9 as shown in FIG. 1, and the pressing roller also rotates in the direction of arrow 8. Here, the belt conveyor 3 is driven so that the powder and chips 4 and the cylinder 1 are pressed and rolled.
It is sent to La-2. Cylinder 1 and pressing roller-2
The powder and chips 4 sent in between are compressed by being sandwiched between the cylinder 1 and the pressing roller-2, and the cylinder 1 is used as an escape area.
It is pushed in while being pressed into the holes 5 provided in a large number.
By repeating this, the powder and chips 4 are pushed into the holes 5 provided in the cylinder 1 one after another, and gradually become solid 7 through the holes 6 on the inner peripheral surface of the cylinder 4.
The pressure roller-2 and the cylinder 1 apply pressure to the powder and the chip 4 at positions where the powder and the chip 4 are sandwiched, and the powder and the chip 4 have the holes 5 of the cylinder 1 as a taper. The pressure is applied to the inside of the cylinder 1 as it is pushed into the cylinder 1. Therefore, the pressing roller-2, the cylinder 1 and the powder and the chips 4 generate heat, and when the powder and the chips 4 are extruded from the hole 6 of the cylinder 1 to the inside of the cylinder 1, the powder and the chips 4 generate heat at a considerably high temperature. In this solidifying device, the powder and the chips 4 are compressed by both the pressure of the pressing roller-2 and the pressure due to the hole 5 provided in the cylinder 1 serving as a taper. The heat associated with the pressure adds to this. That is, this solidifying device solidifies the powder and chips 4 by pressure and heat. For this reason, if there is a substance that melts at a temperature in the powder or the substance that constitutes the chip 4, when it is extruded inside the cylinder 1, it becomes a completely solid substance 7. For example, when the powder or the chip 4 contains a resin such as plastic, it is melted and becomes a binder of the powder to be solidified. For example, if styrene foam is burned as it is, pain will occur because the incinerator will become hot, but if you mix sawdust or paper and solidify here, the temperature will not rise and it will burn, so you can use it as fuel. It will be possible. Further, powder such as sawdust or bran becomes a solid matter 7 by the action of compression and heat generation in this solidification device without adding a binder separately. For example, some substances such as very fine sand are not solidified by the action of compression and heat generation. For such a substance, if plastic or the like is added to this substance before it is treated with this apparatus, it can be melted and become a binder for sand to be solidified.

FIG. 3 shows another embodiment of the present invention. This solidification device is a pressure roller-1 having a large number of convex portions 11 provided on the surface thereof, instead of the pressure roller-2 shown in FIG.
At 0, pressure is applied to the powder and chips 4 on the cylinder 1 side. The convex portion 11 provided on the pressure roller 10 is slightly thinner than the diameter of the hole 5 provided in the cylinder 1. The pressure roller 10 rotates in the direction of the arrow 8 and the cylinder 1 also rotates in the direction of the arrow 9, during which powder and chips 4 are transferred to the belt conveyor 3.
Then, the pressure roller 10 applies pressure to the powder and chips 4 to the cylinder 1 side. The pressure roller 10 is provided with a projection 11 corresponding to the hole 5 of the cylinder 1, and the projection 11 is pushed into the hole 5 of the cylinder 1.

The powder and chips 4 may contain a strong paper-like substance. Such a substance may come into surface contact by simply applying a pressure to the cylinder 1 side, and may not be inserted into the hole 5 provided in the cylinder 1 in some cases. Even if the powder or the chip 4 is such a substance, if pressure is applied by the pressure roller 10 provided with the convex portion 11 as shown in FIG. The chip 4 is pushed into the hole 5. The subsequent operation is the same as that of the embodiment shown in FIG. 1, and the same effect can be obtained.

FIG. 4 shows an embodiment different from the embodiment shown in FIGS. 1 and 3. The powder and chips 4 are pressed against the cylinder 1 side by both the pressing roller-2 and the pressing roller-10 in this solidifying device. The powder and chips 4 are conveyed by the belt conveyor 3 and sent between the pressing roller-2 and the cylinder 1. By the action of the pressure roller-2,
The powder and chips 4 sent between the two are pressed against the surface of the cylinder 1, and a part of this is pressed into the hole 5 provided in the cylinder 1. The surface of the pressing roller-2 is flat and the cylinder 1
Since the surface of is provided with the holes 5, most of the powder and the chips 4 are pressed onto the surface of the cylinder 1. The powder or chips 4 pressed onto the surface of the cylinder 1 are then pressed by the pressure roller 11
By this, pressure is further applied to the cylinder 1 side. This pressure roll
As shown in FIG. 4, a large number of protrusions 11 are provided on the surface of the roller 11, and the powder and chips 4 are pushed into the holes 5 provided in the cylinder 1 by the action of the protrusions 11. .
The subsequent operation is the same as that of the solidification device shown in FIG. 3, and the same effect can be obtained.

In the embodiment described above, the hole 5 provided in the cylinder 1 is formed in a taper shape, but it may be a hole 5 of the straight as shown in FIG. A reverse taper as shown in 6 may be used. Hole 5 provided in cylinder 1
In the case of using a straight line, since the pressure is not so much applied, a solid material 7 which is not strong in strength is formed. Further, as shown in FIG. 6, when the hole 5 provided in the cylinder 1 is a reverse taper, the solid matter 7 produced is soft. Which is adopted depends on the use of the solid material 7 to be produced. For example, when using sawdust as fuel, a reverse taper should be adopted because it will be difficult to burn when excessive pressure is applied. Further, if the produced solid matter 7 is simply used as a waste, the hole 5 provided in the cylinder 1 has a tape in order to make the occupied volume as small as possible.
Should be a partner.

The advantage of this solidification device is that the structure is simple and there is no complicated mechanism. In some cases, it may not be known what kind of substance is contained in the powder or the substance forming the chip 4. If such powder or chips 4 are to be solidified by a complicated device, a failure is apt to occur. If it is as simple as this solidifying device and is mechanically robust, there is no risk of failure. In addition, this solidifying device applies pressure to the powder and chips 4 to the pressure roller-2 and the pressure roller.
The strength of the solid matter 7 to be produced can be easily changed by adjusting with a la-10, or the size of the solid matter 7 can be changed by changing the diameter of the hole provided in the cylinder 1. It is also an excellent point of this solidification apparatus that it can be freely changed, such as by making it possible. When compressed with an object such as a piston, it becomes a pulse and the processing amount is limited, but since this solidification device can process continuously, it is a solidification device that processes about 5 to 10 tons per hour. Can be easily provided, and even a device of about 100 tons per hour can be realized by enlarging this device.

[0013]

According to the present invention, by constructing as described above, it is possible to provide at low cost an apparatus for solidifying a large amount of powder or chips in a short time with few failures.

[0014]

[Brief description of drawings]

Figure 1 Figure showing a solidification device with a press roller and a cylinder with holes Figure 2 Figure showing a cylinder with a hole Figure 3 Press roller with holes and a hole FIG. 4 is a view showing a solidification device using a cylinder provided with a pressure roller, FIG. 4 is a view showing a solidification device provided with a press roller, a pressure roller provided with a convex portion, and a cylinder provided with a hole. Cross-sectional view when the holes provided in the cylinder are straightened. Fig. 6 Cross-section view when the holes provided in the cylinder are reverse taper.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Cylinder provided with a hole 2 Pressing roller 3 Belt conveyor 4 Powder and chips 5 Holes provided in a cylinder 7 Solidified material 10 Pressurized roller 11 Convex part

Claims (3)

[Claims] 1. A powder, a chip, or the like is provided between a rotating cylinder and a rotating cylinder, which has a large number of rotating trays or holes for taper or reverse taper. A solidification device in which the powder, the chips, and the like are fed and pushed into a hole provided in the cylinder to be solidified and pushed out inside the cylinder while pressure is applied. 2. A powder, a chip, or the like is provided with a cylinder having a large number of rotating traces or holes for taper or reverse taper, and a convex portion having a shape corresponding to the holes of the cylinder. The powder and chips are fed into a rotating pressure roller provided on a number of surfaces, and the powder, chips, etc. are pushed through the holes provided in the cylinder and pressure is applied to the inside of the cylinder. A solidification device characterized by being solidified and extruded. 3. A powder, a chip, or the like is provided between a rotating cylinder and a rotating roll, or a cylinder provided with a plurality of rotating or taper or reverse taper holes. After the powder is fed and the powder, chips, etc. are pressed against the surface of the cylinder, a plurality of convex portions having a shape corresponding to the holes of the cylinder are provided on the surface of the cylinder to rotate the powder. A solidification device, wherein chips, chips, etc. are pushed through holes provided in the cylinder and solidified and pushed out inside the cylinder while pressure is applied.