JPS6128415A - Filtering dust collector - Google Patents

Abstract

PURPOSE:To obtain a long life filtering dust collector capable of being used at high temp. of 400 deg.C or more, by integrating a high temp. dust collection filter material and a high temp. strength filter material while supporting the post- stream side by a retainer. CONSTITUTION:A high temp. dust collection layer (fabric) 1 based on a ceramic or carbon fiber and a high temp. strength layer (fabric) 2 based on a stainless fiber are integrated by the mixed fiber weaving or lamination of both of them and a support (retainer) 3 reinforcing both layers from the aspect of strength is further arranged in the post-stream side of thus formed composite filter. The composite filter is largely expanded by the passing pressure of dust-containing gas but, at this time, the deformation thereof can be suppressed to a small degree by providing the retainer 3. At the time of the shaking-down of dust, clean gas is blown to the filter from a reverse direction and dust is shaken down in such a state that the filter is separated from the retainer 3.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、バグフィルタなどの高温用ｒ過集じん装置に
おいて、４００℃以上の高温、かつ長寿命とする技術分
野で利用される。DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is utilized in the technical field of high-temperature over-dust collection devices such as bag filters that operate at high temperatures of 400° C. or higher and have a long life.

本発明は、バグフィルタなどの沢過集じん装置（以下、
単に集じん装置と呼ぶ）のＦ材を複合化して集じん性能
とｒ材強度をそれぞれのｒ材に分担させることによって
高温と強度の向上を一挙同時に解決した従来類例のない
集じん装置である。The present invention is a waste collection device such as a bag filter (hereinafter referred to as
This is an unprecedented dust collector that simultaneously solves the problem of high temperature and strength by combining the F materials of the dust collector (simply referred to as dust collectors) and sharing the dust collection performance and R material strength with each R material. .

バグフィルタなどによく用いられるｒ材はガラス繊維の
織布が単層（一枚）で、最高使用温度は２００〜２５０
℃以下であった。また、低温でも集じん時及び払落し時
の膨張収縮やねじり屈曲などによっである程度の強度低
下は避けられず、フィルタの耐久上問題であった。R material, which is often used for bag filters, is a single layer (one piece) of woven glass fiber fabric, and the maximum operating temperature is 200 to 250.
It was below ℃. Furthermore, even at low temperatures, a certain degree of strength reduction due to expansion/contraction and twisting/bending during dust collection and dust removal is unavoidable, which poses a problem in terms of the durability of the filter.

発明が解決しようとする問題点 本発明は、以上述べたような集じん装置において、セラ
ミック繊維またはカーボン繊維をペースにして高温集じ
ん層とし、ステンレス繊維をペースにして、高温強度層
とし、また、この層は若し上記高温集じん層が破損した
時は過渡釣果じん層にもなり、さらに、上記高温集じん
層及び高温強度層に対して更に強度的に補強する支持器
（リテーナ）を設けて４００℃以上の高温に使用でき、
かつ長寿命の濾過集じん装置を供することにある。Problems to be Solved by the Invention The present invention provides, in the above-mentioned dust collector, a high-temperature dust collection layer made of ceramic fiber or carbon fiber as a paste, a high-temperature strength layer made of stainless fiber as a paste, and If the high-temperature dust-collecting layer is damaged, this layer also becomes a transient fishing-results-results layer, and furthermore, a support (retainer) is provided to further strengthen the high-temperature dust-collecting layer and the high-temperature strength layer. It can be used at high temperatures of 400℃ or higher.
Another object of the present invention is to provide a filtration and dust collection device with a long life.

゛　問題点を解決するための手段 本発明は上述の問題を解決するために、次のような手段
を採っている。すなわち、 高温用集じんｆ材と高温強度Ｆ材とを混織して一体化す
るかもしくは高温用集じんｆ材を高温強度Ｆ材に担持し
て一体化して複合フィルタを形成せしめると共に、その
複合フィルタの後流側をリテーナにより支持せしめる。゛Means for solving the problems In order to solve the above-mentioned problems, the present invention takes the following measures. That is, a composite filter is formed by mixing and integrating a high-temperature dust-collecting material and a high-temperature strength material F, or by supporting and integrating a high-temperature dust-collecting material with a high-temperature strength material F. The downstream side of the composite filter is supported by a retainer.

作用 以上述べた手段によれば、したがって、高温に対しては
充分に耐えられ、集じん作用の役割りは果し、強度は充
分で耐久性を格段に増すものである。Effects According to the means described above, it can withstand high temperatures sufficiently, performs the role of dust collection, has sufficient strength, and greatly increases durability.

実施例 次に、第１図より第７図を参照して、本発明の実施例に
ついて詳述する。Embodiments Next, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 7.

第１図より第７図にお〜・て、符号ｌは耐熱性に優れた
セラミック繊維またはカーボン繊維の集じんに適するよ
う密に織製した織布、２は耐熱性のステンレス繊維で膨
張収縮、ねじれ屈曲に充分強く耐え、かつ、成る程度の
集じんも可能な様に織製した織布、３は耐熱性の金層な
とのかご又は網状のリテーナで、ｄはダス）、ｄ、は含
じんガス、Ｃｇはクリーンガスを示す。From Fig. 1 to Fig. 7, the symbol 1 is a densely woven fabric suitable for collecting dust from ceramic fibers or carbon fibers with excellent heat resistance, and 2 is a heat-resistant stainless steel fiber that expands and contracts. , woven cloth woven to withstand twisting and bending sufficiently and to be able to collect a certain amount of dust; 3 is a cage or mesh retainer made of a heat-resistant gold layer; d is das); d; indicates a dust-containing gas, and Cg indicates a clean gas.

織布１は含じんガスｄｇに関し、第１層目である。織布
１は集じん作用を掌り、織布２は主に織布１の強度メン
バとして織布１を補強し、若し織布１が破損した場合に
は過渡的に織布１の代りに成る程度の集じんも出来る。The woven fabric 1 is the first layer regarding the dust-containing gas dg. The woven fabric 1 performs the dust collection function, and the woven fabric 2 mainly serves as a strength member of the woven fabric 1 to reinforce the woven fabric 1. If the woven fabric 1 is damaged, it can temporarily replace the woven fabric 1. It can also collect enough dust.

リテーナ３については、先ず第２図の説明から入る。第
２図は集じんの状況を示す。Regarding the retainer 3, we will first begin by explaining it with reference to FIG. Figure 2 shows the situation of dust collection.

含じんガスｄｇの流通圧力によって織布ｌおよび織布２
は大きく膨満するが、この時、リテーナ３を設けること
によって図の如く、織布１および織布２の変形は小さく
止めることが出来る。リテーナ３はこのための支持具で
ある。Woven fabric 1 and woven fabric 2 are separated by the flow pressure of dust-containing gas dg.
However, by providing the retainer 3, the deformation of the woven fabric 1 and the woven fabric 2 can be kept small as shown in the figure. The retainer 3 is a support for this purpose.

第３図はダスト払落しの状況を示す。クリーンガスｃｇ
　（払落し用流体）を逆方向から吹き付けてダス）ｄを
払落す。この時織布１および織布２はリテーナ３から離
れる。したかつて、先ず織布１は織布２の表面にしつか
り結合して置かねばならない。織布１は強度的にはそれ
程強くならないからである。織布２は織布１を強度的に
支援するのが主な役目である。織布１が織布２に強度支
援を頼るために織布２の表面に結合する方法としては、
縫合、接着材による接着、その他の接合具などがある。Figure 3 shows the situation of dust removal. clean gas cg
(Fluid for removing) is sprayed from the opposite direction to remove the dust) d. At this time, the woven fabric 1 and the woven fabric 2 are separated from the retainer 3. First, the fabric 1 must be firmly bonded to the surface of the fabric 2. This is because the woven fabric 1 is not so strong in terms of strength. The main role of the woven fabric 2 is to strongly support the woven fabric 1. The method of bonding the fabric 1 to the surface of the fabric 2 in order to rely on the fabric 2 for strength support is as follows:
Examples include sutures, adhesive bonding, and other joining devices.

第３図に見る如く、払落しは織布ｌ及び織布２の自由な
変更によるものであるから、織布１及び織布２はリテー
ナ３と結合してはならない。As shown in FIG. 3, since the wiping is done by freely changing the woven fabric 1 and the woven fabric 2, the woven fabric 1 and the woven fabric 2 must not be combined with the retainer 3.

次に、第４図を説明する。Next, FIG. 4 will be explained.

符号１ａは織布１と同じ材質の繊維、２ａは織布２と同
じ材質の織布である。繊維１ａ及び織布２ａを混織し、
集じん作用及び強度の何れも具備する如く織製する。３
は第１図と同じ（リテーナである。Reference numeral 1a indicates a fiber made of the same material as the woven fabric 1, and 2a indicates a woven fabric made of the same material as the woven fabric 2. Mixing fiber 1a and woven fabric 2a,
Woven to provide both dust collection and strength. 3
is the same as in Fig. 1 (retainer).

更に第５図を説明する。Further, FIG. 5 will be explained.

１ｂは織布１と同じ材質（セラミック繊維またはカーボ
ン繊維）のフェルト状鈍した非織布、２ｂは織布２と同
じ材質（ステンレス繊維）の織布である。1b is a felt-like dull non-woven fabric made of the same material as woven fabric 1 (ceramic fiber or carbon fiber), and 2b is a woven fabric made of the same material as woven fabric 2 (stainless fiber).

非織布１ｂは織布２ｂの表面で植込みなどの方法により
集じん作用および強度の何れも具備するごとく緊密なフ
ェルト状表面を生成したものである。３は第１図と同じ
くリテーナである。The non-woven fabric 1b is a woven fabric 2b with a tight felt-like surface formed by implantation or other methods to provide both dust-collecting action and strength. 3 is a retainer as in FIG.

第６図及び第７図は上述の複合Ｆ材の形状及び含じんガ
スｄｇの流路を示すものである。6 and 7 show the shape of the above-mentioned composite F material and the flow path of the dust-containing gas dg.

第６ａ図で複合ｒ材の形状は筒形、第６ｂ図では封筒形
であり、形状はこれらに特定しない。また、含じんガス
ｄｇなどの流路は、第６ｃ図の左方は複合ｆ材の内側表
面で集じん中、右方は払落し中、第６ｄ図で左方は外側
表面で集じん中、右方は払落し中を示す。In FIG. 6a, the shape of the composite material is cylindrical, and in FIG. 6b, it is envelope-shaped, and the shape is not limited to these. In addition, the flow paths for dust-containing gas dg, etc. are shown on the left in Figure 6c, where dust is being collected on the inner surface of the composite F material, on the right where it is being removed, and on the left in Figure 6d where dust is being collected on the outer surface. , The right side indicates that it is being removed.

第７図は、複合沢材を移動形とする場合の一例である。FIG. 7 is an example of a case where the composite swamp material is of a movable type.

この場合も第１図のリテーナ３に和尚するリテーナは固
定形としてもよい。In this case as well, the retainer that is similar to the retainer 3 in FIG. 1 may be of a fixed type.

発明の効果 以上述べた構成によれば、高温ガスの濾過集じんの場合
、高温に対しては第１層及び第２層ともに充分耐え、集
じん作用に対しては第１層が充分役割を来し、強度、耐
久性に対しては第２層（および第３層）が充分役割りを
果すことが出来る。Effects of the Invention According to the configuration described above, in the case of filtration and dust collection of high-temperature gas, both the first layer and the second layer can withstand high temperatures sufficiently, and the first layer plays a sufficient role in dust collection. Therefore, the second layer (and third layer) can play a sufficient role in terms of strength and durability.

【図面の簡単な説明】[Brief explanation of drawings]

第１図は本発明集じん装置のＦ材の斜視図、第２図は集
じん状況を示す断面図、第３図はダスト払落しの状況を
示す断面図、第４図は集じん作用及び強度の何れも具備
する混織を示す斜視図、第５図はフェルト状表面を生成
した織布の斜視図、第６図及び第７図は複合沢材の形状
及び含しんガスの流路を示し、第６ａ図は筒形の例の斜
視図、第６ｂ図は封筒形の斜視図、第６ｃ図は内側表面
で集じん中、及び払落し中を示す略断面図、第６ｄ図は
外側表面で集じん中及び払落し中を示す略断面図、第７
図は複合Ｆ材を移動形とした例の斜視図である。 １．２，２ａ、２ｂ　−−織布、ｌａ・・繊維、１ｂ・
・非織布、３・・リテーナ（支持器）。 （ほか２名） 第１ｖ！！　　　　第２−ＭＪ 第４図　　　　第、３ 勲Fig. 1 is a perspective view of the F material of the dust collector of the present invention, Fig. 2 is a sectional view showing the dust collection situation, Fig. 3 is a sectional view showing the dust removal situation, and Fig. 4 is the dust collection action and Fig. 5 is a perspective view of a woven fabric with a felt-like surface, and Figs. 6 and 7 show the shape of the composite slat material and the flow path of the gas containing it. Fig. 6a is a perspective view of a cylindrical example, Fig. 6b is a perspective view of an envelope-shaped example, Fig. 6c is a schematic sectional view showing dust being collected and removed on the inner surface, and Fig. 6d is a perspective view of the outer surface. Schematic sectional view showing dust collection and dust removal on the surface, No. 7
The figure is a perspective view of an example of a movable composite F material. 1.2, 2a, 2b -- woven fabric, la... fiber, 1b...
・Non-woven fabric, 3. Retainer (support device). (2 others) 1st v! ! 2-MJ Figure 4, 3rd Order

Claims (1)

【特許請求の範囲】[Claims] 高温用集じんろ材と高温強度ろ材とを混織して一体化す
るか、もしくは高温用集じんろ材を高温強度ろ材に担持
して一体化して複合フイルタを形成せしめると共に、そ
の複合フイルタの後流側をリテーナにより支持せしめた
ろ過集じん装置。A high-temperature dust collection material and a high-temperature strength filter material are mixed together and integrated, or a high-temperature dust collection material is supported on a high-temperature strength filter material and integrated to form a composite filter, and the downstream part of the composite filter is A filtration and dust collection device whose sides are supported by a retainer.