KR102469947B1 - the dryer of the combustible waste - Google Patents

Abstract

The present invention relates to a dryer for combustible waste and, more preferably, a dryer for combustible waste, which can supply hot air and a heat source to the inside of a drying furnace through various paths when transporting waste with high moisture content, such as construction waste, sludge, and combustible waste (vinyl or the like) selected from various wastes, to the inside of the drying furnace, to remove moisture and foreign substances present on the inside or the surface of aggregates, can produce high-quality soil while maintaining uniform quality, can use separated and discharged combustible wastes as a heat source and recyclables, and can incinerate unnecessary waste. The dryer for combustible waste comprises: a feed conveyor belt (20) for transporting waste with various water content, such as construction waste or sludge; and a drying furnace (30) installed on a frame (10) to dry waste fed to a hopper (31) through the feed conveyor belt (20) and discharge the same to a discharge port (32). The drying furnace (30) includes: a rotating shaft (60) for receiving power from a motor (40), and having a transfer screw (61) mounted at the center of the inside of a body (50) to rotate; a plurality of heat wires (60) mounted on a lower side of the center of the body (50) at intervals in a semicircular shape to supply a heat source; and a heating blower (80) for supplying hot air to the center of the inside of and an upper side of the body (50) and the inside of the hopper (31).

Description

Dryer of combustible waste {the dryer of the combustible waste}

The present invention relates to a drying apparatus for combustible waste, and more preferably, when conveying waste with a high moisture content, such as construction waste, sludge, and combustible waste (vinyl, etc.) selected from various wastes, to the inside of a drying furnace, through various routes. Hot air and a heat source are supplied to the inside of the drying furnace to remove moisture and foreign substances present inside or on the surface of the aggregate, and to select and produce high-quality soil while maintaining uniform quality. It relates to a combustible waste drying device that can be used for recycling and unnecessary waste can be dried and incinerated.

In general, wastes generated during construction work are called construction wastes, and these construction wastes are generated from new construction or reconstruction work of apartments or buildings. In the case of reconstruction work, a large amount of waste is generated when the building is dismantled due to deterioration of function or structural strength of the existing building and social factors, which are known to be relatively less harmful than other industrial wastes. It has the characteristics of large volume and weight.

Therefore, the treatment method of construction waste is to set up a separate landfill and incinerate some of them, or the lack of landfills in the limited land space on the earth and the seriousness of environmental pollution due to landfill and incineration occur, and in addition, other wastes and Unlike, awareness of recycling is very low, and the risk of harmful substances or intrinsic environmental pollution is relatively low, so loading and illegal dumping at construction sites are frequently occurring, and even environmental issues regarding disposal are emerging.

In addition, domestic construction waste, such as waste corn, waste ascon, waste wood, rebar, and soil, as well as waste that cannot be separated due to working conditions at redevelopment sites, such as construction waste, waste vinyl, and household waste The production volume reaches 40 million tons per year. In order to recycle these wastes, it is necessary to go through waste sorting as a pretreatment beforehand, but since the sorting of wastes is not so easy, more than 90% of the wastes are piled up. It is only used for landfill, but the reality is that recycling performance in areas with high added value is very poor.

As a method for solving the above problems, many technologies for treating and recycling construction waste have been disclosed.

Among them, the combustible foreign matter sorting and separation process through the conventional intermediate treatment of construction waste is as follows.

Treatment process before inputting into construction waste intermediate treatment facilities; In the process of supplying construction waste to construction waste intermediate treatment facilities, good quality raw materials such as waste concrete are separated and stacked to minimize the mixing of inorganic or organic foreign substances.

Intermediate treatment process by construction waste intermediate treatment facility; For construction waste, soil is sorted by a device such as a scalpin before the first crushing, a soil screen is placed after the first crushing, or the soil is sorted by mixing the two, and then the second to fourth crushing processes are performed. And flammable foreign substances are removed through flammable foreign substance removal facilities such as blowers and water tanks in stages 1 to 4, and metals exposed by crushing are removed by magnetic separators.

However, the combustible waste foreign matter removal device in the existing construction waste could not remove those mixed with soil and sand, and the combustible waste sorted by various sorting devices could also be removed from the soil due to reasons such as rain or watering to prevent scattering dust. Due to increased adhesiveness, a large amount of soil is attached to combustible waste and sorted out, resulting in a decrease in efficiency during incineration. There was a problem that a lot of damage to the combustion power and equipment was caused by this.

Thus, a conventional waste drying apparatus for solving the above problems is disclosed in Korean Patent Publication No. 10-2001-0078900 (published on August 22, 2001).

The drying apparatus disclosed in the Publication includes a drying furnace provided with an inlet for waste at the front end and rotatably supported by a base, rotary blades and transfer blades respectively provided in the outer and inner cylinders of the drying furnace, and a burner device for supplying heat. and a radiant heat device installed in the center of the inner cylinder to transfer heat supplied from the burner device and apply radiant heat downward, and a discharge screw installed below the outer cylinder to discharge the object to be dried to the outside.

Another drying method is a conduction heat drying method in which moving waste is brought into contact with a heated surface to dry it. In this method, as the waste is dried, it forms lumps and sticks to the inner surface, narrowing the conveying passage and making the operation difficult. There was a problem that caused the malfunction.

In addition, Korean Patent Registration No. 10-0887622 is the structure of a waste dryer that is currently most commonly used. After putting waste into the interior, compressing it to remove moisture first, and then applying heat to a heating rod to remove moisture contained in the waste. It is a method of removing the waste secondarily, blowing and drying the removed waste with a blower fan, and discharging and transporting the waste blown away by the wind generated by the blower to the floor.

The above dryer is a method of compressing, heating, and crushing, and this type of waste remover does not completely remove the moisture content of the waste, and the odor generated from the processing of the waste that cannot be transported in an airtight state leaks out and pollutes the environment. In addition, it is of course that the waste of energy used for the drying process of waste is severe, which intensifies environmental pollution.

As another waste drying device, a combustible waste drying and pyrolysis molding device for obtaining solid fuel has many problems as a screw, which is a transport means, is usually installed inside one casing to transport the combustible waste.

That is, if the amount of waste introduced into the hopper is not constant or the input time is not regular, voids are formed in the raw material tissue inside the extrusion cylinder, and when these voids are repeatedly accumulated, the extrusion force is weakened due to tissue expansion of the waste. In addition, during discharge, the structure of the solid fuel is not uniform due to the explosive discharge of raw materials, and also, stress repeatedly acts on the extrusion device, causing deformation and bending of the screw, and in severe cases, the inside of the casing There is a problem in that the screw is damaged due to contact with the wing of the screw and the casing and the entire screw must be replaced.

Therefore, the conventional combustible waste drying and pyrolysis molding apparatus has the inconvenience of having to carefully control the amount of fuel input, and if careless, the durability of the machine is reduced and extensive replacement of parts is performed, resulting in high maintenance costs.

In addition, conventionally, looking at another type of combustible waste drying and pyrolysis molding apparatus, a plurality of screws have been introduced, but since this molding apparatus has one screw built into one casing member, it is possible to increase the amount of waste However, since the above problems still exist inside each casing member, the problem has not been fundamentally solved.

Therefore, the need to develop a device for using the above problems is emerging.

Republic of Korea Patent Publication No. 10-2001-0078900 Republic of Korea Patent No. 10-2008-0076627 Republic of Korea Patent No. 10-0683891 Republic of Korea Patent Publication No. 10-2003-0064131

The present invention was made in view of these problems, and an object of the present invention is to maximize the contact area of waste with heat and lengthen the contact time with heat by injecting heat sources and hot air into the drying furnace through various paths, thereby increasing drying efficiency. On the other hand, it is to minimize dust generation during drying.

That is, in the present invention, a heat source is supplied through a plurality of hot wires at the lower center of the drying furnace, hot air is sprayed at the center of the drying furnace to mix and raise wastes, and both sides of the upper part of the drying furnace are evenly supplied with hot air to the raised wastes to increase drying efficiency. was made to increase

Another object of the present invention is to spray hot air through a spray nozzle sprayed from a rotating shaft rotating in the center of a drying furnace to suspend wastes transferred to a transfer screw so that drying can be performed uniformly.

An object of the present invention is to quickly and efficiently dry waste with a high moisture content using a small amount of fuel because hot air is distributed and supplied to various paths using one heating blower.

In addition, since the present invention transfers the waste by the transfer screw, an object of the present invention is to enable drying while cutting the foreign matter with the transfer screw.

The configuration of the present invention having the above object will be described in detail based on the accompanying drawings.

As shown in Figure 1, the input conveyor belt 20 for transporting waste with various moisture content, such as construction waste or sludge;

A drying furnace 30 installed on the frame 10 to dry the waste input to the hopper 31 through the input conveyor belt 20 and discharge it to the discharge port 32; configured to include,

The drying furnace 30,

The rotational shaft 60 that receives the power of the motor 40 and rotates the transfer screw 61 at the inner center of the main body 50.

A plurality of heat wires 60 mounted at intervals in a semicircular shape so as to supply a heat source from the lower center of the main body 50, and

It is characterized in that it is configured to include a heating blower 80 for supplying hot air to the inner center and upper side of the main body 50 and the inside of the hopper 31.

In addition, the present invention is an external hot air pipe 100 connecting a distribution pipe 90 for supplying and distributing hot air generated in the heating follower 80 to the main body 50 of the drying furnace 30,

A central hot air pipe 110 connected to the external hot air pipe 100 and supplying hot air to the inside of the rotating shaft 60;

It is configured to include upper hot air pipes 120 and 130 for supplying hot air from both sides of the upper part to the inside of the main body 50,

Central spray nozzles 111 are formed on the rotating shaft 60 to inject hot air into the main body 50 by mounting a plurality in a zigzag pattern at intervals in all directions,

It is characterized in that upper blowing nozzles 121 and 131 are formed in the upper hot air pipes 120 and 130 at intervals to spray hot air into the body 50.

In addition, the present invention is characterized in that the hot air storage chamber 140 for storing the hot air supplied from the heating blower 80 is configured in the external hot air pipe 100.

In addition, the present invention is connected to the distribution pipe 90, and the input hot air pipe ( 150).

In addition, the present invention is configured to include a soil sorting device 160 on the discharge conveyor belt 32 side for sorting soil mixed with waste discharged from the drying furnace 30 and transported to the discharge conveyor belt 32. to be characterized

According to the present invention having the above characteristics, since the hot air supplied while rotating on the rotating shaft flows to the waste passing through the drying furnace to float the waste, the width of the temperature drop inside the drying chamber due to the ambient air around the drying furnace is reduced and the heat The loss can be reduced, and through this, the drying efficiency of the waste in the drying furnace can be increased.

In addition, according to the present invention, the heat source generated in the lower center of the main body, the hot air supplied by mixing and floating the waste while the rotating shaft rotates, and the hot air supplied from both sides of the upper body (ie, the lower side, the central portion, the upper portion of the main body) side), so the contact time with heat is long, so there is an effect of shortening the drying time.

In addition, according to the present invention, since the hot air supplied from the heating blower is supplied to the interior of the drying furnace through various paths through the distributor, there is also an effect of saving a heat source for drying waste.

In addition, according to the present invention, there is also an effect of recycling resources by sorting soil and combustible waste mixed with waste discharged after being dried through a drying furnace.

1 is a right side perspective view showing a drying apparatus of the present invention.
Figure 2 is a cross-sectional perspective view showing the inside of the drying apparatus of the present invention.
Figure 3 is an internal cross-sectional view showing the drying side of the drying apparatus of the present invention.
Figure 4 is a perspective view showing a hot wire and a hot air pipe inside the drying furnace of the drying apparatus of the present invention.
Figure 5 is a cross-sectional view showing the inside of the drying apparatus of the present invention drying.
Figure 6 is a cross-sectional view showing a state in which hot air is sprayed from the rotating shaft inside the drying furnace of the drying apparatus of the present invention.
Figure 7 is a cross-sectional perspective view showing a state in which hot air is sprayed from the top of the hopper of the drying apparatus of the present invention and soil sorting.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention which follows refers to the accompanying drawings which illustrate, by way of example, specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable one skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention with respect to one embodiment. Also, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all equivalents as claimed by those claims. Like reference numbers in the drawings indicate the same or similar function throughout the various aspects.

Figure 1 is a view showing the drying treatment process of various wastes with water content such as construction waste. As shown in Figure 1, the biggest feature of construction waste is that the waste is not buried, but dried in a drying furnace to sort the soil. Of course, it is possible to separate combustible waste and recycle resources.

Referring to the main configuration according to the drying apparatus of the present invention as described above with reference to Figure 1 is as follows.

Looking at the main configuration of the drying apparatus according to the present invention, the input conveyor belt 20 for transporting construction waste, the drying furnace 30 for introducing and drying the waste transferred from the input conveyor belt 20, and the drying furnace A rotary shaft 60 equipped with a transfer screw 61 for drying and transporting wastes introduced into the inside of the furnace 30, and a heating wire for supplying a heat source to dry wastes with high moisture content introduced into the drying furnace 30 70 and the central hot air pipe 110 and the upper hot air pipes 120 and 130 for spraying the hot air generated by the heating blower 80, dried in the drying furnace 30 and discharged along the discharge conveyor belt 21 It is made including a soil sorting device 160 for sorting soil from waste to be.

The detailed configuration and operation of the drying apparatus of the present invention composed of the main configuration as described above will be described through the drawings as follows.

As shown in FIGS. 1 to 3 , construction wastes or wastes with high moisture content transported from construction sites and landfills are primarily transported through the input conveyor belt 20 .

At this time, the input conveyor belt 20 is located on the upper part of the hopper 31 at the entrance of the main body 50, and waste is introduced into the main body 50 through the hopper 31.

At the same time, the heating blower 80 and the motor 40 are operated at the same time, and the heating blower 40 supplies hot air to the hopper 31 side and the inside of the main body 50, and the motor 40 transfers the screw ( 61) moves the rotary shaft 60 mounted on the outer surface.

As shown in Figure 7, when the waste transported on the input conveyor belt 20 is put through the inlet hopper 31 of the main body 50 seated and fixed on the frame 10, the upper side of the hopper 31 In the input injection nozzle 151 coupled to the end side of the input hot air pipe 150, the hot air is sprayed to dry the input waste.

The injection injection nozzle 151 coupled to the end side of the input hot air pipe 150 is formed with a plurality of through holes to spray hot air in one direction through the through holes, or the nozzle is formed in a flat rectangular shape so that the hot air blows in a fan-shaped direction It can be configured for spraying.

The input hot air pipe 150 is connected to the distribution pipe 90 of the external hot air pipe 100 coupled with the heating blower 80, and hot air is supplied from the upper inside of the hopper 31 through the input hot air spray nozzle 151. It is a configuration that allows to inject.

In this way, the waste introduced into the main body 50 through the hopper 31 in contact with the hot air injected through the injection nozzle 151 of the primary input hot air pipe 150 transmits the power of the motor 40. It is configured to be dried while being transferred forward by the rotation of the transfer screw 61 mounted on the outer surface of the rotation shaft 60 that receives and drives.

As shown in FIGS. 4 to 6, when the transfer screw 61 is rotated by the rotation of the rotation shaft 60 and the waste introduced into the main body 50 is transferred forward, the drying furnace 30 The heat source supplied from the heating wire 70 mounted in a semicircular shape at intervals on the central lower part of the main body 50 so that the waste can be completely dried inside the main body 50 is delivered to the inside of the main body 50 to dry the transported waste. make up

In addition, as shown in FIGS. 4 and 5, upper hot air pipes 120 and 130 connected through the distribution pipe 90 of the heating blower 80 are mounted inside both sides of the upper side of the main body 50, , The upper hot air spray nozzles 121 and 131 are coupled to the end side of the upper hot air pipes 120 and 130 so that the hot air is sprayed from the upper side of the main body 30. At this time, the upper hot air spray nozzles 121 and 131 are configured to spray hot air in one direction. In addition, the upper hot air pipes 120 and 130 to which the upper hot air spray nozzles 121 and 131 are connected are mounted on the outer surface of the main body 50.

In addition, the inside of the rotary shaft 60 that rotates by receiving the power of the motor 40 is connected to the central hot air pipe 110 to supply hot air supplied from the heating blower 80. In addition, the central hot air pipe 110 is coupled to the distribution pipe 90 and connected to supply hot air to the inside of the rotating shaft 60.

In addition, the hot air supplied to the inside of the rotating shaft 60 is configured so that the hot air is supplied to the center of the main body 50 through central spray nozzles 111 mounted in a zigzag shape at intervals in all directions on the rotating shaft 60 . At this time, as described above, the central injection nozzle 111 may be injected in one direction, and the injection nozzle is formed in a flat rectangular shape and installed at different angles so that hot air can be injected in all directions. Therefore, the central spray nozzle 111 is also rotated by the rotation of the rotating shaft 60, and the hot air is sprayed in all directions from the center of the main body 50.

In this way, the waste transported from the inside of the body 50 to the discharge port 32 is dried with a heat source radiated from the hot wire 70 at the bottom, and sprayed from the central spray nozzle 111 mounted on the rotating shaft 60 at the center. The waste is mixed and floated three times only inside the drying furnace 30 to dry the waste with hot air sprayed from the upper part injection nozzles 121 and 131 connected to the upper hot air pipes 120 and 130 on the upper side. It is made to dry. Therefore, since the present invention supplies hot air supplied from the heating blower 80 to the inside of the drying furnace 30 through the distributor 90 through various paths, it is possible to save a heat source for drying waste.

As described above, in the present invention, the waste is transferred to the discharge port 32 side by the transfer screw 61 mounted on the outer surface of the rotary shaft 60 that rotates by receiving the power of the motor 40, and at the same time the main body 50 When the waste is dried by the heat source supplied from the hot wire 70 mounted on the lower part and dried by the hot air sprayed through the central spray nozzle 111 of the central rotating shaft, the rotating shaft 60 rotates. While the central spray nozzle 111 rotates, the waste is mixed and floated, and hot air is uniformly applied to the entire waste to dry it, and sprayed through the upper spray nozzles 121 and 131 of the upper hot air pipes 120 and 130 mounted on the upper part Since the hot air is configured to dry the waste by evenly applying the hot air to the waste floating by the central spray nozzle 111, the drying time of the waste can be shortened because the contact time between the heat source and the hot air is long.

In addition, a hot air storage chamber 140 capable of storing hot air supplied from the heating blower 80 is installed at the center of the external hot air pipe 100 connected to the heating blower 80 so that the hot air is uniformly connected to the distribution pipe 90. It is configured to be supplied to the central hot air pipe 110, the upper hot air pipes 120 and 130, and the input hot air pipe 150.

In addition, by the rotation of the transfer screw 61 mounted on the outer surface of the rotating shaft 60, the long waste mixed with the waste is cut and transferred to the front to be dried.

As described above, the wastes dried in the drying furnace 30 and discharged to the discharge port 32 are transported along the discharge conveyor belt 21 and configured to sort the soil through the soil sorting device 160, as shown in FIG. do.

The soil sorting device 160 is configured to sort soil by size by means of a vibrating screen, and sorts soil using an already disclosed soil sorting device.

In addition, the sand and combustible waste mixed with the soil discharged from the drying furnace 30 are blown forward by blowing air to separate the soil and combustible waste, and the combustible waste is transported forward, and the soil with a heavy specific gravity is It is configured to fall to the bottom by gravity and be transported to the soil sorting device 160.

Therefore, the sorted combustible waste can be recycled or used for industrial purposes by producing oil and gas through an emulsification device.

In the above, the present invention has been described based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope described in the claims. Those skilled in the art to which the present invention belongs is obvious, and such modifications or alterations will fall within the scope of the appended claims.

10. Frame 20. Input conveyor belt
21. Discharge conveyor belt 30. Drying furnace
31. Hopper 32. Outlet
40. Motor 50. Body
60. Rotational axis 61. Transfer screw
62. Central injection nozzle 70. Heat wire
80. Heating blower 90. Distribution pipe
100. External hot air pipe 110. Central hot air pipe
111. Central injection nozzle 120, 130. Upper hot air pipe
21, 131. Upper injection nozzle 140. Hot air storage room
150. Input hot air pipe 151. Input injection nozzle
160. Soil separator

Claims (5)

An input conveyor belt 20 for transporting waste with various water content such as construction waste or sludge;
A drying furnace 30 installed on the frame 10 to dry the waste input to the hopper 31 through the input conveyor belt 20 and discharge it to the discharge port 32; configured to include,
The drying furnace 30,
The rotational shaft 60 that receives the power of the motor 40 and rotates the transfer screw 61 at the inner center of the main body 50.
A plurality of heat wires 70 mounted at intervals in a semicircular shape so as to supply a heat source from the lower center of the main body 50, and
Including a heating blower 80 for supplying hot air to the inner center and upper side of the main body 50 and the inside of the hopper 31,
An external hot air pipe 100 connecting a distribution pipe 90 for supplying and distributing hot air generated in the heating follower 80 to the main body 50 of the drying furnace 30,
A central hot air pipe 110 connected to the external hot air pipe 100 and supplying hot air to the inside of the rotating shaft 60;
It is configured to include upper hot air pipes 120 and 130 for supplying hot air from both sides of the upper part to the inside of the main body 50,
Central spray nozzles 111 are formed on the rotating shaft 60 to inject hot air into the main body 50 by mounting a plurality in a zigzag pattern at intervals in all directions,
Upper blowing nozzles 121 and 131 are formed in the upper hot air pipes 120 and 130 at intervals to spray hot air into the body 50,
Including an input hot air pipe 150 having a plurality of input jet nozzles 151 connected to the distribution pipe 90 and having a plurality of input jet nozzles 151 formed on the end side for spraying hot air to waste flowing into the body on the input conveyor belt 20 Combustible waste drying apparatus, characterized in that the configuration. delete According to claim 1,
Drying apparatus for combustible waste, characterized in that the hot air storage chamber 140 for storing the hot air supplied from the heating blower 80 is configured in the external hot air pipe 100. delete According to claim 1,
Combustible waste, characterized in that the soil sorting device 160 for sorting the soil mixed with the waste discharged from the drying furnace 30 and transferred to the discharge conveyor belt 32 is included on the discharge conveyor belt 32 side. drying device.

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