JPS60122369A - Method and device of inspection for vertically set tube - Google Patents
Method and device of inspection for vertically set tubeInfo
- Publication number
- JPS60122369A JPS60122369A JP58229643A JP22964383A JPS60122369A JP S60122369 A JPS60122369 A JP S60122369A JP 58229643 A JP58229643 A JP 58229643A JP 22964383 A JP22964383 A JP 22964383A JP S60122369 A JPS60122369 A JP S60122369A
- Authority
- JP
- Japan
- Prior art keywords
- inspection device
- standing
- pipes
- inspection
- pipe
- 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
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N29/00—Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object
- G01N29/22—Details, e.g. general constructional or apparatus details
- G01N29/26—Arrangements for orientation or scanning by relative movement of the head and the sensor
- G01N29/265—Arrangements for orientation or scanning by relative movement of the head and the sensor by moving the sensor relative to a stationary material
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2291/00—Indexing codes associated with group G01N29/00
- G01N2291/02—Indexing codes associated with the analysed material
- G01N2291/025—Change of phase or condition
- G01N2291/0258—Structural degradation, e.g. fatigue of composites, ageing of oils
Landscapes
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Investigating Or Analyzing Materials By The Use Of Ultrasonic Waves (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は立設管の超音波による非破壊探傷の検査方法お
よびその装置に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method and apparatus for non-destructive flaw detection using ultrasonic waves for vertical pipes.
i投雪としてす77j−マ管を例2する2、加熱炉中に
多数の立設管が密集して林立している。Example 2: A large number of standing pipes are placed in a dense forest in a heating furnace.
1例の管間の間隔は八がXllり抜けられない程度、列
間の間隔は人が横歩きできる程度に狭い、管高はIOm
程度で、長さ8〜4m程度のオーステナイト系#熱鋼の
遠心鋳造管を溶接によりa足してつくられる01〜2年
程度では異常がなくても歌手も経過すると、腐蝕、溶接
部のひび割れがクリープにより生じている可能性があり
、超音波探傷による非破壊検査を行なって管の寿命を調
べる必要がある〇
特開昭55−18852 、持胸唱57−108758
にはこの′ik立設管の検査装置の先行技術が開示され
ている。これら装置は列設されている立設管に取付替す
るため2つ割ユニットとし友超音波探傷装@金管軸芯の
まわりに探触子全角変位させかつ管の長手方向に昇降可
能とするため、上位の自虐機から複雑な連結具、保持具
等を介し連結されており、駆動機構、ユーティリティを
含むこの装置の全体のm1はかなり重く、この重量物を
前記のように窮屈な場所で取付替することはかなり困難
である。In one example, the spacing between the pipes is so small that eight people cannot fit through it, the spacing between the rows is narrow enough for a person to walk sideways, and the pipe height is IOm.
In 2001 to 2002, when a centrifugally cast austenitic #thermal steel tube with a length of 8 to 4 meters was welded, there were no abnormalities, but as time passed, corrosion and cracks in the welded parts occurred. This may be caused by creep, and it is necessary to conduct a non-destructive test using ultrasonic flaw detection to check the life of the pipe.
discloses the prior art of this 'ik standing pipe inspection device. These devices are split into two units in order to be installed on standing pipes that are installed in a row.Ultrasonic flaw detection system@The probe can be displaced by a full angle around the axis of the brass tube and can be moved up and down in the longitudinal direction of the tube. , it is connected to the higher-level masochistic machine via complicated couplings, holders, etc., and the entire m1 of this device, including the drive mechanism and utilities, is quite heavy, and it is difficult to install this heavy object in a cramped place as mentioned above. It is quite difficult to replace.
i&置の取付替およびポンプ、防水シート、水槽の移動
等の検査準備時間は約90分かかり、検査の実施は管1
4当り約80分で終るが1日に約5〜6本の立設管しか
検査できlいのが現状である。It takes about 90 minutes to prepare for the inspection, including replacing the i & moving the pump, tarpaulin, and water tank.
It takes about 80 minutes per test, but currently only about 5 to 6 pipes can be inspected per day.
本発明は先行技術の作業上の前記諸因@Vl解決を与え
るためKなされたものであって、以下添付図を参照しそ
の方法を装置構成と共に詳細に説明する◎
第1図は本発明の第1実施例を示り、R膜管(1)はり
7オーマチユグとしその多数本が炉天井(2)と炉底(
3)との間に列設されている。立設管(IA) (IB
)を両端の立設管に選びその間に介在する例示15本の
立設管(1) Kまたがる範囲に水平に延びる走行レー
ル(4)を用意し1これと一体または別体の走行台車(
駆動装置)C51)C5B)をそれぞれ両端のR膜管(
IA) (IB)に装着し、走行台車(5A)(5B)
Kより走行レール(4)を水平姿勢のまま″i股管群
の上部に持上げその位置に固定状態に保つ。走行台車(
5A) (5B) V1走行レール(4)からの荷重に
よっては降下しない力量を持つ構造とする。その1例と
して図中略示のようにR膜管(IA)(IB)を挾む車
枠(a) (7)をクロスリンク(8)、ばね等で連結
しそれVC装備した4つの車輪(9)を立設管(IA)
(IB)に圧接してワオーム減速機付モータで駆動す
る構造が有利に採用できる0走行レール(4)ニはそれ
に沿って左右方向に自由走行により移動可能な台車αQ
を装架L1この実施例では台車叫に巻上クインチ(ロ)
を装備し、クインチ(ロ)から下方に延びる巻上下ワイ
ヤロープ@の7ツク0をR膜管(1)Kセントした移動
台車′a◆の・・フカ(至)に掛合せる。そして移動台
JEα◆の直下に検査装置Mを連結するO
検量装置u1は超音波探傷分野の技術により構成される
ものであり、それを吹付けfc立設管(1)の軸芯のま
わりに回転自在η探触子を有し、まfc2つ割&造とし
て列設された立設管(1)に取付替できるようKなって
いる。そして管長手方向には移動台車1241とともに
ワイヤロープ曹を介し巻上クインチ(ロ)の巻込み、巻
戻しにより上下され昇降自在である。t、JIEII台
車Q4はワイヤロープ(6)が切れても検査装置(至)
を落下させないための安全装置が具備されたものであり
、ワイヤロープ(6)の切断(九よりカムが回動してX
L設膜管1)K噴込みa*夾にその場で停止するようK
なっている口
第2図は本発明の第2実施例を示し、第1図第1実施例
と均等の各部は同−符8VCより示し。The present invention has been made in order to solve the above-mentioned causes of work in the prior art, and the method will be explained in detail below with reference to the attached drawings, together with the device configuration. The first embodiment is shown, and the R membrane tube (1) is 7-ohm.
3). Stand pipe (IA) (IB
) are selected as the standing pipes at both ends, and a running rail (4) extending horizontally across the range of 15 standing pipes (1) K is selected, and 1.
Drive device)C51)C5B) respectively with R membrane tubes (
IA) (IB) and traveling trolley (5A) (5B)
From K, lift the running rail (4) in a horizontal position to the top of the crotch tube group ``i'' and keep it fixed in that position.
5A) (5B) The structure shall have enough strength to not fall due to the load from the V1 running rail (4). As an example, as shown schematically in the figure, a vehicle frame (a) (7) that sandwiches R membrane tubes (IA) (IB) is connected with a cross link (8), a spring, etc., and four wheels (9) equipped with VC are connected. ) to stand pipe (IA)
0 traveling rail (4) which can advantageously employ a structure in which it is pressed against (IB) and driven by a motor with a wa-ohm speed reducer is a trolley αQ that can freely travel along it in the left and right directions.
In this example, a quinch (ro) is mounted on the truck.
Equipped with a quinch (b), hook the winding up and down wire rope @ 7 ts 0 extending downward from the R membrane tube (1) to the hook (to) of the movable trolley 'a◆'. Then, the inspection device M is connected directly under the moving table JEα◆. It has a rotatable η probe and is designed so that it can be attached to the standing pipes (1) arranged in a row as a two-part structure. In the longitudinal direction of the tube, the tube can be raised and lowered by winding and unwinding with a winding quinch (b) via a wire rope along with a movable cart 1241. t, JIE II trolley Q4 does not work even if the wire rope (6) breaks, the inspection device (to)
It is equipped with a safety device to prevent the wire rope (6) from falling (the cam rotates from the
L membrane installation pipe 1) K injection a*K to stop on the spot
2 shows a second embodiment of the present invention, and parts equivalent to those of the first embodiment in FIG. 1 are indicated by the same reference numerals 8VC.
説明の重複を省略する◎
第2実施例では両端の立設管(lx)(IB) Kそれ
ぞれロック装置(17A) (17B)を収付けて使用
する。このロック装置(17A)(17B)は例えばテ
コ式ブレーキ機構に滑車式倍力機柊を組合せたものとす
る。最初に前実施例で述べた走行台車(57)(5B)
を使用してロック装置(17A) (17B)を立設’
l (1ム) (IB)の上部に押上げる。押上後、走
行台車(5A) (5B)を降下させてもロック装置(
17A)(17B) Kはテコ比率のブレーキ力が働く
のでロック装置(17A) (17B)は降下せず、上
昇位置に1.Ω
こうして走行レール(4)の両端のブラケット(ゝ18
A)(18B)からのワイヤロープ(19A)(19B
)をそれぞれロック装置(17A)(17B)の倍力滑
車C2OA)(20B)K巻掛けて下方VC導き別置の
巻掛装置(21A)(21B) K連結し、巻掛装置(
2mA)(21B) K ヨ!l走行レール(4)を水
平状態のままロック装置(17A)(17B)の直下の
上位まで上昇させその位置に保持する。◎ In the second embodiment, locking devices (17A) (17B) are housed in the standing pipes (lx) (IB) (IB) K at both ends. The lock devices (17A) (17B) are, for example, a combination of a lever type brake mechanism and a pulley type booster. First, the traveling trolley (57) (5B) described in the previous example
Install the locking device (17A) (17B) using
l (1m) Push up to the top of (IB). Even if the traveling trolley (5A) (5B) is lowered after being pushed up, the locking device (
17A) (17B) Since the lever ratio braking force is applied to K, the locking device (17A) (17B) does not descend and is in the raised position. Ω In this way, the brackets (ゝ18) at both ends of the running rail (4)
A) Wire rope (19A) from (18B) (19B)
) are wound around the boosting pulleys C2OA) (20B) of the locking devices (17A) (17B), respectively, and the VC is connected downward to the separately installed winding devices (21A) (21B), and the winding devices (
2mA) (21B) K Yo! 1. Raise the traveling rail (4) in a horizontal state to the upper level directly below the locking devices (17A) (17B) and hold it in that position.
ロyり装v1(+7A) (17B) [n倍力機構v
r 、j: D ツイヤロープ張力か増強されてブレー
キ力が働くので走行レール(4)からの荷重によって降
下することはない。検査装置(6)は前実施例と同様、
走行レール(4)上に左右移動可能な台車α1JKit
けた巻上クィンチ(ロ)K連結され、各立設管(1)
(IA)(IB)に沿い高い位Itまで自在に昇降させ
ることができる。Royry equipment v1 (+7A) (17B) [n boost mechanism v
r, j: D Since the tension of the twist rope is increased and the braking force is applied, it will not fall due to the load from the traveling rail (4). The inspection device (6) is the same as the previous example.
Dolly α1JKit that can be moved left and right on the running rail (4)
Girder hoisting quinches (b) K are connected, each standing pipe (1)
It can be freely raised and lowered along (IA) and (IB) to a high position It.
第3図は本発明の第3実施例を示し、前実施例と均等の
部分は同−符8により示す。前第1実施例および第2実
施例においては、台車αQK第4図に示すような巻上ワ
インチ(ロ)を装備しその巻胴(2)からのワイヤロー
プ(6)K移m台阜a◆、検査装置四を連結して検査装
置αQを立設管(1)あるいは(IA) (IB) V
C昇降自在としているが、この第3実施例では巻上クィ
ンチは省略され、台車αOのフック0を移動台車a樽の
・・ンカ四に直接掛合わせ、移動台車Q41 Vc連結
した超音波検査装置鱒は走行台車(5A) (5B)が
両端のM膜管CIA) (IB)に沿い走行レール(4
)と共に昇降することによりその間の立設間(1) V
C昇降自在となるようになっている。FIG. 3 shows a third embodiment of the present invention, in which parts equivalent to the previous embodiment are designated by the same reference numeral 8. In the first and second embodiments, the carriage αQK is equipped with a hoisting windch (b) as shown in FIG. ◆, connect the four inspection devices and install the inspection device αQ in the vertical pipe (1) or (IA) (IB) V
However, in this third embodiment, the hoisting quinch is omitted, and the hook 0 of the cart αO is directly hooked on the hook 4 of the moving cart A barrel, and the ultrasonic inspection device is connected to the moving cart Q41 Vc. The trout is carried along the running rail (4
) by going up and down along with the standing distance (1) V
C It is designed to be able to be raised and lowered freely.
上記各実施例を通じて立役管から立設管への検査装置Q
りへの取付替および検査装置tに)の当該n膜管沿いの
昇降の作用は既に説明されているとおりである。Inspection device Q from stand pipe to stand pipe through each of the above embodiments
The operation of reinstallation to the tube and the lifting and lowering of the inspection device (t) along the n-membrane tube are as already explained.
本発明によると、検査装置の取付替に際して検査装置1
1(6)および移動台車燵◆の重1は台車(至)を介し
走行レール(4)に支承δれるので取付替は軽易な力で
実施することができるので作業能率は格段に上る。また
台車a1は検査装置09を収付ける立設管の直上の個所
に走行レール(4)上を自由に追随走行して来るので′
iL設管膜管)および支保の立設管(IA) (夏B)
等には横方向力が作用せず炉天井(2)、炉底(S)
VI−過大な力が作用することが防止される等の効果が
同時に得られる。According to the present invention, when replacing the inspection device, the inspection device 1
1 (6) and the weight 1 of the movable trolley ◆ is supported by the traveling rail (4) via the trolley (to), so that the installation and replacement can be carried out with light force, and the work efficiency is greatly improved. In addition, the trolley a1 freely follows on the traveling rail (4) directly above the standpipe that houses the inspection device 09.
iL installation membrane pipe) and support standing pipe (IA) (Summer B)
No lateral force acts on the furnace ceiling (2), furnace bottom (S), etc.
VI- At the same time, effects such as preventing excessive force from acting are obtained.
第1図は本発明の第1実施例の正面図、第2図は本発明
の第2実施例の正面図、第3図は本発明の第3実施例の
正面図、第4図は台車、巻上クインチの1例の縦断側面
図である。
(1) (IA)(IB)(IA)(IB)・・XL設
膜管(2)・・炉天井、(3)・・炉底、(4)・・走
行レール、(5ム)(5B)(5A’05B’)・・走
行台車、(6) (7ン・・車枠、(8)・・クロスリ
ンク% (9)・・車輪、αIQQ・・台車、四e・巻
上クインチ、@―・ワイヤロープ、(至)□□□・・フ
ック、(141・・移動台車、’cq・・・・ンカ、q
l・・超音波探傷検査装置% (17AX17B)・・
ロック装置s (tsxXtgB)・・ブラケット、(
夏9A)(19B)−−ワイヤロープs (zo*X2
on) −−倍力滑車+ (21A)(21B)・・巻
揚装置、四・・巻胴。Fig. 1 is a front view of the first embodiment of the present invention, Fig. 2 is a front view of the second embodiment of the invention, Fig. 3 is a front view of the third embodiment of the invention, and Fig. 4 is a front view of the trolley. FIG. 2 is a vertical sectional side view of an example of a winding quinch. (1) (IA) (IB) (IA) (IB)...XL membrane pipe (2)...Furnace ceiling, (3)...Furnace bottom, (4)...Travel rail, (5mm) ( 5B) (5A'05B')...Travelling bogie, (6) (7n...car frame, (8)...cross link% (9)...wheels, αIQQ...bogie, 4e hoisting quinch, @--Wire rope, (to) □□□...Hook, (141...Moving trolley, 'cq...Nka, q
l...Ultrasonic flaw detection inspection device% (17AX17B)...
Lock device s (tsxXtgB)...Bracket, (
Summer 9A) (19B)--wire rope s (zo*X2
on) -- Boosting pulley + (21A) (21B)...Hoisting device, 4...Hoisting drum.
Claims (4)
超音波探傷検査装置を管長手刀向に昇降自在とした立設
管検査方法において、2本以上の列設された立設管にま
たがる走行レールを水平に保って昇降可能なように両端
の2本の″i股管に9付ける工程、該水平走行レール上
を左右移動可能な台車に検査装置をと9っけ立設管毎に
検査装置をっけかえて検査することを特徴とする立設管
検査方法〇(1) In a standing pipe inspection method in which an ultrasonic flaw detection inspection device having a probe that can freely rotate around the axis of the standing pipe can be raised and lowered in the longitudinal direction of the pipe, two or more standing pipes are arranged in a row. The process of attaching 9 to the two crotch pipes at both ends so that the running rail that straddles the rail can be raised and lowered horizontally, and the inspection device is attached to a trolley that can be moved left and right on the horizontal running rail, and the 9 erect pipes are installed. A standing pipe inspection method characterized by changing the inspection device every time the inspection is performed.
本の立設管に対し水平状態を保って昇降可能な走行レー
ルと、走行レール上を左右移動可能な台車と、該台車に
連結され管軸芯のまわりで回転自在な探触子を有し2つ
l!PJ構造で立設管に付けかえ可iな検査装置とから
なる立設管検査装置◎(2) Two or more standing pipes installed in a row are straddled by 9 at both ends.
It has a running rail that can be raised and lowered while maintaining a horizontal state with respect to the standing pipe, a trolley that can move left and right on the running rail, and a probe that is connected to the trolley and can rotate freely around the pipe axis. Two! Standing pipe inspection equipment consisting of an inspection device that can be replaced with standing pipes with PJ structure◎
ltX付けられていることを特徴とする特許請求の範囲
第2項に記載の立設管検査装置。(3) The inspection device connects to the truck K via the hoisting quinch on the truck.
The standpipe inspection device according to claim 2, characterized in that it is marked with ltX.
いることを特徴とする待tF請求の範囲第2項記載の立
設管検査装置。(4) The standpipe inspection device according to claim 2, wherein the inspection device is directly connected to and suspended from a trolley.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP58229643A JPS60122369A (en) | 1983-12-05 | 1983-12-05 | Method and device of inspection for vertically set tube |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP58229643A JPS60122369A (en) | 1983-12-05 | 1983-12-05 | Method and device of inspection for vertically set tube |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS60122369A true JPS60122369A (en) | 1985-06-29 |
JPH0135299B2 JPH0135299B2 (en) | 1989-07-25 |
Family
ID=16895410
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP58229643A Granted JPS60122369A (en) | 1983-12-05 | 1983-12-05 | Method and device of inspection for vertically set tube |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS60122369A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61176849A (en) * | 1985-02-01 | 1986-08-08 | Hitachi Ltd | Automatic ultrasonic flaw detector for piping group |
CN106078565A (en) * | 2016-08-11 | 2016-11-09 | 菲舍尔航空部件(镇江)有限公司 | Ultrasonic C-Scan instrument clamps |
-
1983
- 1983-12-05 JP JP58229643A patent/JPS60122369A/en active Granted
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61176849A (en) * | 1985-02-01 | 1986-08-08 | Hitachi Ltd | Automatic ultrasonic flaw detector for piping group |
JPH0574784B2 (en) * | 1985-02-01 | 1993-10-19 | Hitachi Ltd | |
CN106078565A (en) * | 2016-08-11 | 2016-11-09 | 菲舍尔航空部件(镇江)有限公司 | Ultrasonic C-Scan instrument clamps |
Also Published As
Publication number | Publication date |
---|---|
JPH0135299B2 (en) | 1989-07-25 |
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