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JP4789963B2 - Divider for pneumatic dewatering equipment - Google Patents
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JP4789963B2 - Divider for pneumatic dewatering equipment - Google Patents

Divider for pneumatic dewatering equipment Download PDF

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JP4789963B2
JP4789963B2 JP2008062618A JP2008062618A JP4789963B2 JP 4789963 B2 JP4789963 B2 JP 4789963B2 JP 2008062618 A JP2008062618 A JP 2008062618A JP 2008062618 A JP2008062618 A JP 2008062618A JP 4789963 B2 JP4789963 B2 JP 4789963B2
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partition
hole
recessed space
air
air guide
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JP2009214072A (en
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李志民
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陳柏輝
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Description

本発明は、流体容量可変式の機械に関し、特に、気圧式除水装置用仕切り組に関するものである。 The present invention relates to a fluid capacity variable machine, and more particularly to a partition set for a pneumatic dewatering device.

本発明は、気圧式除水装置を開発したが、この気圧式除水装置は、内部に多数のエア室を有し階段形状を呈する上昇案内管に高圧状態でのエアを通過させ、上昇案内管の階段形状を呈する内面により、流通しているエアが前記内面と衝突して流速が変化するので、エアに含まれる水分が上昇案内管内に凝結し、これにより、除水効果を達成することができ、そして上昇案内管の内面に設けられている階段が多いほど除水効果が良くなる。 The present inventor has been developed pneumatic dewatering device, the pneumatic dewatering device passes the air under high pressure to increase the guide tube exhibiting a stepped shape having a plurality of air chamber therein, increased Due to the inner surface of the guide tube having a staircase shape, the flowing air collides with the inner surface and the flow velocity changes, so that moisture contained in the air condenses in the rising guide tube, thereby achieving a water removal effect. The more the stairs are provided on the inner surface of the rising guide tube, the better the water removal effect.

しかしながら、ある場合には、ほぼ完全に乾燥されたエアが必要であるが、ある場合には、適当な湿度を有するエアが必要であるので、異なる寸法を有する上昇案内管を別々に作製することが必要になり、そうすると生産コストが増加する。 However, in some cases, almost completely dry air is required, but in some cases, air with the appropriate humidity is required, so separate lift guide tubes with different dimensions can be made. Will be required, which will increase production costs.

本発明の主な目的は、除水されたエアの湿度を低コストで変更可能な気圧式除水装置用仕切り組を提供することにある。 A main object of the present invention is to provide a partition set for a pneumatic dewatering device that can change the humidity of the dewatered air at low cost.

上記目的を達成するためになされた本発明の請求項1は、円筒体と、上カバーと、エア案内子を含む気圧式除水装置内に設置され、前記上カバーは、前記円筒体の一端に設置され、入り口通路と、出口通路を有し、前記二つの通路は、それぞれ外部及び前記円筒体と連通しており、前記エア案内子は貫通孔が開設されており、一端が前記上カバーに設けられ前記入り口通路と連通しており、かつ前記円筒体内に設置されている気圧式除水装置用仕切り組であって、前記仕切り組は、互いに脱着可能な複数の仕切り構造を重ねて構成され、前記各仕切り構造は、一端に凹み空間が設けられており、他端に凸部が設けられており、前記凸部は前記凹み空間に合せ可能な形状をしており、前記各仕切り構造には、前記凹み空間と前記凸部とを貫通した透孔が開設されており、そのうちの一つの前記仕切り構造は、前記凸部前記エア案内子の他端に合せて前記エア案内子に組み付けられており、こうして前記エア案内子に組み付けられている仕切り構造の前記透孔が前記エア案内子の前記貫通孔と連通しており、その他の前記仕切り構造は、前記凸部を隣接している仕切り構造の前記凹み空間に合せて取り付け、この取り付けを繰り返すことにより、複数の前記仕切り構造を互いに重ねて、こうして重ねられた仕切り構造は、それぞれの前記透孔隣接しているそれぞれの前記仕切り構造の前記凹み空間と連通しており、更に、エア案内子の他端にねじ穴が開設されており、前記ねじ穴に対応して前記各仕切り構造に別の貫通孔が開設されており、ネジを前記別の貫通孔に挿通して前記ねじ穴をねじ込むことにより、前記仕切り組を構成することを特徴とする、気圧式除水装置用仕切り組である。 Claim 1 of the present invention made to achieve the above object is provided in a pneumatic dewatering device including a cylindrical body, an upper cover, and an air guide , and the upper cover is one end of the cylindrical body. The two passages communicate with the outside and the cylindrical body, respectively, the air guide element has a through hole, and one end thereof is the upper cover. A partition set for a pneumatic dewatering device installed in the cylindrical body and connected to the entrance passage , wherein the partition set is formed by stacking a plurality of partition structures that are detachable from each other Each partition structure is provided with a recessed space at one end and a protrusion at the other end, and the protrusion has a shape that can be adjusted to the recessed space. in penetrates the said recessed space the convex portion Hole has been opened, the partition structure of one of which is assembled to the air guiding element together with the convex portion to the other end of the air guiders, thus mounted to the air guiding element the through hole of the partition structure there are in communication with the through-hole of said air guider, partition structure other said, attaching together the convex portion into the recessed space of the partition structure are adjacent, the mounting by repeating, on top of one another a plurality of the partition structures, the partition structure thus stacked is Ri Contact each of the through hole is communicated with the recessed space of the partition structure of the respectively adjacent, further In addition, a screw hole is opened at the other end of the air guide, another through hole is opened in each partition structure corresponding to the screw hole, and a screw is inserted into the other through hole to Right By screwing the holes, characterized by forming the partition sets, a partition assembly for pneumatic dewatering device.

本発明の請求項2は、円筒体と、上カバーと、エア案内子を含む気圧式除水装置内に設置され、前記上カバーは、前記円筒体の一端に設置され、入り口通路と、出口通路を有し、前記二つの通路は、それぞれ外部及び前記円筒体と連通しており、前記エア案内子は貫通孔が開設されており、一端が前記上カバーに設けられ前記入り口通路と連通しており、かつ前記円筒体内に設置されている気圧式除水装置用仕切り組であって、前記仕切り組は、互いに脱着可能な複数の仕切り構造を重ねて構成され、前記各仕切り構造は、一端に凹み空間が設けられており、他端に凸部が設けられており、前記凸部は前記凹み空間に合せ可能な形状をしており、前記各仕切り構造には、前記凹み空間と前記凸部とを貫通した透孔が開設されており、前記凹み空間の内面に内ねじが設けられ、前記凸部の外面に外ねじが設けられ、前記エア案内子の内面に別の内ねじが設けられ、そのうちの一つの前記仕切り構造は、前記凸部の前記外ねじ前記エア案内子の前記別の内ねじに締め付けて前記エア案内子に組み付けられており、こうして前記エア案内子に組み付けられている仕切り構造の前記透孔が前記エア案内子の前記貫通孔と連通しており、その他の前記仕切り構造は、前記凸部の外ねじを隣接している仕切り構造の前記凹み空間の内ねじと螺合して取り付け、この取り付けを繰り返すことにより、複数の前記仕切り構造を互いに重ねて、こうして重ねられた仕切り構造は、それぞれの前記透孔隣接しているそれぞれの前記仕切り構造の前記凹み空間と連通しており、以上の構成により、前記仕切り組を形成することを特徴とする、気圧式除水装置用仕切り組である。 According to a second aspect of the present invention, a cylindrical body, an upper cover, and a pneumatic dehydrator including an air guide are installed. The upper cover is installed at one end of the cylindrical body, and includes an inlet passage, an outlet, The two passages communicate with the outside and the cylindrical body, the air guide element has a through hole, and one end is provided in the upper cover and communicates with the inlet passage. And a partition set for a pneumatic dewatering device installed in the cylindrical body , wherein the partition set includes a plurality of partition structures that are detachable from each other, and each partition structure has one end A concave space is provided at the other end, and a convex portion is provided at the other end. The convex portion has a shape that can be adjusted to the concave space, and each of the partition structures includes the concave space and the convex. hole passing through the parts have been opened, the recess Inner thread provided on the inner surface between the outer thread is provided on an outer surface of the convex portion, another internal thread is provided on the inner surface of the air guiding element, wherein the partition structure of one of which, of the convex portion It is assembled on the air guiding element by tightening the said outer thread on said other internal thread of the air guiders, thus the said through hole of the partition structure being assembled to the air guider is of the air guider The other partition structure communicates with the through- hole, and the external thread of the convex portion is screwed onto the internal thread of the recessed space of the adjacent partition structure and is attached. said partition structure overlapped with each other, a partition structure which is overlapped manner, Ri Contact communication with said recessed space of each of the partition structure, each of the through holes are adjacent, with the above configuration, the And forming a cutting assembly, a partition assembly for pneumatic dewatering device.

本発明の請求項5、請求項1又は2において、更に、前記エア案内子には、前記仕切り組の周りに嵌められている仕切り管が設けられている。 Claim 5 of the present invention, in claim 1 or 2, further wherein the air guiding element, a partition tube is fitted around the partitioning sets are provided.

本発明の気圧式除水装置用仕切り組によれば、除水されたエアの湿度を低コストで変更可能であるという効果がある。 According to the partition set for a pneumatic dewatering device of the present invention, there is an effect that the humidity of the dewatered air can be changed at low cost.

以下、本発明の実施の形態を図面に基づいて説明する。 Hereinafter, embodiments of the present invention will be described with reference to the drawings.

まず、図1乃至図3を参照する。本発明の実施例の気圧式除水装置用仕切り組は、仕切り組が気圧式除水装置内に設置されており、気圧式除水装置は、円筒体Aと、上カバーBと、締付け子Cと、エア案内子Dと、仕切り管Eを含み、前記円筒体Aは、一端が開放され立設壁A1を有し、他端が排水管A2を有し、前記上カバーBは、前記円筒体Aの開放端に設けられており、外ねじB1が設けられており、出口通路B2と、入り口通路B3を有し、前記二つの通路B2,B3は、一端が前記上カバーBの側面に開放されており、他端が前記上カバーBの一端に開放され前記円筒体Aと連通しており、前記締付け子Cは、収縮部C1と、内ねじC2を有し、前記収縮部C1により前記円筒体Aの立設壁A1が規制され、そして前記締付け子Cの内ねじC2は前記上カバーBの外ねじB1と螺合しており、この螺合により、円筒体Aと上カバーBが結合されるようになり、前記エア案内子Dは、貫通孔D1が開設されており、一端が上カバーBの入り口通路B2の他端に設けられており、これにより、エア案内子Dの貫通孔D1が入り口通路B2と連通しており、エア案内子Dが円筒体A内に位置されており、前記仕切り管Eは、エア案内子Dの他端に設けられており、円筒体A内に位置されている。 First, FIG. 1 to FIG. 3 will be referred to. The partition set for a pneumatic dewatering apparatus according to an embodiment of the present invention has a partition set installed in the pneumatic dewatering apparatus. The pneumatic dewatering apparatus includes a cylindrical body A, an upper cover B, and a fastener. C, an air guide D, and a partition pipe E. The cylindrical body A has one end open and has a standing wall A1, the other end has a drain pipe A2, and the upper cover B It is provided at the open end of the cylindrical body A, is provided with an external thread B1 , and has an exit passage B2 and an entrance passage B3. One end of each of the two passages B2 and B3 is a side surface of the upper cover B. The other end is opened to one end of the upper cover B and communicates with the cylindrical body A. The clamp C has a contraction part C1 and an internal thread C2, and the contraction part C1 The standing wall A1 of the cylindrical body A is regulated by the above, and the inner screw C2 of the fastener C is fixed to the upper cover B. The cylindrical body A and the upper cover B are joined by screwing with the screw B1, and the air guide element D has a through hole D1 and one end of the upper cover B. The through hole D1 of the air guide D communicates with the entrance passage B2, and the air guide D is located in the cylindrical body A. The partition pipe E is provided at the other end of the air guide D and is positioned in the cylindrical body A.

前記仕切り組は、互いに脱着可能な若干の仕切り構造10を重ねて構成され、前記各仕切り構造10は、一端に凹み空間11が設けられており、他端に凸部12が設けられており、前記凸部12は前記凹み空間11に合せ可能な形状をしており(本実施例では、凸部12が円錐形状)、前記各仕切り構造10には、前記凹み空間11と前記凸部12とを貫通した透孔13(その直径は3mm〜10mm程度範囲にした方がよい)が開設されており、そのうちの一つの仕切り構造10は、凸部12をエア案内子Dの他端に合せて前記エア案内子Dに組み付けられており、その他の仕切り構造10は、凸部12を隣接している仕切り構造10の凹み空間11に合せ、この合せを繰り返すと仕切り組が構成され(本実施例では、エア案内子Dの他端にねじ穴D2が四つ開設されており、各仕切り構造10に貫通孔14が四つ開設されており、四つのネジFをそれぞれ四つの貫通孔14に挿通してねじ穴D2にねじ込むと、各仕切り構造10が仕切り組に構成され、その後、エア案内子Dに前記仕切り組を組み付け)、且つエア案内子Dに組み付けられている仕切り構造10の透孔13が前記エア案内子Dの貫通孔D1と連通しており、互いに重ねられたこれらの仕切り構造10は透孔13で隣接している仕切り構造10の凹み空間11と連通している。 The partition set is configured by overlapping a number of partition structures 10 that can be attached to and detached from each other. Each partition structure 10 is provided with a recessed space 11 at one end and a convex portion 12 at the other end. The convex portion 12 has a shape that can be matched to the concave space 11 (in this embodiment, the convex portion 12 is conical), and each partition structure 10 includes the concave space 11, the convex portion 12, and the like. A through hole 13 (whose diameter should be in the range of about 3 mm to 10 mm) is established, and one of the partition structures 10 has a convex portion 12 aligned with the other end of the air guide D. The other partition structure 10 assembled to the air guide D is aligned with the concave space 11 of the adjacent partition structure 10 and the alignment is repeated to form a partition set (this embodiment) Then, screw on the other end of the air guide D Four holes D2 are opened, and four through holes 14 are opened in each partition structure 10. When each of the four screws F is inserted into the four through holes 14 and screwed into the screw holes D2, each partition is formed. The structure 10 is configured as a partition assembly, and then the partition assembly is assembled to the air guide D), and the through hole 13 of the partition structure 10 assembled to the air guide D is a through hole D1 of the air guide D. The partition structures 10 stacked on top of each other are in communication with the recessed spaces 11 of the partition structures 10 adjacent to each other through the through holes 13.

高圧状態でのエアが上カバーBの入り口通路B3から進入するときには、図4に示すように、エアが円筒体Aと仕切り管Eとにそれぞれ進入し、エアが円筒体Aと仕切り管Eとを通過しているときに、一部の水分が円筒体Aと仕切り管Eとの内面に凝結され、次に、水分が仕切り管Eから各仕切り構造10の凹み空間11を経由して透孔13を通過して次の仕切り構造10の凹み空間11に進入し、このように、エアは、引き続いて各仕切り構造10と衝突し、そして各透孔13内の流速と各凹み空間11内の流速が異なるので、更に、一部の水分が各仕切り構造10に凝結され、最後に、エアは、エア案内子Dの貫通孔D1と、上カバーBの出口通路B2とを順次に通過して外部に排出され、これにより、水分を除去する効果を達成することができ、且つこれらの仕切り構造10、仕切り管Eと円筒体Aに凝結された水滴が円筒体Aの排水管A2から排出される。 When the air in the high pressure state enters from the entrance passage B3 of the upper cover B, as shown in FIG. 4, the air enters the cylindrical body A and the partition pipe E, and the air enters the cylindrical body A and the partition pipe E. When the water passes through, a part of water is condensed on the inner surfaces of the cylindrical body A and the partition pipe E, and then the water passes through the recessed space 11 of each partition structure 10 from the partition pipe E. 13 passes through the recessed space 11 of the next partition structure 10, and thus the air subsequently collides with each partition structure 10, and the flow velocity in each through-hole 13 and in each recessed space 11 Since the flow velocities are different, a part of moisture is condensed on each partition structure 10. Finally, the air sequentially passes through the through hole D 1 of the air guide D and the outlet passage B 2 of the upper cover B. It is discharged to the outside, thereby achieving the effect of removing moisture It can be, and these partition structure 10, water droplets condensed on the partition tube E and the cylindrical body A is discharged from the discharge pipe A2 of the cylindrical body A.

また、各仕切り構造10は、図5に示すように、凹み空間11の内面に内ねじ111を設け、凸部12の外面に外ねじ121を設け、エア案内子Dの面に内ねじD3を設けてもよく、そうすると、各仕切り構造10は、図6に示すように、内ねじ111で隣接している仕切り構造10の外ねじ121と螺合することにより、これらの仕切り構造10で仕切り組を構成することができ、前記仕切り組は、そのうちの一つの仕切り構造10の外ねじ121によりエア案内子Dの内ねじD3に締付けることができる。 Also, the partition structure 10, as shown in FIG. 5, a dent internal threads 111 provided on the inner surface of the space 11, an external thread 121 provided on the outer surface of the convex portion 12, the air guiders D internal threads on the inner surface of the D3 Then, as shown in FIG. 6, each partition structure 10 is partitioned by these partition structures 10 by screwing with external screws 121 of adjacent partition structures 10 with inner screws 111. A set can be formed, and the partition set can be fastened to the inner screw D3 of the air guide D by the outer screw 121 of one of the partition structures 10.

本発明の実施例及び気圧式除水装置の分解図Example of the present invention and exploded view of a pneumatic dewatering device 本発明の実施例及び気圧式除水装置の組合せ状態を示す概略図Schematic which shows the combined state of the Example of this invention, and a pneumatic-type water removal apparatus 本発明の実施例の斜視図The perspective view of the Example of this invention 本発明の実施例が気圧式除水装置に設置されたときのエアの流動を示す概略図Schematic showing the flow of air when an embodiment of the present invention is installed in a pneumatic dewatering device 本発明の実施例に係る仕切り構造が内外ねじを有することを示す概略図Schematic which shows that the partition structure based on the Example of this invention has an internal and external screw. 本発明の実施例に係る各仕切り構造がねじで互いに螺合された状態を示す概略図Schematic which shows the state by which each partition structure based on the Example of this invention was screwed together with the screw | thread.

10 仕切り構造
11 凹み空間
12 凸部
13 透孔
14 貫通孔
111 内ねじ
121 外ねじ
A 円筒体
A1 立設壁
A2 排水管
B 上カバー
B1 外ねじ
B2 入り口通路
B3 出口通路
C 締付け子
C1 収縮部
C2 内ねじ
D エア案内子
D1 貫通孔
D2 ねじ穴
D3 内ねじ
E 仕切り管
F ネジ
DESCRIPTION OF SYMBOLS 10 Partition structure 11 Recessed space 12 Protruding part 13 Through-hole 14 Through-hole 111 Inner screw 121 Outer screw A Cylindrical body A1 Standing wall A2 Drain pipe B Upper cover B1 Outer screw B2 Outlet passage B3 Outlet passage C Fastener C1 Contraction part C2 Inner screw D Air guide D1 Through hole D2 Screw hole D3 Inner screw E Partition tube F Screw

Claims (3)

円筒体と、上カバーと、エア案内子を含む気圧式除水装置内に設置され、前記上カバーは、前記円筒体の一端に設置され、入り口通路と、出口通路を有し、前記二つの通路は、それぞれ外部及び前記円筒体と連通しており、前記エア案内子は貫通孔が開設されており、一端が前記上カバーに設けられ前記入り口通路と連通しており、かつ前記円筒体内に設置されている気圧式除水装置用仕切り組であって、
前記仕切り組は、互いに脱着可能な複数の仕切り構造を重ねて構成され、
前記各仕切り構造は、一端に凹み空間が設けられており、他端に凸部が設けられており、前記凸部は前記凹み空間に合せ可能な形状をしており、前記各仕切り構造には、前記凹み空間と前記凸部とを貫通した透孔が開設されており、
そのうちの一つの前記仕切り構造は、前記凸部前記エア案内子の他端に合せて前記エア案内子に組み付けられており、こうして前記エア案内子に組み付けられている仕切り構造の前記透孔が前記エア案内子の前記貫通孔と連通しており、
その他の前記仕切り構造は、前記凸部を隣接している仕切り構造の前記凹み空間に合せて取り付け、この取り付けを繰り返すことにより、複数の前記仕切り構造を互いに重ねて、こうして重ねられた仕切り構造は、それぞれの前記透孔隣接しているそれぞれの前記仕切り構造の前記凹み空間と連通しており、
更に、エア案内子の他端にねじ穴が開設されており、前記ねじ穴に対応して前記各仕切り構造に別の貫通孔が開設されており、ネジを前記別の貫通孔に挿通して前記ねじ穴をねじ込むことにより、前記仕切り組を構成することを特徴とする、気圧式除水装置用仕切り組。
A cylindrical body, an upper cover, and a pneumatic dewatering device including an air guide ; and the upper cover is installed at one end of the cylindrical body, and has an inlet passage and an outlet passage. Each of the passages communicates with the outside and the cylindrical body, the air guide element has a through-hole, one end is provided in the upper cover, communicates with the entrance passage, and A partition set for a pneumatic dewatering device installed,
The partition set is configured by stacking a plurality of partition structures that are detachable from each other,
Each of the partition structures is provided with a recessed space at one end, a protrusion is provided at the other end, and the protrusion has a shape that can be adjusted to the recessed space. , A through hole penetrating the recessed space and the convex portion is established,
The partition structure of one of them, the convex portion is assembled to said air guider in accordance with the other end of the air guiders, thus the through hole of the partition structure being assembled to the air guiding element is Communicating with the through hole of the air guide;
The other partition structure is attached in accordance with the recessed space of the adjacent partition structure, and by repeating this attachment, a plurality of the partition structures are overlapped with each other, and thus the partitioned structure is , Ri Contact each of the through hole is communicated with the recessed space of the partition structure of each which are adjacent to each other,
Furthermore, a screw hole is opened at the other end of the air guide element, another through hole is opened in each partition structure corresponding to the screw hole, and a screw is inserted into the other through hole. A partition assembly for a pneumatic dewatering device , wherein the partition assembly is configured by screwing the screw hole .
円筒体と、上カバーと、エア案内子を含む気圧式除水装置内に設置され、前記上カバーは、前記円筒体の一端に設置され、入り口通路と、出口通路を有し、前記二つの通路は、それぞれ外部及び前記円筒体と連通しており、前記エア案内子は貫通孔が開設されており、一端が前記上カバーに設けられ前記入り口通路と連通しており、かつ前記円筒体内に設置されている気圧式除水装置用仕切り組であって、
前記仕切り組は、互いに脱着可能な複数の仕切り構造を重ねて構成され、
前記各仕切り構造は、一端に凹み空間が設けられており、他端に凸部が設けられており、前記凸部は前記凹み空間に合せ可能な形状をしており、前記各仕切り構造には、前記凹み空間と前記凸部とを貫通した透孔が開設されており、前記凹み空間の内面に内ねじが設けられ、前記凸部の外面に外ねじが設けられ、前記エア案内子の内面に別の内ねじが設けられ、
そのうちの一つの前記仕切り構造は、前記凸部の前記外ねじ前記エア案内子の前記別の内ねじに締め付けて前記エア案内子に組み付けられており、こうして前記エア案内子に組み付けられている仕切り構造の前記透孔が前記エア案内子の前記貫通孔と連通しており、
その他の前記仕切り構造は、前記凸部の外ねじを隣接している仕切り構造の前記凹み空間の内ねじと螺合して取り付け、この取り付けを繰り返すことにより、複数の前記仕切り構造を互いに重ねて、こうして重ねられた仕切り構造は、それぞれの前記透孔隣接しているそれぞれの前記仕切り構造の前記凹み空間と連通しており、
以上の構成により、前記仕切り組を形成することを特徴とする、気圧式除水装置用仕切り組。
A cylindrical body, an upper cover, and a pneumatic dewatering device including an air guide ; and the upper cover is installed at one end of the cylindrical body, and has an inlet passage and an outlet passage. Each of the passages communicates with the outside and the cylindrical body, the air guide element has a through-hole, one end is provided in the upper cover, communicates with the entrance passage, and A partition set for a pneumatic dewatering device installed,
The partition set is configured by stacking a plurality of partition structures that are detachable from each other,
Each of the partition structures is provided with a recessed space at one end, a protrusion is provided at the other end, and the protrusion has a shape that can be adjusted to the recessed space. A through hole penetrating the recessed space and the convex portion is formed, an inner screw is provided on the inner surface of the recessed space, an outer screw is provided on the outer surface of the convex portion, and the inner surface of the air guide Is provided with another internal thread,
The partition structure of one of them, the said outer thread of said convex portion is assembled to said air guider tightened to the further internal thread of the air guiders, thus being assembled to the air guiding element The through hole of the partition structure communicates with the through hole of the air guide;
The other partition structure is attached by screwing the external screw of the convex portion with the internal screw of the recessed space of the adjacent partition structure, and by repeating this mounting, the plurality of partition structures are overlapped with each other. , partition structure thus stacked is Ri Contact each of the through hole is communicated with the recessed space of the partition structure of each which are adjacent to each other,
The partition set for a pneumatic dewatering apparatus is characterized in that the partition set is formed by the above configuration .
更に、前記エア案内子には、前記仕切り組の周りに嵌められている仕切り管が設けられていることを特徴とする、請求項1又は2に記載の気圧式除水装置用仕切り組。 The partition set for a pneumatic dewatering apparatus according to claim 1 or 2 , wherein the air guide element is provided with a partition pipe fitted around the partition set.
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