KR101208482B1 - Apparatus for recycling waste concrete sludge - Google Patents

Abstract

The present invention relates to an apparatus for the treatment and recycling of waste concrete sludge.
The apparatus of the present invention, the dehydration means for removing water by dewatering the sludge of high water content; A dry space forming body having a sludge inlet through which dehydrated sludge is input and forming a drying space in which the injected sludge is moved; A conveyor installed in the drying space so that sludge introduced into the sludge inlet is settled and moved; Heating means for applying heat to the drying space; A blowing fan positioned at an upper portion of the conveyor and blowing toward the sludge placed in the conveyor; A sludge crusher which is placed on the conveyor and dried sludge is input, and crushes the injected sludge; A sorter comprising a mesh network for filtering only dry sludge of a predetermined size from sludge ground by a sludge crusher; It is configured to include; storage tank for storing the sorted dry sludge while passing through the mesh network of the sorter.
The apparatus of the present invention can use the high water content sludge generated during the treatment of waste concrete as an inorganic binder or a filling material for construction, has a very low treatment cost, and is characterized by rapid treatment.

Description

Equipment for the treatment and recycling of waste concrete sludge {APPARATUS FOR RECYCLING WASTE CONCRETE SLUDGE}

The present invention relates to an apparatus for treating sludge of high water content generated when producing aggregate in a wet construction waste intermediate treatment facility that is capable of obtaining aggregate from construction waste.

Various technologies have been devised for the treatment and recycling of construction waste.

As a specific example, there is a device that can separate and reuse aggregate such as gravel included in construction waste.

A device that is designed to separate aggregate from construction waste is one kind of construction waste intermediate treatment facility.

There are problems such as significant dust and noise in the construction waste treatment process through the construction waste intermediate treatment facility.In order to minimize the problem of dust and noise, it is treated by wet rather than dry treatment (treatment by spraying water). Treatment under conditions with water).

In the process of producing aggregates from construction waste through wet construction waste intermediate treatment facilities, sludge of high water content is inevitably generated. If such sludge is prevented, there is a problem of causing environmental pollution.

However, there has been a problem that a considerable difficulty and a high cost in treating the high water content sludge as described above was very low reuse rate.

The present invention is to solve the above problems, and more specifically, the high-yield sludge generated during the treatment of the construction waste treatment to be used as an inorganic binder or filling material for construction, but a device capable of rapid treatment at a low cost The purpose is to provide.

In the present invention, a high water content sludge generated during the treatment of construction wastes is dehydrated, dried, and then crushed to be used as an inorganic binder or a filler for construction, thereby making it possible to reuse the high content sludge for treatment costs. This takes very little.

In addition, in the state in which the sludge is moved through the conveyor, the hot air is strongly moved in the sludge direction so that the drying speed is high and the treatment operation can be made quickly.

In addition, by using waste heat generated from various industrial machines such as incinerators, it is possible to dry the dehydrated high water content sludge so that the treatment cost is reduced.

The apparatus of the present invention has dewatering means for dewatering sludge of high water content to remove moisture.

In addition, it has a sludge inlet to which the dewatered sludge is introduced, and has a drying space forming body that forms a drying space to be dried while the introduced sludge is moved.

It also has a conveyor installed in the drying space so that the sludge injected into the sludge inlet is settled and moved.

In addition, it has a heat generating means for applying heat to the drying space.

Moreover, it has a blowing fan which is located in the upper part of a conveyor, and blows toward the sludge settled in the conveyor.

In addition, the sludge dried while being placed and moved to the conveyor, and has a sludge crusher for crushing the introduced sludge.

Further, it has a sorter comprising a mesh network for filtering only dry sludge of a predetermined size from the sludge crushed by the sludge crusher.

It also has a storage tank in which the sorted dry sludge is stored while passing through the mesh network of the sorter.

The device of the present invention is characterized in that the treatment cost is very low by dewatering the sludge having a high water content generated during the treatment of construction waste, applying heat to dry it, and then grinding it to use as an inorganic binder or filler for construction. .

In addition, the hot air is strongly moved in the sludge direction in a state in which the sludge is moved through the conveyor, the drying speed is fast, and the treatment operation is quickly performed.

In the present invention, when it is implemented to dry the high water content sludge dehydrated using waste heat generated in various industrial machines, such as incinerators, there is a feature that takes less processing cost.

1 is an overall schematic view of an apparatus for the treatment and recycling of waste concrete sludge of the present invention.
Figure 2 is a schematic cross-sectional view of the drying space for explaining that the heat exchange pipe is a component of the present invention is located on the side as well as the top of the drying space
Figure 3 is a schematic diagram showing a heat exchange pipe bent in a zigzag to explain that the heat exchange pipe, which is a component of the present invention is bent in a zigzag bent (flowing) inside the hot air or fluid stays in the drying space for a long time.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

The present invention relates to an apparatus for treating sludge of high water content generated during the treatment of construction waste.

However, the present invention has an object of making it possible to treat the high water content sludge can be reused at a low cost.

The inventors of the present application have devised a technology that can be used as a construction inorganic binder (bonding material to harden the concrete) or filler (alternative materials such as stone powder) by drying and grinding the sludge of high water content.

However, the method of simply drying by applying heat to the high water content sludge has a problem that takes a very long time and cost in the present invention to dehydrate the high water content sludge after drying.

Therefore, the apparatus of the present invention has dewatering means 10 for dewatering sludge with high water content.

In addition, it has a sludge inlet 22 to which the dewatered sludge is introduced, and has a drying space forming body 20 which forms a drying space 21 to be dried while the introduced sludge is moved.

In addition, it has a heat generating means 30 for applying heat to the drying space (21).

Moreover, it has the sludge grinder 40 which grinds the dried sludge.

The dewatering means 10 as described above may be implemented in a drum method, such as a washing machine, pressurized by a press, etc., water can be implemented in a dewatering method using a strainer used to filter out the strainer and the water out of the strainer. It can be implemented in the form applied to the field.

However, it is preferable to implement the dehydration method using a strainer due to the characteristics that sludge generated in the process of construction waste contains a large amount of very small particle size.

The sludge dehydrated by the strainer dehydration method becomes a lump form.

The sludge grinder 40, which is a component of the present invention, is intended to grind the dried sludge into a powder form, and thus the sludge grinder 40 may be embodied in various ways that are used in various industries. Omit.

The attached drawings are structures in which sludge dried between a plurality of shredding drums is entered and shredded.

However, since the present invention takes very little treatment cost and has the purpose of enabling rapid treatment, the dewatered sludge is in direct contact with strong hot air in the process of moving on the conveyor 50.

In other words, the hot hot air is continuously in contact with the sludge so that the sludge is dried quickly.

If the sludge is not dehydrated, it is difficult to dry by applying high temperature hot air, but dehydrated sludge does not have difficulty in drying by applying high temperature heat.

In particular, in the case of a lump form by the dehydration method using a strainer, there is no phenomenon that is scattered by hot products, even if a strong hot air is not a problem.

Therefore, the apparatus of the present invention has a conveyor 50 installed in the drying space 21 so that the sludge injected into the sludge inlet is settled and moved.

Moreover, it has the blowing fan 60 which is located in the upper part of the conveyor 50, and blows toward the sludge settled in the conveyor 50. As shown in FIG.

Conveyor 50 as described above is implemented in the form of a conveyor belt type 50 that can be placed in the object in the present invention, because the rapid drying of the sludge is very important belt (sludge is settled as a component of the conveyor 50) Is preferably implemented in a mesh form.

This is to smoothly flow the air flow on the surface of the sludge in contact with the sludge is to ensure that even the lower surface of the sludge in contact with the belt to dry smoothly.

Since the present invention has a conveyor 50 as described above, the sludge grinder 40 is formed to be crushed when the sludge is dried while being placed and moved to the conveyor 50.

In order to use high content sludge as an inorganic binder or filler for construction, it is necessary to separate and store the crushed sludge by size.

To this end, the apparatus of the present invention has a sorter 70 comprising a mesh net 71 for filtering only dry sludge of a predetermined size from the sludge crushed by the sludge crusher 40. (On the mesh net 71) It is desirable to apply the vibration to make the sorting work.)

Moreover, it has the storage tank 80 in which the dry sludge sorted while passing through the mesh net 71 of the sorter 70 is stored.

The sorter 70 as described above may be implemented in various forms known in the art.

The heating means 30, which is a component of the present invention, may be implemented in a known heater using method, generating a flame, applying heat, and having a heat exchange pipe 31 through which hot air or fluid passes.

However, in consideration of energy efficiency and fast and even drying of the sludge, it is preferable to implement the heat exchange pipe 31 positioned in the drying space 21 while passing through hot air or a fluid.

This method is more preferable because it is a structure that can reuse various waste heat.

Specifically, the heat generated from the incinerator for burning waste may be applied to the drying space 21. The heat of the incinerator passes through the heat exchange pipe 31 so that the heat of the incinerator is transferred to the drying space 21. It can be implemented to be added.

In the case of using the waste heat of the equipment used in various industries, such as incinerators, there is a significant energy saving effect.

The heat exchange pipe 31 as described above is preferably located in front of the tuyeres of the blower fan 60 so that the heat exchange pipe 31 can be quickly exchanged with the air in the drying space 21. The heat exchange pipe (31) is quickly passing through the heat exchange)

In addition, in consideration of even drying of the sludge, the heat exchange pipe 31 may be located at the side of the drying space 21 as shown in FIG. 2.

That is, the heat exchange pipe 31 is positioned before, after, and after the upper portion of the sludge that is settled on the conveyor 50.

The heat exchanging pipe 31 may be bent in a zigzag form in the drying space 21 as shown in FIG. 3 so that hot air or fluid staying in the drying space 21 for a long time.

In the present invention, the means for moving the crushed sludge to the storage tank 80 can be implemented in various ways, such as a conventional conveyor 50 or screw conveyor 50.

However, the sludge crushed to the extent that it can be used as an inorganic binder for construction has many problems in using a conventional belt conveyor or a screw conveyor because the size of the particles is very small.

Therefore, in the present invention, the sorting sludge moving means for generating wind in the direction of the storage tank (80) to pass through the mesh network 71 of the sorting machine (70) so that the sorted dry sludge is carried to the storage tank (80) by the wind ( 90) may be further provided.

Generating wind in the sorting sludge moving means 90 may be in the form of a blowing fan for generating a strong blowing force, but more preferably implemented in the form of a compressor for generating a high-pressure blower air.

10. Dehydration means 20. Dry space forming body
21. Drying space 22. Sludge inlet
30. Heating means 31. Heat exchange pipe
40. Sludge Grinding Machine 50. Conveyor
60. Blowing fan 70. Separator
71. Mesh net 80. Storage tank
90. Sorting sludge moving means

Claims (6)

In the device for treating high water content sludge generated in the construction waste treatment process,
Dehydration means (10) for removing water by dewatering sludge of high water content;
A dry space forming body (20) having a sludge inlet (22) into which dewatered sludge is introduced and forming a drying space (21) to be dried while the introduced sludge is moved;
A conveyor (50) installed in the drying space (21) so that the sludge introduced into the sludge inlet (22) is settled and moved;
Heating means (30) for applying heat to the drying space (21);
A blowing fan (60) positioned above the conveyor (50) to blow toward the sludge settled on the conveyor (50);
A sludge crusher 40 placed in the conveyor 50 so as to be put into dried sludge and crushing the introduced sludge;
A sorter (70) having a mesh net (71) for filtering only dry sludge of a predetermined size from the sludge crushed by the sludge crusher (40); And
And a storage tank (80) in which the sorted dry sludge is stored while passing through the mesh network (71) of the sorter (70). The apparatus for treatment and recycling of waste concrete sludge.
The method of claim 1,
The heat generating means 30 is configured to include a heat exchange pipe (31) located in the drying space (21) while passing through hot air or fluid, the apparatus for the treatment and recycling of waste concrete sludge .
The method of claim 2,
The heat exchange pipe (31) is characterized in that located in front of the tuyere of the blowing fan (60), apparatus for the treatment and recycling of waste concrete sludge.
The method of claim 3,
The heat exchange pipe (31) is also located on the side of the drying space 21, the apparatus for the treatment and recycling of waste concrete sludge.
The method according to any one of claims 1 to 4,
The heating means (30) is characterized in that the heat generated in the incinerator for incineration of the waste to the drying space 21, the apparatus for the treatment and recycling of waste concrete sludge.
The method according to any one of claims 1 to 4,
Sorting sludge moving means (90) to cause the wind in the direction of the storage tank 80 to pass through the mesh net 71 of the sorting machine 70, the sorted dry sludge is carried to the storage tank (80) by the wind; Further comprising, the apparatus for the treatment and recycling of waste concrete sludge.

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