RU226092U1 - TURN RETAINER FOR FLEXIBLE PIPES - Google Patents

Abstract

The utility model relates to construction, namely to the installation of cold and hot water supply or heating systems for buildings, in particular when removing pipes from walls and other structures of buildings and structures, namely to fixing devices for securing flexible pipes using the directional fixation method. The main technical result of the claimed utility model is an increase in speed, simplicity and ease of installation while maintaining the rigidity and stability of fixing the pipes, which is due to the standardized height of the pipe exits from the wall to the radiator relative to the floor slab and the center distance and also provides the possibility of sealing grooved niches for pipes before installing radiators , absence of pipe connections immured in the wall, reduction of hydraulic resistance of the heating system, protection of the seal from damage as a result of linear expansion of pipes. The rotation lock for flexible pipes is made in the form of a holding bracket in the shape of a curved plate, along the perimeter of the inner surface of which there are two stiffening ribs, and in the center of the outer surface there are two grips. In addition, on the outer surface, along the perimeter of the side edges of the plate in the middle of the height of the clamp, there is at least one limiter on each face, and the limiters are located asymmetrically to the grips. At the ends of the plate, on the outer side, there are two double grips, each of which consists of two L-shaped holders connected to each other, turned away from each other. In this case, the center-to-center distance between the lower and upper grips, where the pipes are inserted, ranges from 45 mm to 55 mm. 3 salary f-ly, 2 ill.

Description

The utility model relates to construction, namely to the installation of cold and hot water supply or heating systems for buildings, in particular when removing pipes from walls and other structures of buildings and structures, namely to fixing devices for securing flexible pipes using the directional fixation method.

When laying heating and water supply pipes, the pipes must be supported to prevent damage due to vibrations caused by the fluid flow. This can be achieved by means of transverse supports located at a distance from each other in the axial direction. However, there is increasingly a need to lay pipes inside walls to preserve the aesthetic properties of the room. It is also known that the quality of fastening pipes for heating largely determines the performance characteristics of heat exchangers of heating devices.

The invention “Anti-fracture protector for flexible pipelines” is known (RF patent 2711166), which relates to protective devices for flexible pipelines, including hoses, and can be used to prevent pipeline fractures during its installation and operation.

Anti-fracture protector of a flexible pipeline containing transverse links in the form of an annular plate, connected in pairs by longitudinal links,

the radius of the inner edge of the cross links ensures that the cross link fits on the flexible pipeline with a guaranteed gap,

on the inner edge of the transverse link there is an even, at least six, number of grooves,

the longitudinal links are made in the form of a sector of a round annular plate, on the inner radius of which two wide grooves are made, and the outer radius of which is equal to the specified bending radius of the pipeline,

Moreover, each two adjacent transverse links are connected to each other using at least three longitudinal links, which are installed predominantly perpendicular to the planes of both transverse links by a “groove-to-groove” connection so that in each longitudinal link in one wide groove there is a groove of the first transverse link, and in another wide groove there is a groove adjacent to the first transverse link,

the grooves of the transverse link are made with a fit width with a guaranteed gap relative to the thickness of the longitudinal link, and the wide grooves of the longitudinal link are made with a width that ensures free relative movement of the transverse links in them when bending the flexible pipeline to a given bending radius.

A device for maintaining flexible pipelines is known (RF patent 2215226), relates to construction, mechanical engineering and is used to maintain flexible pipelines under external influences. The device for supporting flexible pipelines consists of an elastic tape 1 with flexible communications secured to it by means of staples. The ends of the communications and tape are fixed on supports - a fixed support and a movable one. The movable support is installed on the consumer of liquids supplied via flexible communications. When moving a movable support installed on a consumer in a vertical plane, a restrictive connection in the form of an elastic tape ensures an optimal bending radius of the communications and avoids mutual collision of the communications.

A known fastening bracket for pipes according to RF patent 25920 contains a cradle with a first stiffening rib placed on the base, and a lower part that serves to secure the bracket in a wall or support, while the cradle is equipped with second and third stiffening ribs, and the lower part of the bracket is made in in the form of a cylindrical rod with locking teeth. The first stiffening rib is made in the form of a semi-circular segment, and the second and third stiffening ribs are made in the form of two mutually perpendicular planes, while the locking teeth are made in the form of spring rings, parallel located over the entire surface of the cylindrical rod.

A fastening bracket for flexible pipes is known according to RF patent 49942, aimed at ensuring the reliability of pipe fastening. The bracket is made in the form of a base with curved legs equipped with hook-shaped stops in the lower part, with holes made in the base and legs, rounded cutouts are made on the hook-shaped stops, and the holes on the legs are made oval. The bending angle of the legs ranges from 92° to 82°.

A support for a horizontally running pipe in combination with a vertical suspension is known (patent EP 2734771), containing a U-shaped housing open at its upper end, a pair of transverse vertical ribs located on the outer surface of the housing and extending transversely to the axis formed between the extremities of the housing. A pair of transverse vertical ribs define a suspension receiving space therebetween, the space being located between the first and second extremities of the housing.

A stationary clamping device for flexible conduit is known (US Pat. No. 6,352,224) comprising a support element that provides bending to support flexible conduit, such as plastic and metal tubing, and to rigidly secure the conduit to a support structure. The clamping device includes a sheet mounting plate for securing said device to a supporting structure. In this case, the mounting plate includes a notched area configured to include a defining corner edge. The edges converge inward and terminate in an internal flange hole, and a bracket member extending laterally outward from said mounting plate. The bracket element is made of sheet material and includes an elongated, continuous, arcuate passage for supporting the flexible conduit. The passage includes identical side walls to provide lateral support for the pipeline. The first side wall has the configuration of the outermost edge extending beyond the arcuate contour of said channel. In this case, the second side wall has a wavy edge contour defining an intermediate convex region passing through the edge edge of the said first side wall to provide additional lateral support for the flexible channel.

The mounting plate includes an inwardly extending embossing configured to provide additional lateral strength to said mounting plate.

The internal flange opening in said mounting plate includes peripherally spaced notches defining circumferentially spaced crimp areas for securing said bracket in a curved form.

The mounting plate is made of metal, stamped, machined and formed from sheet metal.

The closest analogue is the pipe support according to the application JP 2020014031 dated January 30, 2020 for the grant of a patent for an invention, which consists in providing a pipe support that can be easily attached to the pipe. The support is equipped with a main body part forming a curved pipeline, and an end part connected to the end of the main body part and forming a pipeline connected to the pipeline of the main body part. A pipeline support that can be held in a state of bending at a predetermined angle by a main body part and an end part, which is located from the main body part to the end part and forms one surface in the direction of the central axis of the bend, in the pipeline support. The base part and the side corresponding to the outer side of the bend in the end part, the part of the outer wall rising from the base part in the direction of the central axis of the bend, and the side corresponding to the inside of the bend in the end part. An inner wall portion that rises from the base portion in the same direction as the outer wall portion, a first opening that is opened so as to cut a portion of the base portion from the end of the end portion to the side corresponding to the interior, bend, and terminal. A second hole is provided in the part so as to open on a side corresponding to the inner part of the bend, and a third hole is provided in the main body part so as to open in the direction of the central axis of the bend. The outer wall portion of the support may extend to a position facing the base portion and the first hole portion in the end portion. End portions of the support may be provided at both ends of the main body portion, and the end portions form a linear pipeline. A portion of the outer wall of the support may be provided on the side corresponding to the outer side of the bend so as to extend from the main body part to the entire end part.

The disadvantage of the prototype is the inability to fix the pipe to the floor structure, the inability to fix pipes with a certain distance between them, and the ability to fix the angle of rotation of only one pipe.

The technical objective of the claimed utility model is to increase convenience and reduce installation time for heating and water supply pipes, while simultaneously ensuring the safety of the installed systems and maintaining the aesthetic qualities of the room.

The main technical result of the claimed utility model is an increase in speed, simplicity and ease of installation while maintaining the rigidity and stability of fixing the pipes, which is due to the standardized height of the pipe exits from the wall to the radiator relative to the floor slab and the center distance and also provides the possibility of sealing grooved niches for pipes before installing radiators , absence of pipe connections immured in the wall, reduction of hydraulic resistance of the heating system, protection of the seal from damage as a result of linear expansion of pipes.

Technical results are achieved through the implementation of a rotation clamp for flexible pipes, intended for laying in-wall heating and water supply communications, made in the form of a holding bracket in the shape of a curved plate, along the perimeter of the inner surface of which there are two stiffening ribs, and in the center of the outer surface there are two grips , made in the form of protrusions for fixing the pipe along the outer bending generatrix. In addition, on the outer surface, along the perimeter of the side faces of the plate in the middle of the height of the clamp, there is at least one limiter on each face, and the limiters are located asymmetrically to the grips and are designed to control the direction of the pipes. At the ends of the plate on the outer side there are two double grips, each of which consists of two L-shaped holders connected to each other, turned away from each other. In this case, the center-to-center distance between the side grips ranges from 45 mm to 55 mm.

In addition, holes can be made in the plate to facilitate the design of the retainer and reduce the consumption of raw materials for its manufacture. Stoppers designed to control the direction of pipes can be made in the form of flat vertical protrusions. One of the double grips can be equipped with a longitudinal protrusion intended for installing the latch itself.

The presence of stiffening ribs gives the clamp design strength and ensures reliability during installation and operation.

When installing flexible pipes, the use of a clamp with an interaxial distance between the side clamps ranging from 45 mm to 55 mm ensures a standardized height of the pipe exits from the wall to the heating device relative to the floor slab, which directly affects the ease of installation, in particular, it becomes possible to seal dug-out niches before installation of radiators appears due to the fact that the pipes are fixed in the position in which they should be when installing the heating device. At the same time, the complex shape of the rotation lock for flexible pipes allows for intra-wall installation, which eliminates the presence of pipe connections walled up in the wall, while with the usual method of installing this unit, from four to eight joints are formed, and, therefore, increases the safety of installation, due to the absence of the possibility of internal leaks at the joints. By eliminating the connection of pipes with fittings (which requires significant time for cutting pipes to a given size and installing fittings), the installation speed is significantly increased. In addition, by reducing the number of fittings, the hydraulic resistance of the heating system is reduced, and the seal is protected from destruction due to a more uniform distribution of forces acting on the pipeline during linear expansion, rather than how this unit would be made using 90-degree corner fittings. The bending angle of the clamp plate, in combination with the location of the grips and limiters, allows you to manually rotate the pipe with a radius of 5D without creases, which ensures the simplicity and convenience of this operation and eliminates damage to the pipes during work.

The retainer can be manufactured using 3D printing technology.

The plane of the plate can be made smooth or textured.

In fig. 1 shows a general view in 3/4 plane of the rotation lock for flexible pipes (a particular embodiment with four stops and holes in the plate).

In fig. Figure 2 shows a 3/4 view from the inside of the plane of the rotation lock for flexible pipes (a particular version with four stops and holes in the plate).

The rotation lock for flexible pipes is made in the form of a holding bracket in the form of a curved plate 1, along the perimeter of the inner surface of which there are two stiffening ribs 2, and in the center of the outer surface there are two grips 3. In addition, along the outer surface, along the perimeter of the side edges of the plate in the middle of the height of the clamp, there are limiters 4. At the ends of the plate 1, on the outer side, there are two double grips 5.

One of the dual grips 5 can be equipped with a longitudinal protrusion 6 intended for installing the latch itself.

Claims (4)

1. Rotation lock for flexible pipes, made in the form of a holding bracket in the form of a curved plate, along the perimeter of the inner surface of which there are two stiffening ribs, and in the center of the outer surface there are two grips, in addition, on the outer surface, along the perimeter of the side edges of the plate in the middle of the height of the clamp, there is at least one limiter on each face, and the limiters are located asymmetrically to the grips; at the ends of the plate, on the outer side, there are two double grips, each of which consists of two L-shaped holders connected to each other, deployed to each other from each other, while the center distance between the lower and upper grips ranges from 45 mm to 55 mm. 2. The latch according to claim 1, characterized in that the stops are made in the form of flat vertical protrusions. 3. The clamp according to claim 1, characterized in that one of the dual grips is equipped with a longitudinal protrusion. 4. The retainer according to claim 1, characterized in that the plate has holes.