RU159915U1 - SUPPORTING CLAMP - Google Patents

Abstract

1. Supporting clamp, comprising a housing made in the form of a sleeve consisting of two halves connected by a group of fasteners, and an insert made of elastomer, characterized in that on the inner surface of each half of the sleeve in its central part a removable load-receiving unit is fixed, made with an axial recess, forming, with the corresponding recess of the opposite replaceable load-sensing assembly, an opening for a clamped wire. 2. The support clamp according to claim 1, characterized in that the insert of elastomer is made in the form of replaceable compensating load-sensing nodes located on the end parts of the inner surface of each half of the sleeve and made with axial recesses, forming with the corresponding recesses of the opposite removable compensating load-sensing nodes hole under clamped wire. 3. The supporting clamp according to claim 1, characterized in that the housing is made by casting. 4. The supporting clamp according to claim 3, characterized in that tides are made in one of the half of the sleeve to prevent unscrewing of the fasteners. 5. The supporting clamp according to claim 1, characterized in that the group of fasteners connecting the halves of the sleeve is three bolted joints located at the vertices of an imaginary equilateral triangle or having a location close to this. The supporting clamp according to claim 1, characterized in that each half of the sleeve is provided with an eye located in a plane parallel to the axial plane of the sleeve. 7. The supporting clamp according to claim 6, characterized in that the half of the sleeve is pulled together by a fastener installed in

Description

IPC H02G7 / 00, H02G7 / 05

SUPPORTING CLAMP

The utility model relates to the electric power industry, namely to the wiring of electric wires and cables for overhead lines, in particular to the supporting clamps for hanging aluminum and steel-aluminum electric wires of overhead power lines.

The main functions of the support clamps are: holding the wire and ensuring the strength of the termination of the wire. The clamp body provides mechanical strength under tension of the wire, snow, wind and other loads, and the inner surface of the clamp provides the strength of the wire.

Known suspension clamp for fiber optic cable (RU 66618, IPC H02G7 / 05, publ. September 10, 2007), comprising a housing of two halves articulated to accommodate between them a fiber optic cable and provided with a fastening bolt, characterized in that the clamp body is made of insulating material. Fiberglass is used as an insulating material.

Known support clip for cable (RU 41925, IPC H02G7 / 05, publ. 10.11.2004), containing a housing made in the form of a sleeve consisting of two halves mounted on a hinge with the possibility of opening. The housing halves are adapted to be joined along the axial plane of the sleeve, each equipped with an eyelet parallel to this plane, pulled together by at least one threaded fastener installed in these eyes, and each have an elastic gasket on the inside with an axial recess forming with a recess opposite gasket hole for clamped cable. Said gasket is made of an electrically conductive elastomer, for example, of an electrically conductive rubber.

These clamps are used for insulated cables of small diameters and are not suitable for overhead power lines with a voltage class from 35 to 1150 kV for wires of large diameters.

Known clamps supporting deaf type PGN, designed for wires of power lines, consisting of a suspension and a boat (TU 3449-126-00111120-97, http://www.aiz.ru/nodes/629/, Appendix 1). Such clamps, due to design features, have a more complex installation, more metal, are less versatile and do not provide the desired range of wires used, in contrast to the claimed utility model.

Known clamp type (CUSHION-GRIP (http://inent.ru/files/Belos_PLP_catalogue_EN.pdf, catalog "Fittings for power lines" Belos-PLP, Preformed Line Products, page 11, Appendix 2). The clamp body is made in the form of the sleeve, consisting of two halves made by stamping. The halves of the sleeve are pulled together by a group of fasteners. An elastomer insert is installed on the inner surface of the sleeve, which provides dynamic unloading of the clamp body.

This technical solution is selected by the applicant as a prototype.

The disadvantage of the prototype is its non-repairability. In the event of an emergency, slipping of the wire may occur, resulting in damage to the inner surface of the clamp. Re-use of such a clamp is not possible.

This clip is not universal: its body is manufactured separately for each wire diameter.

Also, the disadvantage of this clamp is the insufficient strength of the wire (10-15% of the breaking load of the wire).

In addition, this clip does not provide for fixing the finger-eye connection, which entails increased abrasion of the eye and, as a consequence, a shorter service life.

The prototype is also characterized by high cost, which is due to the method of its manufacture (stamping).

The task to which the claimed utility model is directed is to create a clamp that is technologically advanced to manufacture, convenient and safe during installation, providing stable termination of the wire, characterized by versatility, good maintainability, extended service life and low cost.

EFFECT: provision of maintainability of the clamp, provision of the possibility of using the clamp for wires of a wide standard size, increase of the termination strength of the wire, increase of the service life.

To achieve the task, the support clip according to the utility model comprises a housing made in the form of a sleeve consisting of two halves, each equipped with an eye and connected by a group of fasteners, and an insert made of elastomer. On the inner surface of each half of the sleeve in its central part, a removable load-sensing assembly is fixed, made with an axial recess, forming an opening for a clamped wire with a corresponding recess of the opposite replaceable load-sensing assembly.

The insert made of elastomer is made in the form of replaceable compensating load-sensing nodes located on the end parts of the inner surface of each half of the sleeve and made with axial recesses, forming a hole for the clamped wire with the corresponding recesses of the opposite replaceable load-sensing node.

The body of the clamp is made by casting.

Tides are made in one of the half of the sleeve to prevent the fastening elements from loosening.

The group of fasteners connecting the halves of the sleeve is three bolted joints located at the vertices of an imaginary equilateral triangle or having a location close to this.

Each half of the sleeve is provided with an eye located in a plane parallel to the axial plane of the sleeve.

The sleeve halves are pulled together by a fastener installed in the holes of the eyes.

The fastening element installed in the holes of the eyes is made in the form of a smooth finger fixed from displacement by a cotter pin.

The use of replaceable load-sensing nodes in the design of the clamp ensures the simplicity, ease and convenience of disassembling the clamp, i.e. its maintainability. In the event of an emergency in case of damage to these nodes, they can easily and quickly be replaced with new ones, and the clamp can be reused.

In addition, the use of replaceable load-sensing nodes in the design of the clamp makes it possible to use it for wires of a wide standard size and increases the universality of the clamp. Depending on the brands (diameters) of the wires mounted in the clamp, only replaceable load-sensing nodes change, and the clamp housing itself is suitable for supporting wires of various diameters. This increases the versatility of the clamp.

The use of interchangeable load-sensing nodes in the design of the clamp also provides simplicity, ease and convenience of disassembling the clamp, i.e. its maintainability, as well as the possibility of its use for wires of a wide standard size, i.e. universality.

Axial grooves made in replaceable load-sensing nodes and replaceable load-compensating nodes, provide the possibility of placing a supported wire between these structural elements. Replaceable load-sensing nodes in contact with the clamped wire provide circular fixation of the wire and exclude the deformation of the upper windings, which provides a smoother distribution of clamping force over the cross-section of the non-stressed wire section and increases the wire termination strength. Replaceable load-sensing nodes also compress crimped wire, which minimizes dynamic loads on it.

The design of the supporting clamp with interchangeable assemblies mounted in a housing made in the form of a sleeve consisting of two halves and interconnected by a group of fasteners allows you to widely open the clamp housing and lay it on the wire with fixation without complete disassembly, which increases the ease of installation. The absence of loose parts eliminates the falling parts of the clamp from a height, which increases the safety of mounting the clamp.

The manufacture of the clamp housing by casting provides the necessary and sufficient mechanical properties of the clamp and high wire termination strength. In addition, this method of manufacturing the clamp allows you to perform tides in one of the halves of the sleeve to prevent unscrewing of the fasteners connecting the sleeve halves to each other, which increases the reliability of connecting the sleeve halves to each other and increases the reliability of operation of the clip.

The connection of the sleeve halves to each other with a group of fasteners ensures reliable fixation of the sleeve halves to each other, and the group of fasteners in the form of three bolted joints located at the vertices of an imaginary equilateral triangle provides an even distribution of the clamping force over the cross section and along the length of the involuntary section of the wire.

The execution in each of the halves of the sleeve of the eyes and the connection of the halves of the sleeve between each other with a fastening element installed in the holes of the eyes, increases the reliability of fixing the halves of the sleeve together. In addition, by means of this fastening element, the supporting clip is connected to the next garland element.

 The implementation of the fastener installed in the holes of the eyes, in the form of a smooth finger, fixed from displacement by a cotter pin, prevents rotation of the finger and eliminates the abrasion of the eye, and, as a result, increases the life of the clamp.

Patent studies did not reveal technical solutions characterized by the claimed combination of features, therefore, we can assume that the claimed technical solution corresponds to the concept of "novelty."

In addition, the proposed technical solution can be manufactured on an industrial scale using well-known processes and standard equipment, which meets the criterion of "industrial applicability".

The essence of the utility model is illustrated by drawings:

in FIG. 1 shows a general view of a support clip;

in FIG. 2 is a left view of a support clip;

in FIG. 3 - section BB,

in FIG. 4 is a general view of an open support clamp.

In FIG. 1-3:

1 - half left;

2 - half right;

3 - replaceable load-sensing nodes;

4 - interchangeable load-sensing nodes;

5 - rubber washer;

6 - fasteners;

7 - smooth finger;

8 - a nut;

9 - washer;

10 - cotter pin.

The supporting clamp has a cast aluminum housing.

The clamp housing is made in the form of a sleeve (Fig. 1), consisting of two halves - left 1 and right 2 (Fig. 2, Fig. 4). Halves 1 and 2 of the sleeve are configured to dock along the axial plane of the sleeve.

On the inner surface of each half 1 and 2 of the sleeve, in its central part, interchangeable load-sensing nodes 3 made of aluminum are closed. Each node 3 is made with an axial recess (i.e., in the form of a half-sleeve), which forms a hole for the clamped wire with a recess of the opposite node 3. Replaceable load-sensing nodes 3 provide strength sealing wires.

On the end parts of the inner surface of each half 1 and 2 of the sleeve are fixed replaceable load-sensing nodes 4 (Fig. 3, Fig. 4) made of an elastic elastomer. Each node 4 is also made with an axial recess (i.e., in the form of a half-sleeve), which forms a hole for the clamped wire with a recess of the opposite node 4. The nodes 4 are fixed on the inner surface of the sleeve by means of sagging made on the halves 1 and 2 at the places of installation of the nodes 4. Replaceable load-sensing nodes 4 provide dynamic unloading of the clamp housing.

Thus, axial recesses made in replaceable load-sensing nodes 3 and replaceable load-compensating nodes 4 provide the possibility of placing a supported wire between these structural elements.

Replaceable load-sensing nodes 3 in contact with the clamped wire provide circular fixation of the wire and exclude deformation of the upper windings, which provides a smoother distribution of clamping force over the cross-section of the unintended wire section.

Replaceable compensating load-sensing nodes 4 also compress crimped wire, which allows to minimize dynamic loads on it.

The design of the supporting clamp with interchangeable nodes 3 and 4 mounted in a housing consisting of the left 1 and right 2 halves, interconnected by a group of fasteners, ensures its maintainability. In the event of an emergency in case of damage to nodes 3 and nodes 4, they can be easily and quickly replaced with new ones, and the clamp can be reused. If only nodes 3 are damaged, they must be replaced by new ones, while the compensating nodes 4 can be left unchanged. The ability to quickly and easily replace individual load-sensing nodes, among other benefits, reduces the cost of operating overhead lines.

In addition, the design of the clamp makes it possible to use it for wires of a wide standard size. Depending on the brand (diameter) of the wires mounted in the clamp, only nodes 3 and 4 change, and the clamp body itself is suitable for supporting wires of various diameters. This increases the versatility of the clamp.

Halves 1 and 2 of the sleeve are pulled together by a group of fasteners 6 (Fig. 2). The group of fasteners is three bolted joints located at the vertices of an imaginary equilateral triangle or having a location close to this. This arrangement of fasteners provides an even distribution of the clamping force over the cross section and along the length of the gouged portion of the wire.

Tides are made in the right half of the 2 bushings to prevent unscrewing of the bolts.

Each half 1 and 2 of the sleeve is equipped with an eye that runs parallel to the axial plane of the sleeve (Fig. 1). The halves 1 and 2 of the sleeve are pulled together by a fastener installed in the holes of the eyes, made, for example, in the form of a smooth finger 7, fixed from displacement by a structural tide and cotter pin 10, which prevents the rotation of the finger and eliminates the abrasion of the eye, and, as a result, increases the service life clamping.

By means of this fastening element (smooth finger), the support clip is connected to the next garland element.

Mounting the clamp on the wire is as follows.

The clamp is disassembled: the cotter pin 10 is removed and the smooth pin 7 is pulled out. After that, the fasteners 6 are unscrewed.

The left half of the clamp 1 is placed on the wire, the right half 2 is laid on the left, making sure that the replaceable load-sensing nodes 4, the replaceable load-sensing nodes 3 and the wire are in the design position. The clamp is assembled with fasteners 6, alternately tightening the fasteners 6 until the required torque value (30 kN) is reached.

The supporting clip is connected to the next element of the garland with a smooth finger 7. After connecting, insert the cotter pin 10 into the hole of the finger and unbend its ends.

The design of the supporting clamp with interchangeable assemblies mounted in a housing consisting of two halves interconnected by a group of fasteners allows to widely open the clamp housing and lay it on a wire or cable with fixation without complete disassembly, which increases the ease of installation. The absence of loose parts eliminates the falling parts of the clamp from a height, which increases the safety of mounting the clamp.

The proposed clamp is completely made of non-magnetic alloy, which ensures the openness of the magnetic circuit of the clamp and the reduction of magnetization reversal losses.

The clamp provides a wire termination strength of 20% of the destructive wire, which is confirmed by tests in an accredited laboratory. Increased termination strength ensures a longer life of the clamp and increases the reliability of the overhead line.

The proposed clamp has a simple design, is technologically advanced to manufacture, convenient and safe during installation, provides stable wire termination strength, is characterized by versatility, good maintainability, extended service life, and also has a reduced metal consumption and low cost.

The above example of the implementation of the utility model is purely illustrative and should not be construed as limiting the scope of claims.

Claims (8)

1. Supporting clamp, comprising a housing made in the form of a sleeve consisting of two halves connected by a group of fasteners, and an insert made of elastomer, characterized in that on the inner surface of each half of the sleeve in its central part a removable load-receiving unit is fixed, made with an axial recess, forming with the corresponding recess of the opposite removable load-sensing node, an opening for a clamped wire. 2. A support clamp according to claim 1, characterized in that the elastomer insert is made in the form of replaceable compensating load-sensing nodes located on the end parts of the inner surface of each half of the sleeve and made with axial recesses forming opposite replaceable compensating load-sensing nodes with corresponding recesses hole for clamped wire. 3. The supporting clamp according to claim 1, characterized in that the housing is made by casting. 4. The supporting clamp according to claim 3, characterized in that tides are made in one of the half of the sleeve to prevent the fastening elements from being unscrewed. 5. The support clamp according to claim 1, characterized in that the group of fasteners connecting the halves of the sleeve is three bolt joints located at the vertices of an imaginary equilateral triangle or having a location close to this. 6. A support clip according to claim 1, characterized in that each half of the sleeve is provided with an eye located in a plane parallel to the axial plane of the sleeve. 7. A support clip according to claim 6, characterized in that the half of the sleeve is pulled together by a fastener installed in the holes of the eyes. 8. A support clip according to claim 7, characterized in that the fastener installed in the holes of the eyes is made in the form of a smooth finger fixed from displacement by a cotter pin.

Images