KR100910879B1 - Waste melting treatment apparatus using division molten metal - Google Patents

Abstract

A waste fusion treatment device with the division molten metal to collect and recycle the molten metal is provided to prevent the mobility degradation of the molten metal by the precipitate of the molten metal. A waste fusion treatment device with the division molten metal to collect and recycle the molten metal comprises a combustion chamber(10), a feeding part(20), a flue gas outlet(30), a dam(40), a pyrolysis bed, a molten metal(60), a molten metal tapping part(70), and a melting slag tapping part(80). The feeding part is formed at one side of the combustion chamber in order to induce the melted object. The flue gas outlet is installed at the one side of the chamber in order to eject the gas generated in the melted object melting. The dam is installed on the bottom of the combustion chamber and partitions off the combustion chamber. The pyrolysis bed is installed at the inside combustor with the predetermined height. The molten metal is formed between the bed and the dam. The melted object fused with a heating member is located in the molten metal.

Description

WASTE MELTING TREATMENT APPARATUS USING DIVISION MOLTEN METAL}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste melting apparatus for melting and treating waste, wherein the molten metal can be separated and discharged during the melting process.

In the conventional waste melt treatment apparatus, as shown in FIG. 1 (A is a plan view and B is a front view), a supply apparatus 100 for introducing waste to be melted and a combustion chamber 101 into which the supply apparatus 100 is introduced And the inside of the combustion chamber 101 is divided into a dam 105 to melt the waste 102 and the molten slag hot water outlet 103 through which the molten slag melted from the molten metal 102 is discharged, and the combustion chamber 101. ) Is composed of a combustion gas outlet 104 for discharging the gas generated during melting.

In the conventional waste melt treatment apparatus as described above, a separate operation is performed in the molten slag discharged from the molten slag hot water outlet, so that valuable metals contained in the molten slag can be recycled (for example, Au (gold)). , Ag (silver)) and the like have been used.

However, since the above method is used only as a function of the device that is only responsible for melting, it is not possible to process molten metal that melts waste and precipitates in the molten metal, and to separate valuable metals from the discharged molten slag. Since the equipment and manpower of the company must be mobilized, there is a disadvantage that the working time and human and material consumption are increased.

The present invention has been made to solve the above problems, an object of the present invention is to separate the valuable metal and the like separately from the molten slag discharged after melting the waste in the conventional melt treatment apparatus. When the waste is melted, the slag is discharged from one end, and the molten metal precipitated in the molten metal is collected at the bottom of the molten metal so as to be collected in a molten metal tapping part provided separately, and when the waste is introduced into the combustion chamber equipped with the molten metal, In order to make the most of the heat of the combustibles in the waste until it flows into the combustion chamber, a separate section of molten metal is installed in the combustion chamber in which the pyrolysis bed is inclined toward the ground at a predetermined angle between the waste supply device and the molten metal. To provide a waste melt treatment apparatus having a.

Other objects and advantages of the invention will be described below and will be appreciated by the embodiments of the invention. Furthermore, the objects and advantages of the present invention can be realized by means and combinations indicated in the claims.

The present invention provides a means for solving the above problems, comprising: a waste melting apparatus, comprising: a combustion chamber; A supply device formed on one surface of the combustion chamber to introduce a molten object; A combustion gas outlet formed on one surface of the combustion chamber for discharging the gas generated when the object to be melted is melted; A dam installed at a bottom of the combustion chamber at a predetermined height to partition the combustion chamber; A pyrolysis bed installed at a predetermined height on one side of the combustion chamber; A molten metal formed between the pyrolysis bed and the dam, wherein the molten object melted by the heating means is located; A molten metal tapping part which is dug to a predetermined depth on one side of the bottom surface of the molten metal and separately partitioned from the molten metal; And a molten slag tapping unit formed on the opposite side of the molten metal with the dam interposed therebetween.

In addition, the pyrolysis bed is installed in one side of the combustion chamber in which the supply device is formed, and the upper surface is inclined at a predetermined angle toward the bottom of the combustion chamber, so that the molten object flowing into the supply device can flow into the molten metal. In addition, the molten object is thermally decomposed while passing through the pyrolysis bed before being melted in the molten metal, so that the amount of heat contained in the combustibles in the molten object can be maximized.

In addition, the molten metal tapping portion is formed to be relatively lower than the bottom of the molten metal so that the precipitate of the metal melt generated in the molten metal is accumulated, the flowability of the molten metal is lowered due to the flow of molten metal in the molten metal, the refractory material of the molten metal is eroded It is characterized in that to prevent being.

In addition, the molten metal tapping portion is formed on one side of the molten metal tapping portion, it is characterized in that it can tap the stacked molten metal.

In addition, the molten metal tapping unit is further provided with a metal detection sensor for detecting the accumulation of metal, the plurality of metal detection sensors are installed on the inner circumferential surface of the molten metal tapping unit with a different height from each other, accumulated in the molten metal tapping unit After confirming the amount of the molten metal is characterized in that the tapping possible.

In addition, the waste melt treatment apparatus having a separate compartment molten metal according to the present invention in the molten slag tapping port formed on one side of the molten slag tapping unit, the molten slag flowing through the outlet formed in the dam after melting in the molten metal By tapping the molten metal in the molten metal tapping unit, the molten slag and the molten metal can be separated and discharged from the molten object.

As described above, in the present invention, in the apparatus for melting and treating waste, the molten metal precipitated when the waste is melted can be collected and recycled, thereby melting metals such as valuable metals contained in the waste. There is an effect that it does not need to separate separately from the later slag.

In addition, the present invention by melting the waste to separate and discharge the molten metal separately, to prevent the fluidity of the molten metal due to the precipitation of the molten metal, and to prevent the refractory erosion caused by the flow of the molten metal to increase the efficiency of the melting furnace and the life of the refractory material There is a prolongable effect.

In addition, the present invention by passing the bed for pyrolysis inclined toward the ground at a predetermined angle until the flammables in the waste that is introduced into the molten melt into the molten metal, by the high temperature inside the combustion chamber to pyrolyze the flammables in the waste, By using the amount of heat of the flammables in the waste to the maximum, the waste is decomposed and then introduced into the molten metal to make melting easier.

Before describing the various embodiments of the present invention in detail, it will be appreciated that the application is not limited to the details of construction and arrangement of components described in the following detailed description or shown in the drawings. The invention can be implemented and carried out in other embodiments and can be carried out in various ways. In addition, device or element orientation (e.g., "front", "back", "up", "down", "top", "bottom" The expressions and predicates used herein with respect to terms such as "," left "," right "," lateral ", etc. are used merely to simplify the description of the present invention, It will be appreciated that the element does not simply indicate or mean that it should have a particular direction.

The present invention has the following features to achieve the above object.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

Hereinafter, referring to FIGS. 1 to 2, a waste melt treatment apparatus including a melt of a separate compartment according to a preferred embodiment of the present invention will be described in detail.

As shown, in the waste melt treatment apparatus having a separate compartment molten metal according to the present invention, in the apparatus for melting and treating waste, the melt treatment apparatus for separately collecting and discharging the molten metal when the waste is melted Combustion chamber 10, supply device 20, combustion gas outlet 30, dam 40, thermal decomposition bed 50, molten metal 60, molten metal tapping 70, molten slag tapping unit ( 80), the metal detection sensor 90.

2 is a view of a melt processing apparatus according to the present invention, (A) is a plan view, (B) is a front view, and the present invention will be described in detail with reference to FIG.

The combustion chamber 10 is a space for melting the melted object (waste). After the melted object is introduced into the combustion chamber 10, the inside of the combustion chamber 10 becomes a high temperature, thereby melting the melted object. Ensure that all sides are sealed.
The inside of the combustion chamber is a high temperature state by the heating means to melt the molten object, the molten object is located in the molten metal 60 to be described later. The heating means may be a device capable of melting the object to be melted, such as a burner.

The supply device 20 is formed on one surface of the combustion chamber 10 and is an inlet for introducing a molten object from the outside of the combustion chamber 10 to the inside.

The combustion gas outlet 30 is for discharging the gas generated when the molten object is melted in the combustion chamber 10, and is formed on one surface of the combustion chamber 10.

The dam 40 is installed at a bottom of the combustion chamber 10 with a predetermined height. As shown in FIG. 2, the dam 40 is provided with the molten metal 60 at the bottom of the combustion chamber 10. And, the molten slag tapping portion 80 serves to partition into two parts are provided.

Of course, it will be obvious that the outlet 41 is further provided on the dam 40 so that the molten slag melted in the molten metal 60 can move to the molten slag tapping unit 80.

The molten metal 60 refers to one side of the combustion chamber 10 partitioned by the dam 40 as described above, and the molten metal 60, as shown in FIG. Is formed between the 40, so that the molten object introduced from the supply device 20 can be introduced into the molten metal 60 to be melted.

As described above, the molten slag tapping unit 80 refers to a part opposite to the molten metal 60 based on the dam 40 inside the combustion chamber 10, and the molten object melted in the molten metal 60 is a dam. Filled in the molten slag tapping unit 80 through the outlet 41 of the 40, and then tapping the molten slag from the molten slag tapping outlet 81 formed on one side of the molten slag tapping unit 80 (出 湯)

The molten metal tapping part 70 is formed on the bottom surface of the molten metal 60 described above, and as shown in FIG. 2B, the molten metal tapping part 70 refers to a space dug into a predetermined depth on one side of the bottom surface of the molten metal 60. . That is, to form a separate compartment lower than the bottom of the molten metal 60, when the molten object flowing into the molten metal 60 from the thermal decomposition bed 50 to be described later, the molten metal is the molten metal tapping part In order to be precipitated and collected at 70, the molten metal precipitated from the molten metal tapping unit 70 can be separately discharged, and at the same time, when the molten metal tapping unit 70 as in the present invention is not present. The molten metal in the molten object melted in the molten metal 60 is precipitated in the molten metal 60 to reduce the fluidity of the molten metal 60 or prevent the refractory erosion of the inner circumferential surface of the molten metal 60 while the molten metal flows. I could do it.

Of course, one side of the molten metal tapping part 70 should be formed so that the molten metal tapping hole 71 is formed, it is possible to tap the molten metal to the outside.

The pyrolysis bed 50 is a flammable material that is contained in the molten object, that is, a fire that does not flow directly into the molten object introduced into the combustion chamber 10 from the supply apparatus 20. In order to make maximum use of the amount of heat possessed by the dehydrated material, it is possible to pyrolyze the molten object at a high temperature in the combustion chamber 10, and is formed between the molten metal 60 and the supply device 20, and the supply From the apparatus 20 to the molten metal 60 inside the combustion chamber 10, the molten object introduced from the supply apparatus 20 is inclined at a predetermined angle toward the molten metal 60, thereby allowing the molten object to flow into the combustion chamber. (10) to slide the upper surface of the thermal decomposition bed 50 inside to flow into the molten metal (60).

That is, the molten object can be melted more easily after entering the molten metal 60 due to the pyrolysis of the molten object by the high temperature combustion chamber 10 while passing through the pyrolysis bed 50.

In other words, the molten object is introduced into the combustion chamber 10 through the supply device 20, and then immediately flows through the upper surface of the pyrolysis bed 50 to the molten metal to thermally decompose the combustibles therein. The molten metal precipitates due to the molten metal flowing into the molten metal 60 and formed on the bed 50 for pyrolysis, in which the molten metal tapping part 70 dug to one side of the bottom surface of the molten metal 60 is formed. 40 is not flowed to the side will be precipitated in the molten metal tapping part 70 at the same time as melting.

The metal detection sensor 90 is formed on the inner circumferential surface of the molten metal tapping part 70, and the molten metal tapping part 70 is provided so that a plurality of them are installed at the molten metal tapping part 70 with different installation heights from each other. When the metal detection sensor 90 detects the molten metal precipitated in the and the amount of metal precipitated by the detected position of the corresponding metal detection sensor 90 to allow the user to know, if the user is filled as desired Naturally, tapping is possible, and the apparatus and equipment electrically connected to the metal detection sensor 90 and displayed on the outside may be variously applied by the practitioner.

As mentioned above, although this invention was demonstrated by the limited embodiment and drawing, this invention is not limited by this, The person of ordinary skill in the art to which this invention belongs, Various modifications and changes may be made without departing from the scope of the appended claims.

1 is a view showing a conventional waste melt treatment apparatus.

Figure 2 shows a waste melt treatment apparatus according to the present invention.

<Indication of symbols for main parts of drawing>

10: combustion chamber 20: feeder

30: combustion gas outlet 40: dam

41: outlet 50: bed for pyrolysis

60: molten metal 70: molten metal tapping part

71: molten metal tapping hole 80: molten slag tapping unit

81: molten slag outlet 90: metal detection sensor

Claims (6)

In the waste treatment apparatus of waste, A combustion chamber 10; A supply device 20 formed on one surface of the combustion chamber 10 to introduce a molten object; A combustion gas outlet 30 formed on one surface of the combustion chamber 10 to discharge a gas generated when melting a melting object; A dam 40 installed at a bottom of the combustion chamber 10 at a predetermined height to partition the combustion chamber 10; A pyrolysis bed (50) installed at a predetermined height inside one side of the combustion chamber (10); A molten metal (60) formed between the pyrolysis bed (50) and the dam (40), in which a molten object melted by a heating means is located; A molten metal tapping part 70 which is dug to a predetermined depth on one side of the bottom surface of the molten metal 60 and separately partitioned from the molten metal 60; And a molten slag tapping part 80 formed on the opposite side of the molten metal 60 with the dam 40 interposed therebetween. The pyrolysis bed 50 is installed inside one side of the combustion chamber 10 in which the supply device 20 is formed, and the upper surface is inclined at a predetermined angle toward the bottom surface of the combustion chamber 10, thereby providing the supply device 20. In order to allow the molten object to flow into the melt 60, the molten object is thermally decomposed through the pyrolysis bed 50 before being melted into the molten material 60 and dissolved therein, so that the combustibles inside the molten object are decomposed. Waste melt treatment apparatus provided with a molten metal of a separate compartment characterized in that to make the most of the calories you have. The method of claim 1, The molten metal tapping part 70 is formed to be relatively lower than the bottom of the molten metal 60 so that deposits of the molten metal generated in the molten metal 60 accumulate, and the molten metal flows due to the molten metal flow in the molten metal 60. The waste melt treatment apparatus provided with the molten metal of the separate compartment which prevents the fluidity | liquidity of (60) to fall and the refractory material of the molten metal is eroded. The method of claim 1, A molten metal tapping hole 71 is formed at one side of the molten metal tapping part 70 so as to tap the stacked molten metal so that the molten metal tapping part of the waste melt processing apparatus having a separate compartment. The method of claim 1, The molten metal tapping unit 70 is further provided with a metal detection sensor 90 for detecting the accumulation of metal, the metal detection sensor 90 is a plurality of different heights on the inner circumferential surface of the molten metal tapping unit 70 Dogs are installed, the waste melt processing apparatus having a separate compartment molten metal, characterized in that after the amount of molten metal accumulated in the molten metal tapping unit 70 is allowed to tap. The method of claim 1, Waste melt treatment apparatus provided with the molten metal of the separate compartment, In the molten slag tapping hole 81 formed on one side of the molten slag tapping part 80, tapping the molten slag flowing through the outlet 41 formed in the dam 40 after melting in the molten metal 60, In the molten metal tapping unit 70 by tapping the molten metal, Waste melt treatment apparatus having a separate compartment molten metal, characterized in that the separation of molten slag and molten metal from the molten object. delete

Images