SU964331A1 - Apparatus for monitoring underwater reducers of main pipelines - Google Patents

Description

(5it) DEVICE FOR THE CONTROL OF UNDERWATER TRANSITIONS OF MAIN PIPELINES

Claims (2)

The invention relates to the field of pipeline transport and can be used to control the erosion of the soil underwater crossings of main pipelines. A known system for controlling underwater crossings of main pipelines, consisting of the Krab-2M underwater television equipment with a video monitoring device and an underwater camera, the Landmark 1 underwater locator and the motorboat Cl). The disadvantage of the system is the complexity and cumbersomeness of the equipment; the laboriousness of the field work to control the underwater transitions is high, associated with the use of divers who serve the underwater television camera and the underwater locator. At the same time, the control of soil erosion with the help of television in the long-term. Noah water is difficult to implement. The closest technical solution to the present invention is a device for monitoring the erosion of soils above the pipeline at an underwater passage, containing a source of electrical current and sensors with reed switches mounted on the pipeline. The drawback of the device is the possible omission of an electrical signal containing an in (| yrmatsiya about erosion of soil over the pipeline due to aging of the material from which the sensor springs with reed switch are made, and their prolonged stay under the pressure of the soil mass, because of which they may not work in time. The purpose of the invention is to increase the E (|) ability to monitor the state of the underwater passages of main pipelines. The goal is achieved by the fact that the signal supplying device is designed as protective focusing. its sensor, consisting of an optical lens system and connected with an electronic switch to an electronic switch. At the same time, the protective 3,964 focusing sensor is equipped with a means for lighting.Fig 1 shows the underwater junction of the main pipeline, the general view of Fig.2 Means for illumination, general view: in Fig. 3 - block diagram of the device. The device contains a protective-focusing sensor 1, including a system of 2 optical lenses, a sealed housing 3, a light t, a light guide 5, connecting the protective-focusing Sensor with electronic switch 6, electric cable 7 for transmitting information from the electronic switch to control panel 8. The electronic switchboard and the control panel are located outside the water barrier. Protective-focusing sensors 1 are rigidly fixed on the underwater pipe 9 Before it is laid in a trench With the help of a hollow pipe 10. The ET1 / P sensors are placed one above the other at a distance, for example, 0.2-0, m, and places of the most likely soil erosion, as determined by the results of hydrological observations. From each protective-focusing sensor, the optical fibers are laid inside the hollow tube 10 and further to the electronic switch along the upper generatrix of the pipeline to which they are fastened with clamps 11 and are pre-coated with insulating material. The device works as follows. When the soil is eroded over pipeline 9, the level of the bottom of the water body 12 decreases. Then one or more upper, one above the other protective-focusing sensors 1 is released from the ground. It focuses on the daylight, which through the fiber 5 enters the electronic switch 6, which is converted to electric, a signal, amplified by an amplifier (not shown in Fig. 3), and with information about erosion of the soil through the cable 7 enters the console 8 controls Connecting one or another amplifier and, therefore, the security focusing sensor 1 to the cable 7 in the electronic switch 6 is made from the control panel 8. The depth of the water barrier, as well as in the turbid water, the illumination of the diffuse protective-focusing device 1 may be weak, therefore, it is set before it. Artificial illumination k is applied, for example, an LED. If there is a ground between the protective focusing sensor 1 and the backlight k, then no light enters this sensor from it. If, however, the ground is blurred between them, then light sharpened by illumination k enters the protective-focusing sensor 1, the Diff. of the focusing device 1 at this point indicates the emergency position of the pipeline 10. The operating service has at every moment full information on the state of the underwater crossing of the pipeline 10, i.e. The thickness of the soil layer is blurred and what its thickness remains. The proposed device increases the efficiency of control of the underwater crossing of the main pipeline, and therefore, the reliability and safety of its operation. The erosion of the soil over the pipeline is eliminated by additional filling of the soil in a given place without replacing the protective-focusing devices. This significantly reduces the cost of maintaining the underwater crossings of main pipelines in the normal state. The design of the device is simple, cheap to manufacture, reliable in operation, with home control it is carried out continuously in the daytime for the whole year. Claim 1. Device for controlling supply of main pipelines transitions, including an electric current source and signal supply means, characterized in that, in order to increase the efficiency of the device, the signal supply means is made in the form of a protective-focusing sensor consisting of an optical system lenses and light coupled to C1. Monastyrev A.B. Station SPO-1 electronic switch. for surveying underwater crossings 2. The device according to claim 1, about tl and h a-main gas pipelines. Inform. it is so that it is supplied with medium-sat. VNIIGazprom., 1970, No. 5. For illumination 5 2. USSR author's certificate Sources of information, № 815 “2b, k. F 17 D 5/06, 1976 (taken into consideration during the examination of the type).  ,. „ fug. 2