RU2212743C2 - Supporting clamp - Google Patents

Abstract

FIELD: electrical engineering; cable hardware such as clamps, clips,, and the like. SUBSTANCE: supporting clamp designed for suspending long-measuring parts such as cables, pipes, and the like from systems to convey transmission of signals or materials over long distances and for protecting them against damage due to transverse loads and/or bending moments has cylindrical bushing in the form of semi-ring members joined together by means of pin, each provided with fold and clevis with flat inner surfaces, flexible insert, and fastenings of bracing and fixing members. Semi-ring members are made in the form of rear and front semi-rings, each provided with rear and front flaps, respectively, and with case. Case length is chosen depending on minimal permissible bending radius of long-measuring part held in position by flexible insert at desired elastic stiffness; strengthening members provided on butt-ends of case are made in the form of conical semi-rings whose inner wall is tilted to longitudinal axis of flaps through angle chosen depending on total length of diametrical projections of flexible insert that dictates permissible drawing force; it also has stop that restricts turn of flaps through installation angle so as to hold long-measuring part in position with flaps held open; inner flat surface of bracing clevis is flush with inner surface of flap which is locked when joining bracing clevis by means of bracing members with aid of fastenings over joint surface; locking bracing clevis ensures transverse hold- down of long-measuring part by projections of flexible insert through calculated value; rear flap is provided with locating member having diametrical step to receive flexible insert lock; front flap is hinged member ensuring opening of semi-ring members at joint surface through installation angle. EFFECT: improved protection of long-measuring parts from damage; enhanced stability of supports holding these parts. 14 cl, 3 dwg _

Description

 The invention relates to objects such as supports, clamps, clamps and the like, designed to suspend long objects such as cable, pipe and the like, which are mounted in systems that transmit signals or substances over long distances. In particular, a cable mounted on ground supports, for example, poles of an electric contact network and automatic blocking of railway lines, can be considered as a long object. The cable can be either an optical, self-supporting communication cable or a high-voltage electric cable. All types of cables can be mounted on poles of power lines, as well as on special supports, as well as on the surfaces of other load-bearing elements, and the required distance between the supports is determined by the technical and operational requirements for transmission lines.

 Known support clip for the wires of an overhead power line [1], equipped with vertical cheeks with annular protrusions located around a vertical axis and a pressing device. However, the method of fastening the wire does not allow to achieve calibrated values of the clamping force of the wire and does not protect it from deformation of the damage when exposed to transverse loads and bending moments.

 Known support clip [2], comprising a housing with a clamping bar made with grippers that are equipped with dies. The grips are pulled together by a bolt, while the strength of the die is less than the strength of the outer coils of the wire. This invention achieves the stability of the moment of starting the wire in emergency mode, however, it is not protected from lateral loads and bending moments in the operating mode.

 A support clamp [3] is known, comprising a suspension made in the form of an elastic bracket pivotally connected to a cable clamp, while a rubber shock absorber is located inside the clamp. The invention provides cable protection when the support falls, while maintaining a predetermined separation force. However, it does not protect the cable from transverse loads and bending moments during operation, as well as to increase the protection of supports from loss of stability in the operating mode due to transverse loads.

 The closest in technical essence to the claimed invention is a support for fastening long objects such as cable [4], consisting of a cylindrical sleeve in the form of two semi-ring elements connected by an axis, each of which has a sash and a tie-rod with flat inner surfaces, an elastic insert and fasteners consisting of coupling and fixing elements. The specified invention allows to prevent the possibility of kink of sagging objects such as a cable on the line of the edges of the sleeves, but not guaranteed, since the cable has the ability, at maximum extreme loads, to fall into the gap between the elastic half rings and be damaged due to its contact with the metal parts of the clamp housing. In addition, under transverse loads and under the action of bending moments, a calibrated axial force is not provided, which ensures slippage of the cable under loads more than permissible. Thus, the cable is not protected from damage as a result of bending moments and / or transverse loads and the increased protection of ground power supports from buckling due to transverse loads.

 With mounted networks in which the cable is fixed to the power supports with a certain distance between the supports, the cable is subjected to axial load, which in the conditions of cable slack leads to the fact that transverse loads and bending moments act on the cable, and the horizontal load from uneven the distribution of axial loads in a cable fixed in many supports on which, for example, an electrical contact network is mounted.

 In this case, the amount of cable slack between the supports depends both on the specified technical characteristics of the network, for example, the distance between the supports, and on additional external loads, for example, on icing of the cable, wind load, and weather conditions (rain, snow). At large sagging angles, the probability of bending the cable to a radius that is less than permissible due to large lateral loads and bending moment increases significantly, as a result of which damage can occur. In addition, cable bending may occur when it abuts against the metal parts of the clamp, which will also damage the cable. Increased loads on the cable create a horizontal force on the support, leading to its loosening and loss of stability.

 All of the listed operating conditions for the networks require a calculated, calibrated pulling force of the cable, which makes it possible to equalize the loads both on the cable itself and on the network supports.

 Thus, it is necessary to exclude deformation of the cable as a result of its crushing and / or cutting. To equalize the network loads between the cable clamping points and supports, it is necessary to provide the specified pulling force of the cable in the clamp, and for this to provide a calibrated cable squeezing force using the clamp. Thus, it is necessary to improve the operating conditions of the network in conditions of insufficient strength of long objects and the stability of supports from the effects of loads due to the dead weight of the object and external influences. External influences are caused by thermal expansion (compression) of the cable, weather conditions - humidity, snow sticking, icing, wind load.

 The technical result of the claimed invention is to increase the security of long objects from damage due to bending moments and / or transverse loads and to increase the security of supports holding the network of long objects from stability loss due to the impact of transverse loads on them.

 The supporting clamp consists of a cylindrical sleeve (1) in the form of two semicircular elements (2) connected by an axis (3), each of which has a leaf (4) and a tie-rod (5) with flat inner surfaces "a", made of an elastic insert ( 6) and fasteners, consisting of coupling (7) and fasteners (8). The semicircular elements (2) are made in the form of a rear (2 ') and front (2) semicircular element, each of which has a rear (11) and front leaf (12), respectively, the leaf (4) is provided with a body (13).

 The length of the body is selected depending on the minimum permissible bending radius of a long object (15) held by an elastic liner and / or element (6) with a given coefficient of elasticity, while the body (13) is equipped at the ends with power elements (16) made in the form of conical half rings, the inner wall (17) of which is inclined to the longitudinal axis of the valves at an angle “A”, selected depending on the total length of the diametrical protrusions (18) of the elastic insert (6), which determines the allowable pulling force.

 The flaps (4-11, 12) are also equipped with a stop (19), restricting the rotation of the flaps (4) by the mounting angle "B" to ensure that the long object (15) is held in the open position of the flaps (4). The flat inner surface "b" of the tie-in earrings (9, 10) of the semicircular elements (2) is flush with the surface "c" (Fig. 3) or "d" (Fig. 2) of the shutter (4), which when connecting the tie-in earrings ( 9, 10) with the help of the clamping elements (7) are fixed by the flaps with the help of the fastening elements (8) along the plane of the “d” connector, and the clamping earrings (9, 10) are secured by transverse compression of the long object (15) by the protrusions (18) of the elastic insert (6) by the estimated value.

 The rear wing (11) is equipped with a mounting element (20) with a diametral ledge (21) for the retainer (22) of the elastic insert (6), and the front wing (12) is made folding, with the opening of the semicircular elements along the plane of the connector to the mounting angle "B " In particular, the plane of the "d" connector of the flaps (4-11, 12) can be located vertically. The inner surfaces "a" of the rear (9) and front (10) coupling earrings of the semicircular element (2) are located perpendicular to the axis (3) connecting the leaves (4).

 The plane of the connector “d” is formed by abutting the plane of the inner surface “b” of the tie-in earrings (9, 10) directly against the inner surface of the opposite tie-down earring (9, 10) and the plane of the connector “d” or “c” of the leaf (11, 12) ( figure 2). The plane of the connector can be formed by abutting the inner surfaces "b" and "c" of the shackles (9, 10) and the flaps (11, 12) by means of a calibration sleeve (23) on the inner surfaces "b" and "c" of the opposite shackle and sash. At the same time, the inner surface of the tie-earrings and sash is abutted by means of a calibration sleeve into the inner surface of the tie-earrings and sash with the help of a clamping bolt (17).

 The rear wing (11) is fixed vertically when mounting a long object (15). The hinges (24) of the rear and front flaps are displaced in the longitudinal direction of the housing relative to the axis of the mounting bolts by a distance symmetrical to the stops (19) located on the housing. The hinges (24) are located on the front and rear flaps in such a way as to ensure the symmetry of the bending loads on the elastic liner.

 The elastic element (6) is provided with protrusions (18) located in the longitudinal channel (25) of the elastic element (6). The protrusions of the elastic element are made in the form of tides, the surface "e" of which is parallel to the plane "d" of the sash connector. For example, the protrusions of the elastic element are made in the form of a narrowing in the Central part of the longitudinal channel of the elastic element.

 In another embodiment, the longitudinal channel (25) of the elastic element is made in the form of an oval, the long axis of which is oriented parallel to the plane “d” of the sash connector, and the distance between the side walls of the longitudinal channel along an axis perpendicular to the plane of the connector (and / or the inner plane of the clamping earrings), less than the distance between the side walls of the longitudinal channel along an axis parallel to the plane of the connector "d" and / or the inner plane "in" the tie-in earrings by the calculated value of the protrusion (18). The mounting angle "B" between the inner surfaces of the wings is not more than 90 degrees. The outer protrusions of the elastic insert (14) ensure its bending on the protruding parts.

The drawings schematically depict:
figure 1 is a clamp supporting with a mounted elastic insert, a longitudinal section;
FIG. 2 - supporting clamp, cross section, the shutters of semi-ring elements are connected directly through the inner surface;
FIG. 3 - supporting clamp (option), cross section, the flaps of the semicircular elements are connected through calibration sleeves.

 Support clip works as follows.

 To mount the supporting clip, the elastic insert is fixed with the help of the installation element, for which purpose the insert lock is threaded into the installation element of the sash with effort. Due to the deformation of the elastic retainer during threading and further retention due to its elasticity, the elastic insert is fixed from shearing. The rear semicircular element is fixed by fixing elements to the mounting surface, for example, to a support. The front flap leans back at an angle equal to or less than 90 degrees, providing a horizontal plane with a longitudinal groove to maintain the cable at a horizontal height. At the same time, the front sash is supported. The elastic insert extends through the slot to the spin angle, the cable is inserted into the elastic insert. After that, the front sash is deployed around the axis and tightened with clamping bolts until it touches the inner surface of the rear sash, while receiving the necessary cable clamping force.

 To obtain a calibrated value of the compressive force, calibration sleeves are also used, which, like the internal diameter formed by the flaps, are calculated values depending on a given working pull force, which ensures a technical result. Then the supporting clamp is fastened with fasteners. As a result of the transfer of horizontal force, which is a component of the pulling force to the supports, it is possible to obtain lateral loads on the support within the specified values and the absence of transfer of loads at efforts exceeding the calculated ones due to cable slippage and redistribution of loads between the network supports, which increases the protection of the supports.

 In addition, during operation, under the influence of lateral loads on the edges of the elastic element, the outer surface of the elastic insert may experience deformation within the gaps between the inner diameter of the casement leaf and the insert. However, due to the calculated value of the length of the housing, deformations are not transmitted to the cable due to the existing gap, which provides freedom for deformation of the sleeve without transmitting deformation to the cable.

 The proposed support clip makes it possible to increase the security of long objects from damage due to bending moments and / or transverse loads and increase the security of supports that hold the network of long objects from stability loss due to the impact of transverse loads on them; It can also be applied in the case of both communication lines and power transmission lines.

Sources of information
1. Copyright certificate for the invention of the Russian Federation 1394307, IPC 4 H 02 G 7/02.

 2. Copyright certificate for the invention of the Russian Federation 858160, IPC 3 H 02 G 7/05.

 3. Patent for the invention of the Russian Federation 2088009, IPC 6 N 02 G 7/05, 7/18, G 02 B 6/48.

 4. Patent for the invention of the Russian Federation 2146785, IPC 7 F 16 L 3/10.

Claims (14)

 1. Supporting clamp, consisting of a cylindrical sleeve in the form of two half-ring elements connected by an axis, each of which has a flap and a tie-rod with flat inner surfaces, an elastic insert and fasteners, consisting of coupling and fastening elements, characterized in that the half-ring elements are made in the form of a rear and front semicircular element, each of which has a rear and front leaf, respectively, the leaf is equipped with a body, the length of the body is selected depending on the minimum allowable the bending radius of a long object held by an elastic liner with a given coefficient of elasticity, while the body is equipped at the ends with power elements made in the form of conical half rings, the inner wall of which is inclined to the longitudinal axis of the wings at an angle selected depending on the total length of the diametrical protrusions of the elastic liner, determining the allowable pulling force, and the emphasis limiting the turn of the flaps to the mounting angle with the provision of holding a long object in the open position and the flaps, and the flat inner surface of the clamping earrings is flush with the inner surface of the flap, which, when connecting the clamping earrings with the help of the clamping elements, fix the flaps with fasteners along the plane of the connector. the rear sash is equipped with a mounting element with a diametric ledge for the retainer of the elastic insert, and the front sash is hinged with a hook echeniem disclosure semicircular elements on the parting line on the mounting angle.  2. Supporting clamp according to claim 1, characterized in that the plane of the sash connector is located vertically.  3. Supporting clamp according to claim 1, characterized in that the plane of the sash connector is perpendicular to the axis connecting the sash.  4. A support clip according to claim 1, characterized in that the plane of the connector is formed by abutting the flat inner surface of the tie-rod directly into the plane of the connector of the sash.  5. The supporting clamp according to claim 1, characterized in that the plane of the connector is formed by abutting the inner surfaces of the coupling earrings and the plane of the sash connector through the calibration sleeve.  6. A support clip according to claim 5, characterized in that the inner surface of the tie-earrings and the flaps are abutted by means of a calibration sleeve into the inner surface of the tie-earrings and the inner surface of the flaps using the tie-in element.  7. Supporting clamp according to claim 1, characterized in that the rear wing is fixed vertically when mounting a long object.  8. The supporting clamp according to claim 1, characterized in that the hinges of the rear and front flaps are offset in the longitudinal direction of the housing relative to the axis of the mounting bolts by a distance symmetrical to the stops located on the housing.  9. A support clip according to claim 1, characterized in that the hinges are located on the front and rear flaps in such a way as to ensure the symmetry of the bending loads on the elastic insert.  10. A support clip according to claim 1, characterized in that the elastic insert is provided with protrusions located in the longitudinal channel.  11. The supporting clamp according to claim 10, characterized in that the protrusions of the elastic insert are made in the form of tides, the surface of which is parallel to the plane of the sash connector.  12. A support clip according to claim 10, characterized in that the protrusions of the elastic insert are made in the form of a narrowing in the central part of the longitudinal channel of the elastic insert.  13. A support clip according to claim 10, characterized in that the longitudinal channel of the elastic insert is made in the form of an oval, the long axis of which is oriented parallel to the plane of the connector of the leaves, the distance between the side walls of the longitudinal channel along an axis perpendicular to the plane of the connector and / or the inner plane of the tie rods the earrings are less than the distance between the side walls of the longitudinal channel along an axis parallel to the plane of the connector by the calculated value of the protrusion. 14. The supporting clamp according to claim 1, characterized in that the mounting angle between the inner surfaces of the wings is not more than 90 ^o .

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