RU2272268C2 - Device for holding sample-taking slit-type pipe on pipelines for liquid - Google Patents

Abstract

FIELD: engineering of equipment for taking samples of liquid from pipelines, possible use in oil industry and other industrial branches, where high precision of admixture separation is required.

SUBSTANCE: device for holding sample-taking pipe of slit type on pipelines for liquid includes elements of sample-taking pipe body, flange fixture on mounting branch pipe of output assembly on top of pipeline and sample draining line. Sample-taking pipe of slit type synchronization equipped with second holding assembly, positioned on opposite side of pipeline oppositely to output assembly and made in form of socket with holding elements for supporting ending, provided on body of sample-taking pipe. Fixture on output assembly is mad adjustable in connection of body of sample-taking pipe with intermediate disk, held tight between flanges of mounting branch pipe and sample draining line.

EFFECT: improved mounting precision of sample-taking pipe due to possible correction of its alignment during assemblage and following technical maintenance.

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Description

The invention relates to techniques for sampling liquids from pipelines, can find application in the oil and other industries where high accuracy in determining impurities is required. From the information about the analogues given below, slotted type sampling tubes used in such conditions undergo a mechanical stress in the fluid flow, which determine not only their wall thickness for strength reasons, but also affect the representativeness and quality of the samples taken. However, the constructive solutions of the attachment device of a sampling tube of this type in the known analogues did not find sufficient development, which required additional analysis, the results of which are the basis of the invention.

A known mounting scheme for a sampling tube of a slotted type of device for sampling liquid from a pipeline according to the patent of Russia 2085893 C1, class. 6 G 01 N 1/10, 1997, made according to the drawing and description to the patent as a cantilever mount of a sampling tube on a cover mounted on a pipe nozzle and having a sampling fitting. The device is characterized in that the diameter and length of the sampling tube are selected from a ratio of 1: 12-30. The claimed elongation is justified by an increase in the quality of the sample, achieved by the oscillations of the tube of such an elongation with a frequency of 30-180 Hz under the action of the incident flow. As an example, the calculation of the natural vibration frequency of a rod with a length d = 508 mm and a thickness t = 33 mm is given by the formula f _article = 8.45 × 10 ⁵ t / d ² = 108 Hz.

Without questioning the conducted experiments on sampling and the magnitude of the elongations of the sampling tube and considering only the issues of its fastening, it is necessary to note a not entirely successful interpretation of the mechanical effects on the console. According to the well-known literature: The Handbook in three volumes, “Strength, Stability, Oscillations,” edited by I. A. Birger and Y. G. Pankov. Publ. "Engineering", Moscow, 1968, p. 245, 246, 478, 479; Proceedings of the Moscow Energy Institute. Issue 32. Publ. MPEI, 1959, p. 116, 117; book of academician Yu.A. Shimansky "Dynamic calculation of ship structures". State Union. Publ. Ship repair industry, Leningrad, 1963, pp. 44-47, ″ ... vibrations of poorly streamlined bodies ... such as a circular cylinder ... of a cable ... excited by a stream of heavy fluid are better described as forced vibrations, and the oscillation frequency is an almost linear function of the flow velocity ... Natural oscillations decay quickly ... then only forced oscillations remain. "The calculations based on these works showed that the oscillations of the sampling tube body should occur at an order of magnitude lower frequencies and in the transverse However, in connection with this, the console mount does not have any positive effect in comparison with other mounting schemes.

It is also known to mount a sampling element of a slotted type of a device for sampling liquid from a pipeline according to the patent of Russia 2141105 C1, class. 6 G 01 N 1/10, 1999, made according to the drawing and description to the patent on the device outlet assembly on top of the pipeline according to the cantilever mounting pattern of the sampling element on the lid mounted on the mounting pipe, and even higher with a sampling fitting. One of the differences of the device is that a tube is used as a sampling element, the average wall thickness of which from the side of the sampling hole does not increase from the placement point in the sampling tube pipeline and does not exceed 5 mm ... which, according to the description, makes it possible to choose a sampling a tube with a wall thickness that provides the fracture strength necessary for it, and also reduce the influence of factors under the influence of which silting of sampling holes occurs during the exp luatation.

However, this - one of the main distinguishing features of the device, is in conflict with the console mounting scheme of the sampling tube. With this design for pipelines with a diameter of DN 700-1400 mm, at flow rates calculated according to the "Norms for the technological design of main pipelines". RD 153-39.4-113-01, 2002, p. 29, large alternating loads act in the sealing of the sampling tube. So, for example, already at a flow velocity of 5 m / s, with DN = 1000 mm, 42 × 3.5 mm are applied to the casing of the sampling tube with cantilever fixing, in the seal - bending moment ± 51.14 kgf × m with a frequency of 3.7 Hz and when closing one end and the freely supported second end, the bending moment is ± 1.62 kgf × m at the same frequency. The difference in load is so great that it does not require further criticism of the analog attachment, taking into account the stated requirements of minimizing the wall thickness of the sampling tube.

In addition to these devices, some structural elements are known from the description of a method for sampling liquid from a pipeline and a device for its implementation according to Russian patent 2144179 C1, cl. 7 G 01 N 1/10, 2000. One of the design differences is not only the placement of a slotted sampling tube type in the pipeline through the stuffing box with shut-off valves, but according to the drawing and description to the patent, it is additionally installed on the sampling pipe in the area of the junction of the mounting neck of the outlet unit and the safety ring pipe with amo a rtizer. Considering such elements from the point of view of the present invention, it should be noted that any options for additional support in this area cannot lead to a radical reduction in load comparable to the above, since the cantilever mounting scheme is maintained.

A device for attaching a sampling tube of a slotted type according to GOST 2517-85 with a change No. 1-98, relating to methods for sampling oil and oil products, is taken further as a prototype of the invention. GOST 2517-85 stipulates the upper location of the outlet of the sampling device, and according to change No. 1-98 and the attached drawings, including with a slotted sampling tube fixed in the form of a console by welding on the lid mounted on the flange of the mounting pipe, higher to the sampling case the tube is welded to the flange of the sampling line. In change No. 1-98, requirements for the position of the sampling tube are specified. GOST 2517-85 also contains general requirements for sampling devices: the design must be strong enough to withstand bending moments under the influence of the maximum flow rate in the pipeline, withstand vibration, and also create minimal disturbances in the flow.

The disadvantages of mounting the prototype include, first of all, the technical complexity of implementing a durable thin-walled sampling tube of a slotted type with cantilever mounting on pipelines of large diameters and at high flow rates, especially the design that resists movement and vibration. In addition, the provision of a given position of the sampling tube during assembly practically “blindly”, without adjusting this position, requires either very high manufacturing accuracy, or these requirements are not actually ensured.

The objective of the invention is to develop a fastening device that provides the necessary strength and performance characteristics of a slotted sampling tube due to the transition from a cantilever to a two-support mounting scheme and improves installation accuracy due to the possibility of adjusting the position of the sampling tube.

The problem is solved in that in the fastening device of the slotted sampling tube on liquid pipelines, including the sampling tube body elements, flange mounted on the mounting pipe of the outlet assembly on top of the pipeline and the sampling line, the slotted sampling tube is equipped with a second mounting knot located on the opposite side the pipeline opposite the outlet assembly and made in the form of a socket with fixing elements of the supporting tip attached to the body of the sampling tube, and mounted on the outlet assembly made adjustable in the connection of the body of the sampling tube with an intermediate disk, pinched between the flanges of the mounting pipe and the sampling line.

The invention is illustrated by drawings:

Figure 1 is a General view of the mounting device sampling tube slot type on the pipelines for liquids;

Figure 2, 3 - the second and upper attachment points of the sampling tube, the 1st exemplary embodiment;

Figure 4, 5 - the second and upper attachment points of the sampling tube, the 2nd exemplary embodiment.

The device for attaching a slotted sampling tube to oil and oil products pipelines shown in FIG. 1 includes elements 1 of a sampling tube body 2, a flange fastening 3 on a mounting pipe 4 of an outlet assembly 5 located on top of the pipeline 6, and a sampling line 7. On the opposite side of the pipeline 6, opposite the exit node 5, there is placed a second attachment point 8 of the sampling tube, made in the form of a socket 9 with fixing elements 10 attached to the housing 2 of the sampling tube of the supporting tip 11, one of the fastening elements 1. In this case, the supporting tip 11 has a cylindrical girdle 12, turning into a cone 13, blunted in the base 14, the design of which can be implemented in various ways, one of them is shown as an example in the drawing. The fastening on the outlet assembly 5 is made adjustable in the connection 15 of the sampling tube body 2, with an intermediate disk 16 clamped between the flanges 17 of the mounting pipe 4 and the sampling line 7 in the form of flange fastening 3. Moreover, in this area, the threaded portion 2 of the sampling tube is attached as another fastener 1. A slot 20 is made at the end face 19 of the threaded portion 18 for orienting the sampling tube in a predetermined direction along the axis of the pipeline 6. Accordingly, a coordinate hole is provided on the flange 17 of the mounting pipe 4 or a mark “0” is applied.

The degree of fixation of the supporting tip 11 in the second attachment node 8 and the possibility of adjustment in the attachment 15 of the attachment to the outlet assembly 5 depend on specific design solutions, some examples of which are shown in FIGS. 2, 3, 4, 5. FIG. 2 shows an example of a second embodiment the attachment point 8 of the sampling tube in the form of a socket 9 of the supporting tip 11 with the fixing elements 10 - an opening 21 for receiving the cone 13, a cylindrical girdle 12 and restricting lateral movements of the latter, and a bottom 22 for restricting the position of the base 14. In FIG. Rui, for changing the position of the sample probe tube height and along the axis line 6 for fixing the output node 5. The intermediate plate 16 is formed with a threaded hole 23 is mounted on the threaded portion 18 of the housing 2 and the sample probe tube locknut 24 is fixed.

The assembly and fastening of the sampling tube slot type according to Fig.1, 2, 3 are as follows. Prepare for assembly, remove the elements of technological protection of the cavity of the pipeline 6 (plug or film) from the mounting pipe 4 of the output node 5. The sampling tube through the mounting pipe 4 is lowered by the element 1 - the supporting tip 11 of the housing 2 into the outlet 5 until its cone 13 and the cylindrical belt 12 get into the hole 21 of the socket 9 of the second attachment 8 and the base 14 contacts with the bottom 22 of the fixing elements 10. the threaded part 18 of another element 1 of the housing 2 of the sampling tube extends outside the plane of the flange 17 of the mounting pipe 4. Pressing to the bottom 22 of the housing 2 of the sampling tube, screw, forming a connection 15, the intermediate disk 16 with a threaded hole 23 on the threaded part 18 against the stop in the flange 17 of the mounting pipe 4. Knowing the actual dimensions from the flange 17 of the mounting pipe 4 to the opposite surface of the cavity of the pipe 6 and to the bottom 22, the dimensions of the sampling tube and supporting tip 11, unscrew the housing 2 of the sampling tube several turns from the intermediate drive 16 and achieve its position in height, corresponding to the specified. Holding the casing 2 of the sampling tube at the end 19, fix the assembly with the lock nut 24 and turn it together with the intermediate disk 16 around the longitudinal axis until the position of the slot 20 and the coordinate hole or mark “0” are aligned on the flange 17 of the mounting pipe 4. Check the assembly by removing the sampling tube from the pipeline 6, and lower it again into place, controlling the possibility of installation in the socket 9 of the attachment node 8 with effort by hand. Install on the intermediate disk 16 and tighten the counter flange 17 of the sampling line 7 using standard components of the flange mount 3 (sealing gaskets, studs, nuts).

In case of inadmissibility under the loading conditions of the loops of the supporting tip 11 in the second attachment 8 due to the gaps between the cylindrical girdle 12 and the hole 21, for example, an open socket 9, shown in FIG. 4, is used. As the locking elements 10, a nut 25 is mounted on a thread made in the socket 9, with latches 26 (studs with locknuts are shown), for example four, passed through nut 25, and between them through the control holes 27. At the same time, the latches 26 are directed into the grooves 28, made on the cone 13 of the supporting tip 11. One of the grooves corresponds in the direction to the position of the slot 20 at the top of the sampling tube, opposite it on the base 14 in the visual inspection zone through the central hole 27 is marked “0”. The same mark is made inside the socket 9, closed by a sealed cover 29.

If it is necessary to adjust also the angular position of the axis of the sampling tube, a mount on the outlet assembly 5, shown as an example in FIG. 5, is used. The connection 15 is made in the form of a hinge 30 containing an intermediate disk 16 with a smooth central hole 31, screws 32, for example four, and a feed cone 33, and a guide nut 35 mating with it, which is freely placed on the threaded part 18 of the sampling tube body 2 with holes 36 through which screws 32 are passed. All connections are locked and locked, screws 32 with lock wire 37, guide nut 35 with lock nut 24.

The assembly and fastening of the slotted sampling tube according to Figs. 1, 4, 5 is carried out after the preparation described above, in addition, the sealed cover 29 is removed from the socket, the nut 25 is turned out by 2-3 turns, and the clamps are turned out by 2-3 turns 26.

The sampling tube through the mounting pipe 4 is lowered, as described above, until it contacts the nut 25 in the socket 9 of the attachment 8. Turning the nut 25 through visual inspection through the holes 27, knowing the dimensions of the supporting tip 11 and its parts, as well as the actual position of the socket 9 relative to the surface of the cavity of the pipeline 6, establish a sampling tube in height at a predetermined position. To assemble the hinge 30 of the connection 15, the intermediate disk 16 with the inlet cone 33 upward hole 31 is advanced along the threaded part 18 until the flange 17 of the mounting pipe 4 touches. The sampling tube is rotated around the longitudinal axis until the marks “0” are aligned on the base 14 of the supporting tip 11 and on the inner surface nests 9. Holding the body 2 of the sampling tube at the end 19 and for the oriented slot 20, screw the guide nut 35 with a threaded hole 23 along the threaded part 18 until the spherical segment 34 and the entry cone 33 contact. screw the intermediate disk 16 in its plane for screwing through the holes 36 of the guide nut 35 of the screws 32. Rotate the screws 32 to adjust the position of the casing 2 of the sampling tube, making sure that the intermediate disk 16 without gaps lies on the flange 17 of the mounting pipe 4. Screw the lock nut 24 onto guide nut 35, luring the hinge 30. Check the assembly by removing the sampling device from the pipeline 6, lower it again into place, controlling the possibility of installing the sampling tube in the socket 9 of the attachment node 8 with effort by hand. The position of the slot 20 is monitored. The screws 32 are checked by the locking wire 37. A sampling line 7 is assembled with the intermediate disk 16 pinched, as described in the first example. The latches 26 of the locking elements 10 are screwed into contact with the grooves 28 of the cone 13, provide their control, close the socket 9 with a sealed cover 29.

In operation, to ensure maintenance and revision, the pipeline 6 is closed, oil from the vertical part of the sampling line 7 is discharged into the pipeline 6 when it is drained and, disassembling the joint of the flanges 17, free access to the sampling tube. Then it is removed, the necessary work is carried out without disassembling the connection 15 and installed into place with effort by hand and ensuring the orientation of the slots 20. After that, the sampling line 7 is collected in the reverse order.

The combination of mounting options on the second node 8 and the upper node of the output 5 - Fig.1, 2, 3 and Figs. 1, 4, 5 are given in the examples conditionally. In practice, other combinations of elements are possible. The choice of design option depends to a large extent on the technological capabilities of a particular production and may be different for different manufacturers.

During operation, the two-support fastening of the slotted sampling tube ensures its strength and reliability for a given service life with the minimum possible wall thickness of the case in comparison with the console prototype, and also provides the required position of the sampling tube during assembly and subsequent maintenance.

To date, several different sets of the proposed device have already been manufactured and put into operation at metering stations for large diameter pipelines.

Claims (1)

A device for attaching a slotted sampling tube on liquid pipelines, including elements of a sampling tube body, a flange mount on the mounting pipe of an outlet assembly on top of the pipeline and a sampling line, characterized in that the slotted sampling tube is equipped with a second mounting node located opposite from the opposite side of the pipeline the outlet unit and made in the form of a nest with fixing elements for the supporting tip attached to the body of the sampling tube, and the mount on the outlet unit ying adjustable in a compound body sample probe tube with an intermediate disc clamped between the flanges of the mounting tube and exhaust line samples.

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