RU192671U1 - DEVICE FOR MONITORING THE STATE OF FOAM POLYURETHANE INSULATION AND COPPER CONDUCTORS-INDICATORS IN PIPELINES OF HOT WATER AND STEAM - Google Patents

Abstract

The device is designed to monitor the condition of polyurethane foam insulation and copper conductors-indicators of hot water and steam pipelines. The technical result of the proposed device is to increase the accuracy and reduce the localization time of the humidification section and to predict the humidification of the heat-insulating layer of the heat pipe of hot water and steam in the early stages while simplifying diagnostics due to creating equal wave impedance forming a homogeneous passage of the test signal in copper conductors-indicators of pipelines with a length of up to 5 km in a flat three-core cable insulated from styrene temoelastoplast on the basis of polyesters equal in diameter to 1.0-2.0 mm and the distance in the cable between the veins equal to 5-38 mm. This task is achieved by the fact that a device for remote monitoring of the state of the polyurethane foam insulating layer and the indicator wires of the heat pipes of hot water and steam, consisting of two copper indicator wires located in the insulation layer of pipelines passing the entire length of piping, bellows, the fixed shield supports and end members, where one of the conductors is a signal and the other transit; as a means of connecting the indicator conductors at the control and transit points, a connection element in polymer insulation was used, and at the transit points the signal conductor of the pipelines is connected to the signal conductor of the subsequent pipeline through the connection element, and the transit conductor is also connected through the connection element through the connection element, and at the control points the signal and transit conductors through the connection element are led out to the control unit, and the connection element in the places of control and transit is made in the form of a flat three-wire A copper cable in polymer insulation containing three copper conductors, each with a diameter of 1.3-1.5 mm, is parallel to each other at a distance of 6-28 mm, and is additionally installed in bellows expansion joints, fixed shield supports at the exits end elements of the pipeline. 2 of FIG.

Description

The device is designed to monitor the condition of polyurethane foam insulation and copper conductors-indicators of pipelines of hot water and steam.

Currently, to monitor the state of wetting of polyurethane foam insulation and copper conductors-indicators of hot water and steam pipelines, an online remote control device (UEC) is used to humidify the heat-insulating layer of heat conductors based on coaxial cable RK-150-7-31 with wave resistance (Zvk) = 150 ohms and matching device. (Instructions for the design and installation of operational remote control systems for wetting polyurethane foam insulation (PUF) of pre-insulated heat pipes (in addition to the code of rules SP 41-105-2002) dated 06.06.05, p. 6-8).

The device for operational remote control (UEC) for moistening polyurethane foam insulation (PUF) of pre-insulated heat conductors consists of copper conductors - indicators (signal and transit) in the heat-insulating layer of the heat conduit and a connection element including a coaxial cable of the grade RK-150-7-31 with corrugated steel core in polyethylene insulation and matching device used to match the wave resistance of the coaxial cable RK-150-7-31 with the wave resistance of copper conductors cators.

This device does not allow to accurately localize the wetting section of the heat-insulating layer, especially with a significant length of the pipeline, due to the heterogeneity of the test signal in the coaxial cable RK-150-7-31 and copper conductors-indicators (signal and transit) in the heat-insulating layer of the heat conduit, which is due to the different diameter of the conductors (in RK-150-7-31 = 0.25 mm; copper conductor indicator = 1.4 mm), the difference in the wave impedances of the coaxial cable RK-150-7-31 and the copper conductor indicator in heat the insulation layer of the pipeline, the difference in the propagation time of the signal in the line, the matching device is a coaxial cable and copper conductors-indicators, as well as due to the significant attenuation of the probe pulse due to the multiplicity of switching. In this case, during refractometry, when a test signal passes through the switching sections, a coaxial cable-matching device and a matching device-conductor-indicator, a group of different-amplitude peaks located above and below the isoline are recorded, which can mask or simulate the wetting areas of the heat-insulating layer. In addition, the installation of matching devices complicates the installation process, and the polyethylene sheath of the cable RK-150 and operating conditions lead to frequent breakdowns of the system.

The technical result of the proposed device is to increase the accuracy and reduce the localization time of the humidification section and predict the wetting of the heat-insulating layer of the heat conduit of hot water and steam in the early stages while simplifying diagnostics by creating equal wave resistance forming a uniform passage of the test signal in copper conductor-indicator pipelines with lengths up to 5 km in a flat three-core cable in insulation from styrene-based thermoplastic elastomer polyesters equal in diameter to 1.0-2.0 mm and the distance in the cable between the cores is 5-38 mm.

This object is achieved in that the device for remote monitoring of the state of the polyurethane foam insulating layer and the indicator wires of the heat pipes of hot water and steam, consisting of two copper indicator wires located in the insulation layer of pipelines running along the entire length of the pipelines, bellows expansion joints, fixed shield supports and end elements, where one of the conductors is signal and the other is transit, and as a means of connecting the indicator conductors in The control and transit channels used a connection element in polymer insulation, and in the places of transit the signal conductor of the pipelines is connected to the signal conductor of the subsequent pipeline through the connection element, and the transit conductor is also connected through the connection element, and in the places of control the signal and transit conductors through the connection element in the control unit, while the connection element in the places of control and transit is made in the form of a flat three-core copper cable in polymer insulation, containing of three copper conductor, each having a diameter of 1.3-1.5 mm in parallel spaced apart at a distance of 6-28 mm, and is additionally inserted into bellows compensators shield supports fixed at the outputs terminal elements in the pipeline.

In FIG. 1 is a diagram of a device for operational remote control of the wetting of a layer of polyurethane foam insulation of heat pipes of hot water and steam, including bellows expansion joints, fixed shield supports and end elements with a flat three-wire cable installed, where:

1. The pipeline.

2. A copper conductor-indicator of the pipeline (one of which is a signal, and the other is transit, respectively).

3. The connection element in the form of a flat three-core copper cable in insulation from styrene thermoplastic elastomer based on polyolefins (Tefabloc brand TO CA).

4. Place of transit.

5. Place of control.

6. The control unit.

7. The measuring device.

8. Fixed shield support.

9. Bellows expansion joint.

10. The end element of the pipeline.

11. The switching point.

Along the entire length of the pipeline (1), insulation conductors (signal and transit, respectively) (2), commuting in the places of transit (4) and control (5) with a flat three-core copper cable with a diameter of 1.0-2.0 mm in insulation from styrene thermoplastic elastomer based on polyolefins (Tefabloc brand TO CA) (3). In the place of control (5), a control unit (6) is installed, to which the measuring device (7) is connected. A flat cable (3) installed in a fixed shield support (8), a bellows expansion joint (9), an end element (10) is connected at the switching points (11) with a conductor - indicator of the pipeline (2).

In FIG. 2 shows a diagram of the connection element (3) in the form of a flat three-core copper cable, in insulation from styrene thermoplastic elastomer based on polyolefins (Tefabloc brand TO CA) for the system of on-line remote control of the humidification of the heat-insulating layer of hot water heat pipes, where: three copper conductors, for example d = l, 4 mm, are arranged parallel to each other at a distance of, for example, 10 mm, depending on the required wave resistance, and are coated with a single-layer insulation of styrene thermoplastic elastomer based on polyolefin s (Tefabloc brand TO CA).

The principle of operation of the remote control device for moistening the heat-insulating layer of the hot water and steam pipeline is carried out on the basis of a connecting element in the form of a flat cable (3) placed sequentially in the control unit (6) in fixed shield supports (8), bellows expansion joints (9), at the output from end elements (10) of pipelines and at switching points (11).

The test signal supplied from the measuring device (7) through the control unit (6) passes through a flat three-core copper cable (3), having equal wave impedance, forms a uniform passage of the test signal in the copper conductors-indicators on the studied section of the hot water and steam pipeline (up to 5 km). The reflected pulse between the pipeline (1) and the indicator conductor (2) makes it possible to detect inhomogeneous wave resistance of the indicator conductors in the heat-insulating layer of the pipelines. Heterogeneity occurs when the insulation is wet or the indicator conductors are broken. Even the slightest wetting of the thermal insulation leads to a sharp drop in resistance and requires an operative search for the wetting point. The commutation of the conductors of the connection element (3) in the control (5) and transit (4) places with the signal and transit pipe conductors (2) is made without matching devices, directly. Then the cable is led out to the control unit (6) where the operator connects the measuring device (7).

The flat three-core cable for the control system allows with high accuracy and reduced time to determine the point of humidification or breakage without the use of matching devices, which is impossible when using a conventional coaxial cable. It is possible to take clear reflectograms without signal attenuation and unnecessary peaks at the control and transit points, which ensures good “visibility” of the pipeline and the ability to accurately localize the defect location.

If the distance between the three conductors is less than 5 mm or more than 38 mm, and the diameter of the conductor is less than 1.0 mm or more than 2.0 mm, then the possibility of taking clear reflectograms disappears, at the control and transit points, extraneous peaks appear that make it difficult "Visibility" of the pipeline, which leads to erroneous localization of the defect and makes the control system ineffective.

At the same time, the claimed technical solution provides ease of installation and reliability of the system, and also significantly reduces economic costs when installing a system for remote monitoring of the state of the polyurethane foam insulation layer and conductive indicators of the heat conductors.

Claims (1)

A device for remote monitoring of the state of a polyurethane foam insulation layer and indicator wires of hot water and steam heat conductors, including two copper indicator wires located in the insulation layer of pipelines running along the entire length of the pipelines, bellows expansion joints, fixed shield supports and end elements, where one of the conductors is a signal one, and the other is a transit one, and an element has been used as a means of connecting the indicator wires in the places of control and transit connections in polymer insulation, and in the places of transit the signal conductor of the pipelines is connected to the signal conductor of the subsequent pipeline through the connection element, and the transit to the transit also through the connection element, and in the places of control the signal and transit conductors through the connection element are displayed in the control unit, characterized in that the connection element in the places of control and transit is made in the form of a flat three-core copper cable in polymer insulation from styrene thermoplastic elastomer based e poliefinov containing three copper conductor, each having a diameter of 1.0-2.0 mm in parallel spaced apart at a distance of 5-38 mm, and the additional set of bellows expansion joints, stationary shield supports at the outputs of the end elements of the pipeline.

Images