RU102739U1 - CENTERING BRACKET WITH VARIABLE HEIGHT OF KNIVES - Google Patents

Abstract

 1. A centering support to ensure coaxiality of the pipe-in-pipe type construction made of polymer elastic material in the form of a flat wide strip with a rectangular lock at the ends of the lock with a rectangular cutout in the center, on the outer surface of which are aligned with the tape along the edges of the cut two legs in the form of hollow protrusions of a box-shaped shape of the same height, on the top of each of which a bevel is made on one side, forming a broken upper surface of the legs, at least one and the leg is equipped with a device for fixing the conductors of the online remote control system, made in the form of an eyelet with an opening, characterized in that at least two fixing recesses are made on the upper surface of each leg, while the centering support additionally for each leg contains at least , one extension made of a polymeric material in the form of a flat, curved upper surface of the leg of the plate, on the lower surface of which are made fixing protrusions, the number, shape, size and located which are selected with the corresponding fixing recesses on the upper surface of the legs, the fixing protrusions and fixing recesses being made with the possibility of forming a locking connection, and the shape and dimensions of the legs in the installation area of the extension and the corresponding shape and dimensions of the extension are chosen constant for all lengths of tape segments and all the heights of the legs . ! 2. The centering support according to claim 1, characterized in that the locking grooves on the legs and the locking protrusions on the extensions are cylindrical in shape. ! 3. The centering support according to any one of paragraphs

Description

This utility model relates to "pipe-in-pipe" structures, in particular to devices for centering and fixing the coaxial location of the external pipe relative to the internal pipe and can be used, for example, in the manufacture of pre-insulated pipes (hereinafter - PI pipes) and pre-insulated shaped products (hereinafter - PI-shaped products).

The most important areas of application for PI-pipes and PI-shaped products are heating networks and pipelines for hot water supply of settlements and industrial facilities. The standard sizes of PI-pipes and PI-shaped products, as well as their technical requirements, are regulated by a number of national and international standards, in particular, GOST 30732-2006, EN 253, EN 448.

The basic design principles of PI pipes and PI shaped products have been known for a long time and are disclosed in many publications and patents, for example, in [1]. A PI pipe is a rigid structure consisting of a metal or plastic inner (conductive) pipe through which liquid or gaseous material is transported. An outer plastic or metal pipe (hereinafter referred to as the sheath pipe) is mounted coaxially with the top of the inner pipe, and the annular space between the outer surface of the inner pipe and the inner surface of the sheath pipe is filled with insulating material, usually rigid polyurethane foam, which minimizes heat transfer between the transported through the inner pipe by the substance and the external environment. Additionally, along the axis of the PI pipe in the thickness of the thermal insulation, two (or more) uninsulated metal conductors of the operational remote monitoring system of the thermal insulation state (hereinafter referred to as SODK) are usually stretched. In the manufacture of PI pipes, centering supports (also called centralizers) are used, mounted with a step of the order of 0.8-1.5 m on the outer surface of the conducting pipe and ensuring its alignment with the sheath pipe, as well as fixing the conductors of the SODK approximately in the middle of the heat-insulating layer.

Known segmentation centering support [2], made in the form of a piece of flat wide tape with a rectangular cutout in the center, having a toothed comb with clamps at one end, and a reciprocal toothed comb at the other end. At the edges of the tape segment support has two hollow protrusions box-shaped, on top of which on one side is made a bevel. On one (or both) box-shaped protrusions there is a device in the form of an eyelet with an opening for fixing the SODK conductor. Before mounting, depending on the size of the outer diameter of the inner pipe, these segments are assembled from several pieces into the garlands of the required length using the existing locks, then the garland is wrapped in the required place along the outer surface of the conductive pipe and firmly fixed with free end locks. The height of the box protrusions is selected in such a way that alignment of the conductive pipe and the sheath pipe in the PI pipe is ensured with a certain amount of clearance between them in the radial direction. This type of prefabricated segmented centering support has increased mechanical strength and is mainly used for the manufacture of PI-pipes and PI-shaped products of large diameters.

The centering support considered above in terms of technical nature and the achieved results is the closest to the claimed one.

At the same time, the well-known centering support mentioned above has a very significant drawback: it can provide a sufficiently coaxial design of the PI pipe only with a certain combination of the outer diameter of the conductive pipe and the inner diameter of the sheath pipe, i.e. with a strictly defined gap between the conductive pipe and the sheath pipe in the radial direction. In practice, PI pipes with several different values of the thickness of the insulating layer are used (see, for example, GOST 30732-2006), i.e. with a constant value of the outer diameter of the conducting pipe, the inner diameter of the sheath pipe may have several significantly different values. This means that in order to ensure the centering (alignment) accuracy in the PI pipe of the sheath pipe and the conductive pipe within the tolerance established by the standards, it is necessary to use several centering supports of the segment type of the same length, ensuring the same nominal diameter of the fit on the inner pipe when the coupling lock is closed, and with several adequately selected leg height values.

In addition, the inner diameter of the sheath pipe depends on the material from which it is made. The current standards set a number of nominal values of the outer diameter and wall thickness of the pipe shells made of polyethylene and sheet steel, galvanized steel, used for the manufacture of PI-pipes and PI-shaped products. With an increase in the outer diameter from 90 mm to 1200 mm, the thickness of polyethylene pipe-shells increases significantly (from 2.2 mm to 14.9 mm according to GOST 30732-2006), while the thickness of pipe-shells made of galvanized sheet steel changes little and does not exceed 1.0 mm (see, for example, GOST 30732-2006). This means that in order to ensure the accuracy of centering of the conductive pipe with the sheath pipe in the PI pipe of the same size, it is necessary to have two types of centering supports (separately for polyethylene and steel pipe shells) that differ in height of the legs.

The situation is even more complicated in the case of some types of PI-shaped products having curved sections of a steel conductive pipe, the outer pipe of which is made of segments of a straight polyethylene sheath pipe or of segments of a spiral-wound duct made of galvanized sheet steel. In the cross section, the thickness of the heat-insulating layer on bent sections of such products in different radial directions varies widely and can decrease in some places up to 50% of its nominal value in straight sections of the product (for example, see EN 448), while increasing significantly in diametrically opposite direction. To install a known centering support with the same height of the legs in this section of the PI-shaped product is very problematic.

Thus, to ensure a sufficient degree of alignment between the inner pipe and the sheath pipe of PI pipes of all sizes and designs, an extensive assortment of centering supports of known structures is required, and in the above-mentioned case of installing centering supports on bent parts of the conducting pipe of PI-shaped products, centering supports of known types design may have only very limited use. Given the fact that the centering supports are made, as a rule, of polypropylene and / or polyethylene and their copolymers by injection molding, expanding the range of centering supports leads to high additional costs for expensive technological equipment and injection molds, requires additional storage space and worsens the process logistics.

The objective of the utility model is to create a centering support, which in a simple and reliable way would provide the ability to change the height of its legs to the desired values directly when assembling the PI pipes and PI-shaped products, as well as improving the accuracy of centering of the conductive pipe and the pipe shell of the PI pipes and PI-shaped products.

The technical result achieved is that the assortment of centering supports required for the production of PI pipes and PI-shaped products of all sizes and designs is reduced, the installation of centering supports in the production of PI pipes and PI-shaped products is simplified, more accurate centering of conductive pipes and shell pipes, especially on bent sections of PI-shaped products, the uniformity of the distribution of the thickness of the heat-insulating layer in the products improves, due to which their thermal insulation increases nye performance as well as reduced production costs for the manufacture of centering supports.

The problem is solved, and the technical result is achieved in the inventive centering support, designed to ensure the coaxiality of the "pipe in pipe" type construction and made of polymer elastic-elastic material in the form of a flat wide strip with a rectangular cutout in the center, equipped with a coupling lock at the ends, the outer surface of which at the edges of the cutout are two legs made integral with the tape in the form of hollow protrusions of a box-shaped shape of the same height, on top of each of which with one Orons made a bevel, forming a broken upper surface of the legs, while at least one leg is equipped with a device for fixing the conductors of the online remote control system (SODK), made in the form of an eye with a hole, due to the fact that on the upper surface of each leg is made, at least two fixing recesses, while the centering support additionally for each leg contains at least one extension of a polymeric material in the form of a flat plate of curved upper surface of the leg of the plate, n the lower surface of which is made of locking tabs, the number, shape, size and location of which are selected by the corresponding locking grooves on the upper surface of the legs, and the locking tabs and locking grooves are made with the possibility of forming a locking connection, and the shape and dimensions of the legs in the installation area of the extension and the corresponding shape and extension sizes are chosen constant for all lengths of tape segments and all leg heights.

In the inventive centering support, the base (initial) height of the legs is selected in such a way that after mounting the centering support on a conductive pipe of a certain external diameter, the alignment of the sheath pipe having the smallest possible inner diameter (with a minimum thickness of thermal insulation) is ensured within the tolerance according to GOST 30732-2006 layer according to the above standard).

In the inventive centering support, the upper part of the legs (upper surface) of the centering support contains elements of the lock connection (lock-latch) - fixing recesses, and to increase the total height of the legs of the centering support, they include mating latches - locking protrusions special extensions in the form of curved the shape of the upper surface of the legs of the plates, which are installed on the upper surface of the legs, forming a latch-lock, and firmly fixed on it manually with a simple click.

In the general case, the elements of the locking connection — the fixing recesses on the legs and the locking protrusions on the extensions, can have any suitable geometric shape and any size, as well as any suitable number and location. Preferably they have a cylindrical shape.

In the general case, each leg, or at least part of the legs of the centering support in the working position (mounted on the conductive pipe of the PI-pipes or PI-shaped products) is equipped with extensions (one for each leg, if any). In this case, preferably, it may be provided for the presence of more than one extension of different sizes (heights). Preferably, when there is more than one extension for each leg, the extensions are configured to increase the total height of the leg by a different predetermined amount, provided that the extensions are installed one per leg. Thus, the extensions have a height that forms a standard discrete series of values, for example, 3 mm, 6 mm, 9 mm, etc. or any other suitable discrete series of values. By choosing the extension of the required height, it is possible to increase the height of each leg of the centering support to the required value, and, if necessary, each leg of one centering support can be changed to different discrete heights using appropriately selected extensions from the standard set.

Based on the foregoing, the extensions are preferably configured to increase the total leg height by a predetermined amount selected from a discrete series of integer values, preferably from a discrete series of values containing values with equal steps, preferably in increments of 3 mm.

The upper surface of the extension can be made with a corrugation located in the longitudinal and / or transverse direction with a step of a given value.

Also preferred are forms of implementation in which the device for fixing the conductors of the online remote control system is preferably located in the middle of the height of the legs.

As already mentioned above, the inventive centering support is generally made of any suitable polymeric material, preferably a polymeric material selected from the group comprising at least polyethylene and polypropylene.

The above and other advantages and advantages of the claimed centering support will be discussed in more detail below on the example of one of the possible preferred, but not limiting forms of implementation with reference to the positions of the figures of the drawings, which are schematically represented:

Figure 1 - General view of a centering support without extensions;

Figure 2 - General view of the extension;

Figure 3 is a General view of a centering support, on one of the legs of which an extension is installed.

Figure 1 schematically shows a General view of the centering support, which is made in the form of a piece of flat wide tape 1 with a rectangular cutout 2 in the center, at the ends of which are made mating elements 3 and 4 of the coupling lock. On the outer surface of the tape 1, at the edges of the cutout 2, two legs 5 are made integral with the tape in the form of hollow protrusions of a box-shaped shape of the same height. The initial (base) height of the legs 5 is selected in such a way that after mounting the centering support, within the tolerance according to GOST 30732-2006, the alignment of the sheath pipe relative to the conductive pipe (not shown) is ensured with the minimum possible difference between the inner diameter of the sheath pipe and the outer diameter of the conductive pipe. At least on one leg 5 there is also a device for fixing SODK conductors in the form of an eyelet 6 with an opening 7 in the center (see Figure 3), preferably located in the middle of the height of the leg 5, and on top of each leg 5 (each protrusion of the box-shaped ) on one side, a bevel 8 is made, forming a broken upper surface of the legs 5 to facilitate the movement of the pipe-shell during installation. At least two are made on the upper surface of each leg 5, and six fixing recesses are made in the considered implementation form 9. Thus, the upper surface of the legs 5 of the centering support is made in the form of a latch-lock element, indicated in the drawing by a dashed circular line without Indication of a position number having a universal (identical) shape and uniform dimensions for all legs 5 and all centering supports of a given type (regardless of the length of a piece of tape 1, the height of legs 5, etc.). In this embodiment, the latch-lock element is formed by six fixing recesses 9 distributed over the upper surface of the leg 5.

The centering support is made of plastic (preferably polypropylene or polyethylene) in a monolithic design.

To increase the height of the legs 5 by a predetermined amount, an extension 10 is additionally installed on it (Figure 2). The extension 10 is made in a monolithic design of a polymeric material (preferably polypropylene or polyethylene) in the form of a flat curved shape of the upper surface of the legs 5 of the plate. A corrugation 11 is made on the upper surface of the extension 10 in the longitudinal direction, and the fixing protrusions are made on the lower surface, the number, shape, size and location of which are selected by the corresponding locking recesses 9 on the upper surface of the legs 5, and the locking protrusions and fixing recesses 9 are configured to castle connection. Due to the absolute obviousness of the form of execution of the locking protrusions on the lower surface of the extension 10 (for the considered implementation form, six locking protrusions of a cylindrical shape) they are not shown in the drawings.

In this form of implementation, the mating latch of the extension 10 is formed by six cylindrical locking protrusions, in contact with the locking recesses 9 (snapping), preventing the extension 10 from being removed spontaneously after being fixed on the upper surface of the centering leg leg 5 (Figure 3). The dimensions (thickness) of the extension 10 are selected in such a way that after fixing it with a latch on the leg 5 of the centering support, the total height of the leg 5 with extension 10 increases relative to the initial (base) height by a predetermined amount. The extension 10 may have several versions (preferably at least two), differing from each other in the nominal value of increasing the height of the legs 5 of the centering support, and the nominal values of increasing the height of the legs 5 of the centering support form a discrete series of set values, for example 3 mm, 6 mm, 9 mm, 12 mm, etc. or any other suitable discrete series of values. A corrugation 11 is made on the upper surface of the extension 10 in the longitudinal direction, and the shape, size (height and width) and arrangement of the corrugation elements 11 can be selected by any suitable for a particular design. All extensions 10 are preferably of the same shape and dimensions of the elements of the counterpart of the lock-latch (in this form of implementation, the locking protrusions of a cylindrical shape), which are independent of changes in other dimensions of the extension.

The inventive centering support is mounted as follows. Prior to installation, depending on the size of the outer diameter of the conductive pipe, the segments of this centering support are assembled from several pieces into garlands of the required length using the available locks. In addition, depending on the design of the PI-pipe or PI-shaped product, as well as depending on the outer diameter of the conductive pipe and the inner diameter of the sheath pipe, determine the need to install extensions 10 for each leg 5 of each segment of a wide flat tape 1, as well as the required the standard size (thickness) of the extension 10. For different legs 5 or for part of the legs 5, various standard sizes of extensions 10 can be selected. The extensions 10 are installed by combining the fixing protrusions of the extension 10 with the fixing recesses 9 on the upper th surface of the pin 5, forming a locking latch.

During installation, a garland collected from segments of the tape 1 of the centering support is wrapped around the outer diameter of the conductive pipe with the legs 5 outward and tightly fixed to its position on the pipe, compressing the coupling lock fully and thereby mutually fixing elements 3 and 4 of the end segments of the tape 1.

Through the holes 7 of the ears 6, the conductors of the SODC are threaded. After installing the required number of centering supports with a pitch of approximately 0.8-1.5 m along the entire length of the conductive pipe and fixing in the ears 6 of all supports of the SODC conductors, an external sheath pipe is installed, which is facilitated by the presence of a bevel 8 forming a broken upper surface legs 5 (in the absence of extensions 10) and the corresponding curved shape of extension 10. The annular space is filled with insulating material.

Information sources.

1. US 3540487, F16L 9/18.

2. Product catalog of CJSC Peterpipe. Product catalog of TSM Trade LLC. [found 10.03.2009]. - Found from the Internet: http://www.peterpipe.ru, http://www.tsmtrade.ru

Claims (7)

1. A centering support to ensure coaxiality of the pipe-in-pipe type construction made of polymer elastic material in the form of a flat wide strip with a rectangular lock at the ends of the lock with a rectangular cutout in the center, on the outer surface of which are aligned with the tape along the edges of the cut two legs in the form of hollow protrusions of a box-shaped shape of the same height, on the top of each of which a bevel is made on one side, forming a broken upper surface of the legs, at least one and the leg is equipped with a device for fixing the conductors of the online remote control system, made in the form of an eyelet with an opening, characterized in that at least two fixing recesses are made on the upper surface of each leg, while the centering support additionally for each leg contains at least , one extension made of a polymeric material in the form of a flat, curved upper surface of the leg of the plate, on the lower surface of which are made fixing protrusions, the number, shape, size and located which are selected with the corresponding fixing recesses on the upper surface of the legs, the fixing protrusions and fixing recesses being made with the possibility of forming a locking connection, and the shape and dimensions of the legs in the installation area of the extension and the corresponding shape and dimensions of the extension are chosen constant for all lengths of tape segments and all the heights of the legs . 2. The centering support according to claim 1, characterized in that the locking grooves on the legs and the locking protrusions on the extensions are cylindrical in shape. 3. The centering support according to any one of claims 1 or 2, characterized in that if there is more than one extension for each leg, the extensions are configured to increase the total height of the legs by a different predetermined amount, provided that the extensions are installed one per leg. 4. A centering support according to any one of claims 1 or 2, characterized in that the extensions are configured to increase the total height of the legs by a predetermined amount selected from a discrete series of integer values, preferably from a discrete series of values containing values with equal steps, preferably with 3 mm pitch. 5. The centering support according to any one of claims 1 or 2, characterized in that the upper surface of the extension is made with a corrugation located in the longitudinal and / or transverse direction with a step of a predetermined value. 6. The centering support according to any one of claims 1 or 2, characterized in that the device for fixing the conductors of the operational remote control system is preferably located in the middle of the height of the legs. 7. The centering support according to any one of claims 1 or 2, characterized in that it is made of a polymeric material selected from the group comprising at least polyethylene and polypropylene.