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當(dāng)前位置:首頁(yè)-資訊中心>行業(yè)新聞燃?xì)馊細(xì)釶E管道示蹤線(xiàn)進(jìn)行標(biāo)志的方式

燃?xì)馊細(xì)釶E管道示蹤線(xiàn)進(jìn)行標(biāo)志的方式

來(lái)源:http://m.xqpxqpp.cn/ 發(fā)布時(shí)間:日期:2024-03-21 0

1、地面標(biāo)志

1. Ground signs

在地面相應(yīng)位置上進(jìn)行標(biāo)記,埋設(shè)標(biāo)志、標(biāo)志磚、標(biāo)志貼等。這種方式直觀(guān)易找,但受地面環(huán)境限制,如在快速路上很難設(shè)置。遇道路維修或拆遷等情況,還會(huì)大量丟失標(biāo)志?,F(xiàn)階段地面標(biāo)記物均采用以上標(biāo)志。

Mark the corresponding positions on the ground, bury signs, sign bricks, sign stickers, etc. This method is intuitive and easy to find, but it is limited by the ground environment, such as being difficult to set up on expressways. In case of road maintenance or demolition, a large number of signs will also be lost. At present, all ground markers use the above markings.

2、設(shè)備探測(cè)

2. Equipment detection

一旦地面標(biāo)志丟失,就只好使用設(shè)備進(jìn)行地下管道探測(cè)。對(duì)于金屬管材,一般用金屬探管儀一種將電信號(hào)施加在管道上,然后追蹤電信號(hào)走向的設(shè)備)進(jìn)行路由定位。這種設(shè)備在地下管線(xiàn)少、無(wú)強(qiáng)磁、強(qiáng)電的地方效果較好,但對(duì)于管道密集的區(qū)域(如庭院)或?qū)щ娦圆畹墓艿?如E球墨鑄鐵管),探測(cè)效率會(huì)大打折扣。PE管根本不導(dǎo)電,因此無(wú)法采用此項(xiàng)技術(shù)。我們也試用了其他設(shè)備,如地磁成像儀、地下空腔探測(cè)儀等,但在霸州公司未進(jìn)行實(shí)際應(yīng)用,效果暫時(shí)無(wú)法確定。除此之外,據(jù)了解目前市場(chǎng)上還沒(méi)有一種設(shè)備能在探測(cè)PE管時(shí)達(dá)到理想效果。

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Once the ground signs are lost, equipment can only be used for underground pipeline detection. For metal pipes, a metal probe is generally used for routing and positioning, which is a device that applies electrical signals to the pipeline and then tracks the direction of the electrical signals. This type of equipment works well in areas with few underground pipelines, no strong magnetism, and strong electricity, but for areas with dense pipelines (such as courtyards) or pipelines with poor conductivity (such as E-ductile iron pipes), the detection efficiency will be greatly reduced. PE pipes are not conductive at all, so this technology cannot be used. We have also tried other devices, such as geomagnetic imagers and underground cavity detectors, but they have not been practically applied in Bazhou Company, and the effect cannot be determined temporarily. In addition, it is understood that there is currently no device on the market that can achieve ideal results in detecting PE pipes.

3、金屬薄膜示蹤帶

3. Metal thin film tracer band

在燃?xì)釶E管道上方敷設(shè)金屬薄膜示蹤帶,然后用探管儀進(jìn)行探測(cè)。示蹤帶中的金屬薄膜具有導(dǎo)電性,理論上可以體現(xiàn)出金屬管的特性,但實(shí)際上由于金屬薄膜的截面積太小,導(dǎo)電性不好,受周?chē)饘俟艿栏蓴_大,致使探測(cè)效果非常差,只有在干擾小且距離地面很近的地方才能被探測(cè)到。而且輻射過(guò)程中,每100米需進(jìn)行一次連接,如連接不當(dāng),在后期使用過(guò)程中因土壤沉降會(huì)導(dǎo)致示蹤帶斷裂,進(jìn)而無(wú)法檢測(cè)。

Lay a metal film tracer tape above the gas PE pipeline, and then use a pipe detector for detection. The metal film in the tracer band has conductivity, which theoretically reflects the characteristics of the metal tube. However, in reality, due to the small cross-sectional area of the metal film, its conductivity is poor, and it is greatly affected by the interference of surrounding metal pipes, resulting in very poor detection effect. It can only be detected in areas with small interference and close to the ground. Moreover, during the radiation process, a connection needs to be made every 100 meters. If the connection is improper, the tracer band may break due to soil settlement during later use, making it impossible to detect.

4、金屬示蹤線(xiàn)

4. Metal tracer line

為提高示蹤物體的導(dǎo)電性,我們?cè)褂媒饘偈聚櫨€(xiàn)來(lái)替代金屬薄膜示蹤帶。由于示蹤線(xiàn)的挨線(xiàn)芯是銅,且具有一定的截面積,因此導(dǎo)電性明顯好于薄膜示蹤帶,尤其在剛埋下去的時(shí)候,探測(cè)效果較好。但隨著時(shí)間延長(zhǎng),示蹤線(xiàn)暴露出很大問(wèn)題。a.示蹤線(xiàn)一旦有斷點(diǎn),如施工時(shí)被挖斷自然銹蝕、連接時(shí)沒(méi)接牢等,從斷點(diǎn)往后就無(wú)法被探測(cè)到。b.相對(duì)于其他地下管道或線(xiàn)線(xiàn)路,示蹤線(xiàn)的導(dǎo)電性沒(méi)有它們好,因此造成探測(cè)信號(hào)過(guò)于微弱,以于混淆管道位置。而且抗拉性能差,在定向鉆穿越中無(wú)法敷設(shè)。

To improve the conductivity of tracer objects, we have used metal tracer lines instead of metal thin film tracer bands. Due to the copper core of the tracer wire and its certain cross-sectional area, its conductivity is significantly better than that of the thin film tracer tape, especially when it is just buried, the detection effect is better. But as time goes on, the tracer line exposes significant issues. a. Once there is a breakpoint in the tracer line, such as natural corrosion caused by excavation during construction, or loose connection during connection, it cannot be detected from the breakpoint onwards. b. Compared to other underground pipelines or lines, the conductivity of tracer lines is not as good as theirs, resulting in weak detection signals and confusing the position of pipelines. And the tensile performance is poor, making it impossible to lay in directional drilling crossing.

5、廢舊通信光纜

5. Waste communication optical cables

鑒于金屬示蹤線(xiàn)的缺點(diǎn),廢舊通信光纜可以較好地該問(wèn)題。通信光纜是由若干根〈芯〉光纖(一般從幾芯到幾千芯〉構(gòu)成的纜心和外護(hù)層所組成。光纜中有加強(qiáng)構(gòu)件去承受外界的機(jī)械負(fù)荷,以保護(hù)光纖免受各種外機(jī)械力的影響,從而**了光纜的耐久性。尤其在定向鉆穿越施工中,光纜的強(qiáng)負(fù)荷力可以*完整的敷設(shè)。在300500米間隔處,埋設(shè)檢測(cè)樁,將光纜引檢測(cè)樁內(nèi),方便日后檢測(cè)定位。光纜的缺點(diǎn)是導(dǎo)電性能低于金屬示蹤線(xiàn),受干擾的區(qū)域檢測(cè)效果較差。

Given the drawbacks of metal tracer lines, waste communication optical cables can effectively solve this problem. Communication optical cable is composed of a core and an outer protective layer composed of several to several thousand core optical fibers. There are reinforced components in the optical cable to withstand external mechanical loads, protecting the optical cable from various external mechanical forces, thereby improving its durability. Especially in directional drilling and crossing construction, the strong load force of the optical cable can be fully laid. Detection piles are buried at intervals of 300 to 500 meters, and the optical cable is led into the detection pile for convenient future detection and positioning. The disadvantage of optical cables is that their conductivity is lower than that of metal tracing lines, and the detection effect in disturbed areas is poor.

6、地下管道電子標(biāo)志系統(tǒng)

6. Underground pipeline electronic marking system

電子標(biāo)志系統(tǒng)(ElectronicoMark System).早起源于美國(guó),由3m公司為公共設(shè)施應(yīng)用而開(kāi)發(fā),嚴(yán)格遵循美國(guó)公共勞動(dòng)協(xié)會(huì)(APWA)制定的地下設(shè)施標(biāo)志的規(guī)范,用于對(duì)現(xiàn)場(chǎng)設(shè)施的定位。其工作原理是將電子標(biāo)志器埋設(shè)于管道上方,每個(gè)電子標(biāo)志器內(nèi)都存有一個(gè)..的識(shí)別代碼,如同每個(gè)人的身份證號(hào)碼一樣。電子標(biāo)志器內(nèi)可以自定義儲(chǔ)存管道的重要信息,如相對(duì)位置、埋深、管徑、管材、管道壓力、敷設(shè)日期等。在地面上使用定位設(shè)備(探測(cè)儀)定位電子標(biāo)志器的位置,并讀取儲(chǔ)存信息。

The ElectronicMark System originated in the United States and was developed by 3m Company for public facility applications. It strictly follows the specifications for underground facility signage established by the American Association of Public Workers (APWA) and is used to locate on-site facilities. Its working principle is to bury electronic markers above pipelines, and each electronic marker contains a The identification code of is the same as the ID number of each person. The electronic marker can customize and store important information about pipelines, such as relative position, burial depth, pipe diameter, pipe material, pipeline pressure, laying date, etc. Use positioning devices (detectors) on the ground to locate the position of electronic markers and read stored information.

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