• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The furnace system using the combustible waste incineration apparatus according to the present invention is to dissolve and heat metal, non-metal or synthetic resin by the heat of the high temperature combustion gas flowing out from the incinerator (1), the incinerator (1) and the heat exchanger (3) One or more furnaces connected in series, in parallel or in series and parallel with the main gas volume regulator 11 installed on the combustion gas passage 4 between the branch gas passages 11 and the branch passage 12 branched from the main gas volume regulator 11. (13, 13a, 13aa, 13b, 13bb, 13n, 13nn), and the waste gas heat exchanger 14 heats another heating line 2a by the heat of the combustion gas output from the final furnace 13nn in the furnace. And a plurality of auxiliary gas regulators 11a, 11b, 11aa and 11bb which are installed at the inlet side of each furnace and are heated to the first furnace 13a which is heated by the hot combustion gas from the incinerator 1. Metal that melts below 1400 ℃ Is melted, and in turn, the metal or synthetic resin having a low melting point is put into furnaces 13b and 13n to be melted or heated. Therefore, the present invention includes furnaces such as furnaces, melting furnaces, sintering furnaces, etc., which melt metals, nonmetals or synthetic resins having a low melting point using combustion gases output from the incinerator, thereby maximizing the use of the combustion gases and the combustion gases. Increasing the efficiency of the system can reduce the resources easily.
    公开号:KR20020076889A
    申请号:KR1020010017089
    申请日:2001-03-31
    公开日:2002-10-11
    发明作者:김상곤
    申请人:김상곤;
    IPC主号:
    专利说明:

    FURNACE SYSTEM USED IN FIRE FROM INCINERATOR}
    [9] The present invention relates to a furnace system using a combustion gas output from a combustible waste incinerator, and more particularly, by using a combustion gas output from an incinerator, melting and heating a metal, non-metal or synthetic resin having a low melting point to easily reduce resources. It relates to a furnace system using a combustible waste incineration system that can be used.
    [10] In general, since there are a lot of combustible materials in household waste or industrial waste, the combustible waste is often used as a local heating system.
    [11] Thus, as shown in FIG. 2, the incinerator 101 which incinerates combustible waste to generate a high temperature combustion gas, and heats the heating line 102 by using the high temperature combustion gas generated in the incinerator 101. And a dry or wet dust collector 104 for separating dust and the like suspended in the combustion gas via the heat exchanger 103, and converting the combustion gas through the dust collector 104 to the outside air. Will be discharged.
    [12] The conventional flammable waste incineration device is thus made to increase the temperature of the water flowing in the heating line 102, and supply the heating line 102 to the apartments of the area to be used as heating or hot water, according to the home or industry By recycling waste from the site, resources are easily recycled.
    [13] However, since it is conventionally used to heat water by using hot combustion gas generated in an incinerator, the amount of heat required to heat the water is very small, resulting in a large amount of heat loss of the hot combustion gas. The disadvantage is that the utilization is very weak.
    [14] The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to burn by using a system for melting and heating a low melting point metal, non-metal or synthetic resin using the combustion gas output from the incinerator It is to provide a furnace system using a combustible waste incineration apparatus that can easily reduce resources by increasing the efficiency of gas.
    [15] In order to realize this, the present invention is an incinerator for generating a high-temperature combustion gas by incineration of flammable waste, a heat exchanger for heating a heating line by using a high-temperature combustion gas generated in the incinerator, a combustion gas via the heat exchanger. A flammable waste incineration device comprising a dust collector for separating floating dust and the like, which is installed on a combustion gas passage between an incinerator and a heat exchanger, and adjusts the amount of combustion gas to separate and distribute the combustion gas into a branch passage, Combustible waste incineration device consisting of a waste gas heat exchanger for heating the heating line with the heat of the combustion gas output from the last furnace in the furnace, the furnace is heated by the heat of the combustion gas supplied from the branch passage connected to the main gas volume regulator. Provide the used no system.
    [1] 1 is a block diagram showing a furnace system using a flammable waste incineration apparatus according to the present invention,
    [2] 2 is a configuration diagram showing another example of a furnace system using a flammable waste incineration apparatus according to the present invention;
    [3] 3 is a block diagram showing a heating system using a combustible waste incinerator according to the related art.
    [4] <Explanation of symbols for the main parts of the drawings>
    [5] 1: incinerator 4: combustion gas passage
    [6] 11: main gas volume regulator 11a, 11b, 11ab, 11bb: auxiliary gas volume regulator
    [7] 12: branch passage 13,13a, 13ab, 13b, 13bb, 13n, 13nn: no
    [8] 14: waste gas heat exchanger
    [16] Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.
    [17] 1 is a view showing a furnace system using a flammable waste incinerator according to the present invention, wherein the furnace system dissolves metals, nonmetals or synthetic resins melted below 1400 ° C. by using heat of a high temperature combustion gas discharged from the incinerator. To heat.
    [18] The incineration apparatus incinerates combustible waste in the incinerator 1 to generate a high temperature combustion gas, and heat exchanger 3 for heating a heating line 2 for supplying hot water or steam supplied to a home or an industrial site. Receives a high temperature combustion gas generated in the incinerator (1) to heat the heating line (2), the combustion gas passing through the heat exchanger (3) is dust or the like separated from the dry or wet dust collector (4) Made of structure.
    [19] The furnace system according to the present invention dissolves the metal or the synthetic resin by the heat of the high temperature combustion gas flowing out from the incinerator 1, and the combustion gas passage 5 between the incinerator 1 and the heat exchanger 3. A plurality of furnaces 13a, 13b, 13n and waste gas heat exchanger 14 connected in series with the main gas amount regulator 11 installed in the upper portion, the branch passage 12 branched from the main gas amount regulator 11; In the furnace, another heating line 2a is heated by the heat of the combustion gas output from the final furnace 13n.
    [20] Here, the main gas volume regulator 11 is installed on the combustion gas passage 5 between the incinerator 1 and the heat exchanger 2, and adjusts the amount of the combustion gas flowing out of the incinerator 1 to branch passages ( 12, and the furnace 13a, 13b, 13n is heated by the heat of the combustion gas of the branch passage 12.
    [21] The furnace (13a, 13b, 13n) is a melting furnace, heating furnace, sintering furnace, etc. can be used in combination, for example composed of a plurality of interconnected in series, branch passage connected to the main gas volume regulator 11 The combustion gas supplied from (12) is heated in turn.
    [22] That is, the combustion gas first heats the furnace 13a, then heats the furnace 13b, and finally heats the furnace 13n.
    [23] The waste gas heat exchanger 14 heats the heating line 2a with the heat of the combustion gas output from the last furnace 13n in the furnace, and the combustion gas passing through the waste gas heat exchanger 14 is a known dust collector ( 4) It is introduced into the dust and dust is separated.
    [24] The furnace system using the combustible waste incineration apparatus according to the present invention thus formed acts as follows.
    [25] The furnace 13a contains metal dissolved at about 1400 ° C., the metal 13 having a lower melting point is embedded in the furnace 13b, and the synthetic resin is built in the furnace 13n to adjust the main gas regulator 11 to incinerator. (1) The amount of combustion gas flowing out is adjusted.
    [26] Then, the high temperature combustion gas heats the furnace 13a, heats the furnace 13b in the state which the temperature of the combustion gas passing through the furnace 13a fell, and the furnace 13n in the state where the temperature of the combustion gas further fell. Will be heated.
    [27] Therefore, the metal or the synthetic resin embedded in each furnace 13a, 13b, 13n can be melt | dissolved easily.
    [28] When the combustion gas is heated in the last furnace 13n, the temperature decreases a lot. Accordingly, the temperature of the combustion gas passing through the heat exchanger 14 is very far away, and the heat exchanger 14 The heating line 2a passing through another path is heated again.
    [29] Thus, the furnace system using the combustible waste incineration apparatus according to the present invention can easily improve the utilization of the hot combustion gas.
    [30] Meanwhile, the present invention can interconnect a plurality of furnaces in one of series, parallel, series-parallel and organic complexes, and as shown in FIG. 2, a plurality of furnaces (13, 13a, 13aa, 13b, 13bb, 13n). 13nn) can be used in combination of serial and parallel.
    [31] In addition, it is apparent that the present invention can organically connect a plurality of furnaces 13, 13a, 13aa, 13b, 13bb, 13n, and 13nn as shown by the chain line of FIG.
    [32] In another example of the present invention, a plurality of auxiliary gas amount regulators 11a, 11b, 11aa, and 11bb controlling the flow direction of the combustion gas while adjusting the amount of combustion gas introduced into each furnace are provided with the furnaces 13, 13a, 13aa, 13b, 13bb, 13n, and 13nn), respectively.
    [33] Then, as described above, a large number of furnaces 13, 13a, 13aa, 13b, 13bb, 13n, and 13nn can be efficiently managed and the heat of the combustion gas can be utilized to the maximum.
    [34] On the other hand, it is apparent that the waste gas heat exchanger 14 used in the present invention can be deleted, and the combustion gas passing through the final furnace 13n can be returned to the known heat exchanger 3.
    [35] Thus, the present invention can easily dissolve the metal or synthetic resin to be melted at a low temperature by using the combustion gas of the incinerator, so that the resources can be easily recycled.
    [36] Thus, the furnace system using the combustible waste incinerator according to the present invention can dissolve and heat metal, nonmetal or synthetic resin having a low melting point separately using the combustion gas output from the incinerator, thereby efficiently utilizing the heat of the combustion gas. There is an advantage that it can easily reduce the resources by increasing.
    [37] In addition, since the combustible waste is incinerated at a high temperature in the incinerator, the toxic gas itself can be completely burned, thereby reducing the harmfulness of the harmful gas that is discharged to the outside and reducing environmental pollution.
    权利要求:
    Claims (2)
    [1" claim-type="Currently amended] Incinerator which burns flammable waste to generate hot combustion gas, Heat exchanger for heating heating line using hot combustion gas generated in the incinerator, Dust collector for separating dust floating in combustion gas through the heat exchanger In the combustible waste incineration device consisting of,
    A main gas volume regulator installed on the combustion gas passage between the incinerator and the heat exchanger and adjusting the amount of the combustion gas to separate and distribute the combustion gas into the branch passage,
    One or more furnaces heated by the heat of the combustion gas supplied from a branch passage connected to the main gas volume regulator,
    A furnace system using a combustible waste incinerator comprising a waste gas heat exchanger that heats a heating line with heat of combustion gas output from the final furnace in the furnace.
    [2" claim-type="Currently amended] The method of claim 1,
    The plurality of furnaces are interconnected in one of a series, parallel and series-parallel complex, and a plurality of auxiliary gas volume regulator for controlling the flow direction of the combustion gas while adjusting the amount of the combustion gas flowing into each furnace at the inlet side of the furnace Furnace system using a combustible waste incinerator comprising each installed.
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    同族专利:
    公开号 | 公开日
    KR100428202B1|2004-04-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2001-03-31|Application filed by 김상곤
    2001-03-31|Priority to KR20010017089A
    2002-10-11|Publication of KR20020076889A
    2004-04-27|Application granted
    2004-04-27|Publication of KR100428202B1
    优先权:
    申请号 | 申请日 | 专利标题
    KR20010017089A|KR100428202B1|2001-03-31|2001-03-31|Furnace system used in fire from incinerator|
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