RU2458275C1 - Support and support bed for pipeline - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: support comprises a stand including a lower pipe and an upper pipe telescopically sliding into it, arranged as capable of relative displacement and joined by facilities to compensate pipeline weight arranged in the form of springs. A bed for the pipeline is connected to the upper pipe. A support comprises a facility to lift the upper pipe and an adapter installed on the upper pipe as capable of axial displacement relative to it and equipped with a facility of its fixation on the upper pipe in the specified position. Springs are installed in guide shells fixed on the adapter interact by their upper ends with the adapter, and by their lower ends - with supports connected to the lower pipe. The pipeline support bed comprises two four-level parallelogram mechanisms installed on a horizontal axis placed in a support hole at its opposite sides. Each mechanism has identical distances between axes of hinged joints and includes two long links facing upwards with their free ends joined in pairs with opposite long links by stiffening ribs, and by their lower ends joined with shorter links hingedly installed on a horizontal axis installed in a vertical slot of the support. Free ends of long links are connected by a tape from a thin-walled material for pipeline installation.

EFFECT: expanded assortment of fixed pipeline dimension types.

7 cl, 10 dwg

Description

The invention relates to mechanical engineering and can be used in the design of supporting devices of technological pipelines.

Pipeline systems with a considerable length must have supporting supporting devices for normal operation, allowing them to maintain their geometry, and to prevent sagging and the occurrence of additional off-design stresses in the structure.

The prior art (see R.I. Tavastshern. Production and installation of technological pipelines, 2nd edition, Moscow: Stroyizdat, 1986. BBK 39.7 T13 UDC 621.644.07 (075.32)) there are many designs of supports designed for mounting horizontal and vertical lines of pipelines to the building, structures and equipment.

However, in the development of compressor installations located in shelters, there are placement of pipelines of considerable length, located at a height exceeding human growth. In some cases, the use of recommended pipeline suspensions is not possible due to the fact that the suspension blocks the ceiling space, interfering with the operation of bridge cranes, and the attachment of support devices to the walls of the shelter is impossible due to their remoteness. For these cases, the supporting devices of the pipelines take the form of a vertically located rack, which rests with the bottom end on the foundation, and with the upper end, through the lodgement, props the pipeline from the bottom.

A support for a pipeline is known from the prior art, comprising a stand including a lower pipe and an upper pipe telescopically entering into it, made with the possibility of relative movement and connected by means for compensating for the weight of the pipeline, and a pipe lodgement connected to the upper pipe. Moreover, the means for compensating the weight of the pipeline is made in the form of blocks and envelopes of cables connected to loads (see RU 2211981 C1, 09/10/2003). A disadvantage of the known device is the low level of versatility and unification, since for each pipe size, taking into account the different heights above the foundation, its own design and individual support are necessary.

The objective of the claimed invention is to create a support for the pipeline, as well as a lodgement for the support of universal design.

The technical result of the claimed invention is to expand the range of sizes of fixed pipelines.

The specified technical result is achieved due to the fact that the pipeline support includes a stand including a lower pipe and a telescopic upper pipe entering into it, made with the possibility of relative movement and connected by means to compensate for the weight of the pipeline, and a lodgement for the pipeline connected to the upper pipe, it further includes a means of lifting the upper pipe and an adapter mounted on the upper pipe with the possibility of axial movement relative to it and equipped with a means for fixing it and on the upper pipe in a predetermined position, and the means for compensating for the weight of the pipeline are made in the form of springs placed in guide shells that are mounted on the adapter, the springs interacting with the upper ends with the said adapter and the lower ends with the stops connected with the lower pipe.

In addition, the lower pipe in the upper part has a protrusion, while the stops are connected to the lower pipe by means of threaded fasteners installed in the threaded holes of the protrusion with the possibility of regulating the force of compression of the springs.

A series of holes are made along the axis along the axis of the upper pipe, and the adapter fixing means is made in the form of a stopper installed in the adapter hole and spring loaded with the possibility of introducing the upper pipe into the holes, while the stopper is made with a bevel at the end to allow the stopper to exit the holes when lifting the upper pipe relative to the adapter.

The upper pipe lifting means is made in the form of a removable lever with a fork at the end, covering the upper pipe and having a protrusion on the inside for entering holes in the upper pipe, with the possibility of interaction with the upper end of the adapter and lifting the upper pipe when lifting the end of the lever.

In addition, the upper and lower tubes of the rack can be made with a square cross section.

In addition, the lodgement can be made in the form of two four-link parallelogram mechanisms mounted on a horizontal axis located in the hole of the upper pipe from its opposite sides, each mechanism having the same distance between the hinge axes and includes two long links facing upwards with their free ends, stiffening ribs connected in pairs with opposite long links, and the lower ends connected with shorter links, pivotally mounted on a horizontal axis located in the vertical the vertical groove of the upper pipe, while the free ends of the long links are connected by a tape of thin-walled material for laying the pipeline.

The technical result is also achieved due to the fact that the lodgement of the pipeline support contains two four-link parallelogram mechanisms mounted on a horizontal axis located in the hole of the support from its opposite sides, each mechanism having the same distance between the hinge axes and includes two long links facing the free ends upward, connected in pairs with opposite stiffeners by long links, and the lower ends connected with shorter links, pivotally mounted on the horizontal axis, placed in the vertical groove of the top tube, with the free ends of the long links are joined ribbon of material for the thin-walled pipe-laying.

The claimed support is shown in figures 1-10.

Figure 1 shows a General view of the support.

Figure 2 shows a view of the support on the left.

Figure 3 shows a close-up, view A, the junction of the tool tray 3 with the ends of the long links 23 of the parallelogram mechanism 22.

Figure 4 shows a close-up, in a section BB, the device of the proposed support.

Figure 5 shows a sectional view of the II point of connection of the short links 26 with the upper pipe 5.

Figure 6 shows a section bb view of the lodgement 3 in expanded form with the nodes of its connection with the long links 23 of the parallelogram mechanism 22.

In Fig.7 shows a section GG the junction of the long links 23 with the upper pipe 5.

On Fig shows, in cross section EE, the junction of the removable device 15 with the upper pipe 5.

In Fig.9 shows a close-up, an external element D, the junction of the tip 29 of the tape 3 of the cradle with the long links 23 of the parallelogram mechanism 22.

Figure 10 schematically shows the location of the links 23, 26 of the parallelogram mechanism 22 of the cradle with propped pipes 31 of different diameters D and D ₁ .

The proposed support contains a rack 1 (figure 2), a flange 2 for attaching to the foundation, a lodgement having a tape 3 for supporting the pipeline 31, and means for compensating the mass of the pipeline, made in the form of springs 4. The rack 1 is made of two pipes, the top 5 and bottom 6 (figure 1) preferably a square section (figure 5, 7). The upper pipe 5 is telescopically included in the lower pipe 6 (figure 4). In this case, an adapter 7 is installed on the upper pipe. The springs 4 are placed in the guide shells 35 fastened to the adapter 7 and are supported by their upper ends on the adapter 7, and the lower ends on the stops 34, which are connected to the lower pipe by means of threaded fasteners in the form of studs 8 located in the threaded holes 9 of the protrusions 10 formed on the upper end of the lower pipe 6. The adapter 7 is movably connected to the upper pipe 5 and contains a stopper 11 with the spring 12. The upper pipe 5 has a number of identical, located at the same pitch, holes 20 ( ig. 4), each of which mates with the working part of the stopper 11, when moving the adapter 7 along the pipe 5. At the same time, the working end of the stopper 11 has a bevel 13, which allows the stopper 11 to exit from the holes 20 when lifting the upper pipe 5 relative to the adapter 7. In addition, the support provides a device for disconnecting the stopper 11, made in the form of a handle 14 connected to the stopper 11.

On top of the adapter 7 is installed removable means 15 (figure 1) for lifting the upper pipe 5, made in the form of a lever 16 with a handle 17 (figure 4). The other end of the means 15 is made in the form of a plug 18 (Fig. 8), covering the side surfaces of the upper pipe 5. In the middle of the plug 18, a pin 19 is formed for insertion into the hole 20 (Fig. 4) in the wall of the upper pipe 5.

The lodgement for the pipeline is made in the form of two four-link articulated parallelogram mechanisms 22 (Fig. 1) installed in the upper part of the pipe 5 on the horizontal axis 21 from opposite sides. The mechanisms 22 have the same distance L between the hinge axes (Fig. 4), while each of the mechanisms 22 contains two long links 23, with free extremities 24, 25 (Fig. 1) facing upwards, and shorter (attached to the lower extremities) relative to the mentioned long) links 26 (figure 4), interconnected by an axis 27 (figure 5), passing through a vertically oriented groove 28 in the upper pipe 5 (figure 4), with the possibility of its movement along the groove 28. Opposite long links 23, above the axis 21 of their connection to the pipe 5, are paired jumper is 36 (fig.2,4) in the form of ribs. To the free ends 24, 25 (Fig. 1) of the long links 23 (Fig. 4) of the parallelogram mechanism 22, a tape 3 (Fig. 6) of elastic thin-walled material (for example, steel) is attached, on the supporting edges of which loop-shaped tips 29 are formed ( Fig.9), through which through the sleeves 30 threaded pins 33 connecting them to the long links 23 of the parallelogram mechanism 22.

The claimed device operates as follows.

Before carrying out work, the device 15 for lifting the upper pipe 5 must be dismantled.

The work is carried out in the following order.

1) The studs 8 (figure 4) are unscrewed, setting the minimum size H (figure 1) between the adapter 7 and the upper end of the lower pipe 6.

2) The upper pipe 5 is set to its lowest position, for which the stop 11 is turned off (Fig. 4), recessing its working part using the handle 14 in the direction of arrow K.

3) Flange 2 support is installed on the foundation directly under the support pipe 31.

4) A fixture 15 (FIG. 1) is installed on the adapter 7 for lifting the upper pipe 5, the fixture pin 19 is inserted into the hole 20 on the upper pipe 5 (FIG. 8).

5) Turning the lever 16 in the direction of the arrow Ж (Fig. 4), raise the upper pipe 5, while the stopper 11 with its bevel 13 is squeezed inward, leaving the hole 20, releasing the pipe 5, which rises until the stopper 11 enters the next hole 20 located below.

6) Remove the pin 19 from the hole 20 (FIGS. 4, 8) and lower the lever 16 to the initial horizontal position, insert the pin 19 into the downstream hole 20 again and repeat the operation of lifting the pipe 5 until the lodgement 3 comes into contact with propped pipe 31 (pre-installation of the support is completed).

7) The studs 8 are actuated, achieving full fit of the tool tray 3 to the surface of the pipe 31, while fixing the value of size h - the protrusion of the studs 8 over the protrusions 10.

8) Taking into account the stiffness characteristic, the springs 4 compress the springs 4 by the value Δh corresponding to the value of the required value of the power unloading of the pipe 31, after which the pins 8 are locked with lock nuts 32.

Final support installation completed.

Dismantling of the support, if necessary, is carried out in the reverse order.

The action of the parallelogram mechanism 22 (figure 1), when changing the diameter of the propped pipe 31, is schematically shown in figure 10.

Figure 10 shows the position of the tool tray 3 and the links 23, 26 of the parallelogram mechanism 22, in cases of support of the pipes 31 of different diameters with the support. When changing the diameter of the pipe 31 from D to D _{1, the} curvature of the tool tray 3, which tracks the curvature of the pipe 31, changes, while the position of the long links 23, which rotate around the axis 21 by an angle α, changes, the lower ends of the links 23 approach each other, and the axis 27 connecting short links 26, moves along the groove 28 down. Thus, the parallelogram mechanism 22, in combination with an elastic thin-walled tape 3, automatically monitors the curvature of the support pipe 31 and, at the same time, ensures stability under load, since the influence of possible lateral lateral loads from the pipe 31 on the support is perceived by a couple of forces created by the reactions of the supports transmitted axes 21 and 27 on the upper pipe 5.

Regulation of the height of the support is provided by the mutual movement of the pipes 5 and 6 and their fixation by the stopper 11 in the required position. The creation of the force required for unloading the support pipe 31 is provided by the studs 8, regulating the tension of the springs 4 through the stops 34.

Thus, the proposed device allows, within certain limits, to unify the supports used.

Claims (7)

1. Pipeline support, comprising a stand including a lower pipe and a telescopic upper pipe entering into it, made with the possibility of relative movement and connected by means to compensate for the weight of the pipeline, and a lodgement for the pipeline connected to the upper pipe, characterized in that it further includes means lifting the upper pipe and an adapter mounted on the upper pipe with the possibility of axial movement relative to it and equipped with a means of fixing it on the upper pipe in a predetermined position, with this means to compensate for the weight of the pipeline is made in the form of springs placed in guide shells that are mounted on the adapter, and the springs interact with the upper ends with the said adapter, and the lower ends with the stops connected with the lower pipe. 2. The support according to claim 1, characterized in that the lower pipe in the upper part has a protrusion, while the stops are connected to the lower pipe by means of threaded fasteners installed in the threaded holes of the protrusion with the possibility of adjusting the compression force of the springs. 3. The support according to claim 1, characterized in that a series of holes are made on the upper pipe along the axis, and the adapter fixation means is made in the form of a stopper installed in the adapter hole and spring-loaded with the possibility of introducing the upper pipe into the holes, the stopper being made with a bevel at the end to ensure that the stopper exits the holes when lifting the upper pipe relative to the adapter. 4. The support according to claim 3, characterized in that the means of lifting the upper pipe is made in the form of a removable lever with a fork at the end, covering the upper pipe and having a protrusion on the inside for insertion into the holes in the upper pipe, with the possibility of interaction with the upper end of the adapter and lifting the upper pipe while lifting the end of the lever. 5. Support according to claim 3, characterized in that the upper and lower tubes of the rack are made with a square cross section. 6. The support according to claim 1, characterized in that the lodgement is made in the form of two four-link parallelogram mechanisms mounted on a horizontal axis located in the hole of the upper pipe from its opposite sides, each mechanism having the same distance between the hinge axes and includes two long links facing upwards with free ends connected in pairs with stiffening ribs opposite long links, and lower ends connected with shorter links pivotally mounted on the horizontal axis, bent in a vertical groove of the upper pipe, while the free ends of the long links are connected by a tape of thin-walled material for laying the pipeline. 7. The lodgement of the pipeline support, containing two four-link parallelogram mechanisms mounted on a horizontal axis located in the hole of the support from its opposite sides, each mechanism having the same distance between the hinge axes and includes two long links facing upwards, connected in pairs with opposite stiffeners with long links and lower ends connected with shorter links pivotally mounted on a horizontal axis placed in a vertical groove the upper pipe, while the free ends of the long links are connected by a tape of thin-walled material for laying the pipeline.

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