JPS60119866A - Assembling of silo cylinder body - Google Patents
Assembling of silo cylinder bodyInfo
- Publication number
- JPS60119866A JPS60119866A JP22599683A JP22599683A JPS60119866A JP S60119866 A JPS60119866 A JP S60119866A JP 22599683 A JP22599683 A JP 22599683A JP 22599683 A JP22599683 A JP 22599683A JP S60119866 A JPS60119866 A JP S60119866A
- Authority
- JP
- Japan
- Prior art keywords
- arc
- barrel
- silo
- plate
- unit
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Butt Welding And Welding Of Specific Article (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】 この発明はサイロ筒身の組立て方法シて関する。[Detailed description of the invention] The present invention relates to a method for assembling a silo barrel.
従来、サイロの鉄板筒身を組立てるには次のように行な
っている。即ち、第1図及び第2図に示すように基盤1
上に所定径の受けリング2を固定し、基盤1上に、受は
リング2の外側、内側に位置して互いに離間対向する2
本−組の往3,4を。Conventionally, the steel plate barrel of a silo is assembled as follows. That is, as shown in FIGS. 1 and 2, the base 1
A receiving ring 2 of a predetermined diameter is fixed on the base 1, and the receiving rings 2 are located on the outside and inside of the ring 2 and are spaced apart from each other and face each other.
This is group 3 and 4.
円周方向に所定の間隔をおいて立設し、柱3にはリング
状の受部5を設ける。柱4には、当接部6aが設けられ
た押圧部材6を、ねじ7,7を回向に所定の間隔をおい
てITI)付け、受部5.当接部6a間に、サイロ筒身
部を高さ方向及び周方向に分割した分割単位でありサイ
ロ筒身部を高さ方向にのみ分割したリング状の筒身ユニ
ツlの構成部材である複数の円弧状板9を、相互間にわ
ずかな間隔をおき、全体として平面略円形になるように
落し込む。そして、ねじ7.7を回して当接部6aK’
より円弧状板9を受部5に押し付けると共に、押圧具8
のねじ10を回して円弧状板9の下端位置を受けリング
2に当接させ1円弧状板9を歪の少ない円弧状板9にき
よう正し、各円弧状板9の隣接部の合せ目を溶接し、平
面形状が大円形状の筒身ユニットを形成する。そして、
このように形成された複数の筒身ユニツFを積み重ねて
その合せ目を溶接してサイロ鉄板筒身を形成する。The pillars 3 are erected at predetermined intervals in the circumferential direction, and the pillars 3 are provided with ring-shaped receiving parts 5. A pressing member 6 provided with an abutting portion 6a is attached to the pillar 4 with screws 7, 7 at a predetermined interval in the rotation direction (ITI), and a receiving portion 5. Between the abutting portions 6a, there are a plurality of ring-shaped cylindrical units l, which are division units in which the silo cylindrical body is divided in the height direction and the circumferential direction, and are constituent members of a ring-shaped cylindrical body unit l in which the silo cylindrical body is divided only in the height direction. The arc-shaped plates 9 are dropped so that they have a generally circular plane with a slight interval between them. Then, turn the screw 7.7 to close the abutment part 6aK'.
While pressing the arcuate plate 9 against the receiving part 5, press the pressing tool 8.
Turn the screw 10 to bring the lower end of the arc-shaped plate 9 into contact with the receiving ring 2, align the arc-shaped plate 9 with the least distortion, and align the adjacent parts of each arc-shaped plate 9. The eyes are welded to form a cylindrical unit with a large circular planar shape. and,
A plurality of cylindrical units F thus formed are stacked and their seams are welded to form a silo iron plate cylindrical body.
ところが、従来のこのようなサイロ筒身の組立て方法に
おいては1組立て用治几の製造コス1が高くなυ、しか
もサイロ筒身の組立て手順が複雑であυ、このサイロ筒
身の組立てに非常に手間と労力がかかるという問題があ
った。However, in the conventional method of assembling the silo barrel, the manufacturing cost of one assembly tool is high υ, and the procedure for assembling the silo barrel is complicated υ, making it very difficult to assemble the silo barrel. The problem was that it took time and effort.
この発明は前記事情に鑑みてなされたもので。This invention was made in view of the above circumstances.
復雑な組立て治具を省いた簡易な組立て方法で。A simple assembly method that eliminates complicated assembly jigs.
組立ての手間と労力とを大幅に削減することができるサ
イロ筒身の組立て方法を提供することを目的とする。To provide a method for assembling a silo barrel that can significantly reduce the time and labor required for assembly.
以下、この発明の一実施例を第3図乃至第32図に基づ
いて説明する。An embodiment of the present invention will be described below with reference to FIGS. 3 to 32.
この実施例においては、サイロ鉄板筒身下部のホッパー
以下の施工が終了した後、サイロの鉄板筒身を次の手順
により製造する。In this example, after the construction below the hopper of the lower part of the silo iron plate barrel is completed, the iron plate barrel of the silo is manufactured by the following procedure.
(1)まず、第4図に示すように基盤11上に、第3図
に示す群サイロの鉄板の筒身12を高さ方向に分割した
リング状の筒身ユニツ)13を構成するための複数の円
弧状板14f:、それらの相互間にわずかな間隔をおき
、全体として平面略円形になるように載置する。(1) First, as shown in Fig. 4, on the base 11, a ring-shaped cylinder unit 13, which is obtained by dividing the iron plate cylinder 12 of the group silo shown in Fig. 3 in the height direction, is constructed. A plurality of arcuate plates 14f: are placed so that the plates have a generally circular plane with a slight interval between them.
(21次に、隣夛合う円弧状板14の一方の円弧状板1
4(第5図に符号■で示したもの)の隣接端部内面に第
5図に示すようにバットブレーF15の円弧部16の略
1/2部分を仮付は溶接する。(21 Next, one arcuate plate 1 of the adjacent arcuate plates 14
As shown in FIG. 5, approximately 1/2 part of the arc portion 16 of the butt brake F15 is tack-welded to the inner surface of the adjacent end of the batt brake F15 (indicated by the symbol ■ in FIG. 5).
バットプレート15は第6図に示すようなかまぼこ形の
板からなシ1円弧部16を有し、この円弧部16の中央
に凹部17が形成され次もので1円弧状板14の隣接部
の上、中、下、3箇所に離間して仮付は溶接される。The butt plate 15 has a circular arc portion 16 which is a semicylindrical plate as shown in FIG. Temporary attachments are welded at three separate locations: top, middle, and bottom.
+31 次に、第7図に示すように円弧状板14の板厚
に応じて適当な厚さのスペーサ18を各円弧状板140
aに挿入し、各円弧状板14をそれらの中心側へ寄せて
各円弧状板14によシこれら円弧状板14間にスペーサ
18を挾持させる。+31 Next, as shown in FIG.
a, and move each of the arcuate plates 14 toward their centers so that the spacer 18 is sandwiched between each of the arcuate plates 14.
そして1円弧状板14に仮付けされた各ノ(ットブレー
)14に第8図に示すウマ19の下溝20 t” if
し、バットプレート15を仮付けした円弧状板14と隣
接する他方の円弧状板14(第7図に符号■で示したも
の)の内周面にウマ19の先端部を仮付けし、さらにT
溝20に矢21を打ち込んで各円弧状板14の周方向隣
接端部を段がつかないように合致させる。Then, a lower groove 20 t'' of the horse 19 shown in FIG.
Then, the tip of the horse 19 is temporarily attached to the inner peripheral surface of the other arcuate plate 14 (indicated by symbol ■ in FIG. 7) adjacent to the arcuate plate 14 to which the butt plate 15 is temporarily attached, and then T
An arrow 21 is driven into the groove 20 to align the circumferentially adjacent ends of each arcuate plate 14 without forming a step.
(4)次に、先にバットブレー)15を仮付けした円弧
状板14と隣接する他方の円弧状板14(第9図に符号
ので示したもの)の内周面に/くッFプレート15を第
9図に示すように仮付は溶接する。(4) Next, attach the F plate to the inner circumferential surface of the other arcuate plate 14 (indicated by the symbol in FIG. 9) adjacent to the arcuate plate 14 to which the butt brake 15 was temporarily attached. 15 is temporarily welded as shown in FIG.
(5)次に、第10図に示すようにスペーサ1Bを取シ
外す。(5) Next, as shown in FIG. 10, remove the spacer 1B.
(6)次に、第11図に示すように各円弧状板14の瞬
接部外周面に裏当て板(平鋼)22を取υ付け、この裏
当て板22を円弧状板14に仮付は溶接してwiする一
方の円弧状板14と他方の円弧状板14との合せ目にル
ー1ギヤツプを設け、この合せ目を木材は溶接する。(6) Next, as shown in FIG. A loop gap is provided at the seam between one arc-shaped plate 14 and the other arc-shaped plate 14, and the wood is welded at this seam.
(力 次に、第12図に示すように円弧状板14から各
バラ1ブレー)15を撤去し、さらに必要に応じi−b
で板22も撤去し、これらバラ)プレート15.裏当て
板22の撤去跡及び各円弧状板14の合せ目溶接部を研
磨仕上げしてリング状の筒身ユニット13を形成する。(Force) Next, as shown in FIG.
Then, the plate 22 was also removed, and the plates 15. The ring-shaped cylindrical body unit 13 is formed by polishing the removal trace of the backing plate 22 and the seam welds of each arcuate plate 14.
(8)次に、筒身ユニツ)13の上下端に第13図に示
すように張シバンド23を敗り付ける。但し、良好な形
状に形成さV、た筒身ユニット13にあってはここで下
部の張シバンド23を取シ外す。なお、上部の張9バン
ド23は吊シ治具兼用とされる。(8) Next, attach tension bands 23 to the upper and lower ends of the barrel unit 13 as shown in FIG. However, if the barrel unit 13 is formed into a good shape, the lower tension band 23 is removed at this point. Note that the upper tension band 23 is also used as a hanging jig.
張υバンド23は第15図に示すように構成されたもの
である。即ち、筒身ユニツ)13の内径と同一曲率半径
の外周面を有しかつ両端に鍔24を有する複数の円弧部
材25がポルF26、ナラ)27によりリング状VC連
結され。The tension band 23 is constructed as shown in FIG. That is, a plurality of circular arc members 25 having an outer circumferential surface having the same radius of curvature as the inner diameter of the cylinder unit 13 and having flanges 24 at both ends are connected in a ring shape by a pole F 26 and a neck 27.
円弧部材250所定箇所KL字形部材2B。Arc member 250 predetermined location KL-shaped member 2B.
29がポルF及びナツトによシ着脱自在に取シ付けられ
、張υバンド23の内−には鉄骨30が第28図に示す
ように配筋されるものである。29 is removably attached to the pole F and nuts, and a steel frame 30 is arranged within the tension band 23 as shown in FIG.
L字形部材29にはワイヤ取付孔31が形成されている
。筒身ユニツ)13は、その両端部を、円弧部材25の
外側面25aとL字形部材28゜29の内側面28B
+ 29 aとの間に嵌入されかつ張りバンド23を張
ることにより張りバンド23に敗り付けられる。A wire attachment hole 31 is formed in the L-shaped member 29. The cylinder unit) 13 has its both ends connected to the outer surface 25a of the arcuate member 25 and the inner surface 28B of the L-shaped member 28°29.
+29a, and is defeated by the tension band 23 by tensioning the tension band 23.
(9)前記(1)〜(8)の作業をくり返し、所要数の
111身ユニツト13を形成し、サイロ筒身組立用とし
て用意する。(9) Repeat the operations (1) to (8) above to form the required number of 111-body units 13 and prepare them for assembling the silo barrel.
(11f9)Icおいて用意された各筒身ユニツ)13
の外周所定箇所に副サイロ用の仕切板32を第14図に
示すように溶接により覗p付ける。第14図中33は補
強鉄筋である。なお、各筒身ユニツ)13の外周部にス
タッドを介し多数の鉄筋(図示せず)を取り付ける。(11f9) Each cylinder unit prepared in Ic) 13
A partition plate 32 for the sub-silo is attached by welding to a predetermined location on the outer periphery of the silo, as shown in FIG. 33 in FIG. 14 is a reinforcing reinforcing bar. Note that a large number of reinforcing bars (not shown) are attached to the outer periphery of each cylinder unit 13 via studs.
以下筒身ユニツFの塔載について述べる。The mounting of the barrel unit F will be described below.
utt 内争1に鉄骨30が配筋された上部の張りバン
ド23のワイヤ取付孔31にワイヤ34を取シ付ケチこ
れをクレーンのフック35に引掛け。Attach the wire 34 to the wire attachment hole 31 of the upper tension band 23 on which the steel frame 30 is reinforced in the utt war 1, and hook it to the hook 35 of the crane.
筒身ユニツ)13を吊り上げ、その下端に張シバンド2
3がyb付けられているものにあってはこれを@部外し
、ホッパ以下の有底コンクリ−)筒(図示せず。サイロ
の基部となる。)の上端に据付ける。第23図中36は
据付は筒身ユニY113の外周に打設されたコンクリー
ト筒である。Lift up the cylinder unit) 13 and attach the tension band 2 to its lower end.
For those with 3 yb attached, remove the @ part and install it on the upper end of the bottomed concrete cylinder (not shown, which becomes the base of the silo) below the hopper. Reference numeral 36 in FIG. 23 indicates a concrete tube placed around the outer periphery of the tube body uni Y113.
az 次に、据付は済筒身ユニツ)13の上端の張りバ
ンド23を取り外し、この上端内周4箇所に第23図乃
至第25図に示すようにドツキングピース37を仮付は
溶接する。az Next, the tension band 23 at the upper end of the cylinder unit 13, which has already been installed, is removed, and docking pieces 37 are temporarily welded to four locations on the inner circumference of the upper end as shown in FIGS. 23 to 25.
0 次に、前記Qlの筒身ユニット13を据付は用筒身
ユニツ)13として前記(11)で述べたようにクレー
ンによシ吊り上げ、その下端に張シバンド23が@シ付
けられているものにあってはこれを取p外し、この据付
は用筒身ユニツ)13キングピース37が嵌入し得る間
隔をあけて第26図、第27図、第29図に示すように
仮付けg接する。0 Next, install the Ql barrel unit 13 by lifting it onto a crane as described in (11) above, and attaching the tension band 23 to its lower end. 26, 27, and 29, with a gap that allows the king piece 37 to fit in.
α勢 次に据付は用筒身ユニット13を据付は済筒身ユ
ニツ)13の上方へ運−びこれを徐々に下降させ、第2
9図に示すように据付は済筒身ユニッ」13のドツキン
グピース37を、2枚のドツキングピース38間に嵌入
させて据付は済筒身ユニツ)13と据付は用筒身ユニッ
ト13との心合せを行なう。Next, for installation, carry the cylinder unit 13 above the installed cylinder unit 13 and gradually lower it.
As shown in Figure 9, the docking piece 37 of the cylindrical body unit 13 is inserted between the two dotting pieces 38, and the docking piece 37 of the cylindrical body unit 13 is installed. Perform the alignment.
(151次に、据付は済筒身ユニツ)13の上端面上に
、第31図、第32図に示すように厚さ2〜3門のスペ
ーサ39を載置し、据付は用筒身コーニツ)13をさら
に下降させて据付は済筒身ユニット13に据付は用筒身
ユニツ)13をドツキングする。(151Next, the installation is done on the cylinder body unit).A spacer 39 with a thickness of 2 to 3 gates is placed on the upper end surface of 13 as shown in FIGS. 31 and 32. ) 13 is further lowered, and the installed barrel unit 13 is docked onto the installed barrel unit 13.
(1131次に、据付は済筒身ユニット13と据付は用
筒身ユニツ)13との合せ部に、第30図に示すように
円周方向に所定のピンチで多数のはだ合せ用ピース40
を、変形のない筒身ユニツ)13側に仮付けして欧り付
け、はだ合せ用ピース40の先端と前身ユニット13の
変形箇所との間に矢41を打ち込み、据付は済筒身ユニ
ツ)13と据付は用筒身ユニット13との合せ目の目違
いをなくシ、前記スペーサ39を嘔り外シ、据付は済筒
身ユニツ)13の上端面と据付は用筒身ユニツ)13の
上端内との合せ目を水付け′溶接する。このあと矢41
及びはだ合せ用ピース40を取り外し、今据付けた筒身
ユニ・7ト13の外周にコンクリートを打設する。(1131) Next, as shown in FIG. 30, a large number of mating pieces 40 are placed in the circumferential direction with a predetermined pinch at the joint between the installed cylinder unit 13 and the installed cylinder unit 13.
Temporarily attach it to the undeformed cylindrical unit (13) side, then drive an arrow 41 between the tip of the fitting piece 40 and the deformed part of the predecessor unit 13, and then install the cylindrical unit that has already been installed. ) 13 and the cylinder body unit 13, remove the spacer 39 and remove it, and install the upper end surface of the cylinder body unit) 13 and the cylinder body unit) 13. Weld the seam with the inside of the upper end with water. After this arrow 41
Then, remove the fitting piece 40 and pour concrete around the outer periphery of the cylindrical body unit 7 13 that has just been installed.
(17)前記(IQにおいて外周にコンクリ−1を打設
された筒身ユニット13の上部の張り)くンド23を取
り外す。(17) Remove the above-mentioned (tightness of the upper part of the cylinder unit 13 on which concrete 1 is cast on the outer periphery in IQ) the shund 23.
αQ 以下、前記■〜αηの作業をくり返し、サイロの
筒身を形成する。αQ Thereafter, the operations from ① to αη above are repeated to form the barrel of the silo.
なお、前記実施例においては各円弧状板14の隣接部外
周面に裏当て板(平鍋)22を仮付は溶接し、その後適
時にこれを取り外したが、これに限られることなく、平
鋼22を円弧状板14に水付は溶接して取外さないもの
としてもよく、また平鋼の代9にグラスウール部材から
なる裏当て板を円弧状板14に固着して各円弧状板14
の周方向合せ目を水付は溶接し、溶接後グラスウール部
材を取シ去るようにしてもよい。In the above embodiment, the backing plate (flat pan) 22 was temporarily welded to the outer circumferential surface of the adjacent portion of each arcuate plate 14, and then removed at the appropriate time. However, the present invention is not limited to this. 22 may be welded to the arcuate plate 14 without being removed, or a backing plate made of glass wool may be fixed to each arcuate plate 14 on the flat steel plate 9.
It is also possible to weld the circumferential seam and remove the glass wool member after welding.
以上説明したようにこの発明によれば、基盤上に千面略
円形状に複数の円弧状板を載置し、これら円弧状板間に
スペーサを挾持させて各円弧状板の隣接部内面にバット
プレートを仮付ケシ、スペーサを外し、各円弧状板の隣
接部外面に裏当て板を固着してこの隣接部合せ目を溶接
して筒身ユニツFを形成し、覆数の筒身ユニツ1を平面
真円状にきよう正し、複数の筒身ユニッ1の心合せを行
ないつつこれら複数の筒身ユニットを積み重ね。As explained above, according to the present invention, a plurality of arc-shaped plates are placed on a base in a substantially circular shape with a thousand sides, and a spacer is sandwiched between these arc-shaped plates so that the inner surface of the adjacent part of each arc-shaped plate is Temporarily attach the butt plate, remove the spacer, fix the backing plate to the outer surface of the adjacent part of each arcuate plate, weld the seam of this adjacent part to form the cylinder body unit F, and assemble the cylinder body units of the same number. 1 into a perfect circular shape on a plane, and while aligning the plurality of cylindrical units 1, stack the plurality of cylindrical units 1.
その合せ目を溶接してサイロの筒身を形成するのである
から、複雑な組立治への使用を省くことができ、組立て
の手間と労力とを大幅に削減することができ、しかも組
立て精度を向上させることができる。Since the joints are welded to form the barrel of the silo, it is possible to omit the use of complex assembly methods, greatly reducing assembly time and labor, and improving assembly accuracy. can be improved.
第1図及び第2図は従来のサイロ筒身の組立て方法の一
列を説明するための図で第1図は平面図、第2図は第1
図のI−I線に沿う断面図、第3図はこの発明によシ形
成さnた群サイロの一部の斜視図、第4図乃至第32図
はこの発明の一実施例を示すもので、第4図は平面図、
第5図は一円弧状板にバラ1プレートを仮付け@接した
状態を示す平面口、第6図はバットプレー1の平面図、
第7図は円弧状板の隣接部を合致させる手段を示す平面
図、第8図はウマの正面図、第9図及び第10図は円弧
状板の隣接部が合致した状態を示す平面図、第11図及
び第12図は円弧状板の隣接部が溶接された状態を示す
平面図、第13図及び第14図は筒身ユニッFに張りバ
ンドが取り付けら才tだ状態を示す斜視図、第15図は
張りバンドの平面図、第16図は第15図のA内部の拡
大詳細図、第17図は第15図のB内部の拡大詳細図。
第18図は第16図のD−D線に沿うUr面図、第19
図は第17図のE−E線に沿う断面図、第20図は第1
5図のC内部の拡大詳細図、第211は第20図のF−
F線に沿う断面図、第22図は第21図のG矢視図、第
23図は据付は済筒身ユニツ1上に据付は用筒身ユニツ
Fが吊シ下げられた状態を示す側断面図、第24図は据
付は済筒身ユニットの平面図、第25図は筒身ユニッ1
の上部にドッ々ングブレ−1が仮付は溶接された状態を
示す断面図、第26図は筒身ユニットの上下のドツキン
グプレー1が嵌合した状態を示す平面図、第27図は第
26図のH矢視図、第28図は据付は用筒身ユニットが
吊シ下げらBだ状態を示す斜視図、第29図は筒身ユニ
ッ(の上下のドツキングプレートが嵌合した状態を示す
側断面図。
第30図は据付は済面身ユニッ1に据付は用筒身ユニツ
Fがドツキングした状態を示す側断面図。
第31図及び第32図は上下の¥8A1ニッ1にはだ合
せ用ピースが取p付けらnた状態を示すffi’l断面
悶である。
11・・・・・・基盤、13・・・・・・筒身ユニッ)
、14・旧・・円弧状板、15・・・・・・バラ1プレ
ート、18・・・・・・スペーサ、22・・・・・・裏
当て板。
第1休(
第21文1
第3メ
第4図
第5j裟
第7図
どU
第9図
第!O図
第H図 第12じ([
第13図
q
第14図
第20図
第26図
第24図
第25図
第27図
U
第30図
第29図
第31図 第32図Figures 1 and 2 are diagrams for explaining one line of the conventional method of assembling the silo barrel. Figure 1 is a plan view, and Figure 2 is a
3 is a perspective view of a part of a group silo formed according to the present invention, and FIGS. 4 to 32 show an embodiment of the present invention. So, Figure 4 is a plan view,
Fig. 5 is a plan view showing a state in which a rose plate is temporarily attached to a circular arc plate, Fig. 6 is a plan view of bat play 1,
FIG. 7 is a plan view showing means for matching adjacent parts of the arcuate plates, FIG. 8 is a front view of the horse, and FIGS. 9 and 10 are plan views showing the state in which adjacent parts of the arcuate plates are matched. , Figures 11 and 12 are plan views showing the state in which the adjacent parts of the arc-shaped plates are welded, and Figures 13 and 14 are perspective views showing the state in which the tension band is not attached to the barrel unit F. 15 is a plan view of the tension band, FIG. 16 is an enlarged detailed view of the inside of A in FIG. 15, and FIG. 17 is an enlarged detailed view of the inside of B in FIG. 15. Figure 18 is an Ur surface view taken along line D-D in Figure 16;
The figure is a cross-sectional view taken along line E-E in Figure 17, and Figure 20 is a cross-sectional view along the line E-E in Figure 17.
An enlarged detailed view of the inside of C in Fig. 5, and Fig. 211 is F- in Fig. 20.
22 is a sectional view taken along line F, FIG. 22 is a view in the direction of arrow G in FIG. 21, and FIG. 23 is a side showing a state in which the installed barrel unit F is suspended on the installed barrel unit 1. 24 is a plan view of the installed barrel unit, and Figure 25 is a plan view of the barrel unit 1.
26 is a plan view showing a state in which the upper and lower docking brakes 1 of the barrel unit are fitted together, and FIG. Figure 26 is a view in the direction of arrow H, Figure 28 is a perspective view showing the installed barrel unit in a suspended state, and Figure 29 is a state in which the upper and lower docking plates of the barrel unit are fitted. Fig. 30 is a side sectional view showing a state in which the installed barrel unit F is docked to the installed face unit 1. Figs. 31 and 32 are the upper and lower ¥8 A1 Ni This is a cross-sectional view showing the state in which the fitting pieces are attached. 11...base, 13...tube unit)
, 14. Old arcuate plate, 15. 1 loose plate, 18. Spacer, 22. Backing plate. 1st holiday ( 21st sentence 1 3rd page 4th page 5j 7th page U Figure 9th! Figure 24 Figure 25 Figure 27 U Figure 30 Figure 29 Figure 31 Figure 32
Claims (1)
1間隔をおいて平面略円形状に載置し、前記各円弧状板
により、これら円弧状板間にスペーサを挾持させて各円
弧状板の隣接部内面に複数のはだ合せ用バットプレート
を仮付けして前記スペーサを敗シ外し、前記各円弧状板
の@接部外面に裏当で板を固着し、前記各円弧状板の隣
接部合せ目を溶接して筒身ユニットを形成し、との筒身
ユニソ1を複数つくシ、これらυ数の■i身ユニツ)を
平面真円状にきよう正し、複数の筒身ユニツ)の心合せ
を行ないつつこ71. c)複数の筒身ユニツ)を積み
爪ね、その合せ目を溶11してサイロの筒身を形成する
ことを特徴とするサイロ筒身の組立て方法。A plurality of arc-shaped plates for configuring the silo barrel are placed on the substrate in a substantially circular planar shape at one interval, and a spacer is sandwiched between the arc-shaped plates. Temporarily attach a plurality of mating butt plates to the inner surfaces of adjacent parts of the arc-shaped plates, remove the spacers, fix the plates to the outer surfaces of the contact parts of each of the arc-shaped plates with a backing, and Weld the joints of adjacent parts of the arc-shaped plates to form a cylindrical body unit, attach a plurality of cylindrical body units 1 to 1, and then lay out these υ number of unibody units) into a perfect circular shape on a plane, and make a plurality of cylindrical units. 71. c) A method for assembling a silo barrel, which comprises stacking a plurality of barrel units) and melting the joints to form a silo barrel.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP22599683A JPS60119866A (en) | 1983-11-30 | 1983-11-30 | Assembling of silo cylinder body |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP22599683A JPS60119866A (en) | 1983-11-30 | 1983-11-30 | Assembling of silo cylinder body |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS60119866A true JPS60119866A (en) | 1985-06-27 |
| JPS6358996B2 JPS6358996B2 (en) | 1988-11-17 |
Family
ID=16838156
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP22599683A Granted JPS60119866A (en) | 1983-11-30 | 1983-11-30 | Assembling of silo cylinder body |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS60119866A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005193029A (en) * | 2003-12-30 | 2005-07-21 | Lg Electronics Inc | Door of drum-type washing machine, method of manufacturing door with hairline sheet of drum-type washing machine, and method of manufacturing hairline sheet used for door |
| CN105983759A (en) * | 2015-01-30 | 2016-10-05 | 五冶集团上海有限公司 | Steel silo assembling and welding method used in high-humidity environment |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH0473395U (en) * | 1990-11-05 | 1992-06-26 |
-
1983
- 1983-11-30 JP JP22599683A patent/JPS60119866A/en active Granted
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005193029A (en) * | 2003-12-30 | 2005-07-21 | Lg Electronics Inc | Door of drum-type washing machine, method of manufacturing door with hairline sheet of drum-type washing machine, and method of manufacturing hairline sheet used for door |
| CN105983759A (en) * | 2015-01-30 | 2016-10-05 | 五冶集团上海有限公司 | Steel silo assembling and welding method used in high-humidity environment |
| CN105983759B (en) * | 2015-01-30 | 2018-10-16 | 五冶集团上海有限公司 | Steel feed bin assembling and welding method under high humidity environment |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6358996B2 (en) | 1988-11-17 |
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