RU123245U1 - ANCHOR CLAMP - Google Patents

Abstract

1. An anchor clamp containing aluminum alloy strips, a movable wedge connected to a steel shackle, clamping jaws with four arcuate grooves having transverse grooves for holding wires, while the strips and cheeks are spring-loaded and tightened by two bolts with washers, and the clamping jaws and The movable wedge is made by casting from a durable polymer, characterized in that the clamping jaws are made with four arcuate grooves for wires with a cross section of 35-95 mm, and the steel shackle is made of wire 570-610 mm long. 2. Clamp according to claim 1, characterized in that glass fiber reinforced polyamide is taken as the polymer. Clamp according to claim 1, characterized in that the wire is made of stainless steel.

Description

The utility model relates to the field of electrical engineering, namely, to anchor clamps intended for permanent fastening of self-supporting insulated wires (SIP type) of the main line.

Known anchor clamp, designed for fastening 2 or 4 SIP to the supports of overhead power lines. The clamp contains a housing equipped with ribs and a central partition, wedge inserts, which are made by casting of polyamide reinforced with fiberglass. Wedge inserts for placing wires are made with four arcuate grooves having bumps for better friction and holding the wires. The housing is equipped with holes for mounting a removable spring-loaded arch made of steel wire. (“Valves for self-supporting insulated wires (SIP up to 1 kV).” Catalog 2005/2006 by Tyco Electronics Raychem GmbH. Germany, pp. 1-26).

However, the specified anchor clip has a complex structure, is material-intensive, and when used to attach wires to the supports of overhead power lines with large spans, it does not provide sufficient clamping force and uniform tension of all wires that are twisted with a large pitch, resulting in high tensile forces ( Additionally, with strong winds, icing and snowfall), more strained wires will be primarily overloaded, which can lead to premature wear.

Known anchor, tension clamp type S0157.1 for mounting 2 or 4-core SIP on supports or on walls. The clamp contains steel plates, in which holes are made for fastening a removable spring coil from steel wire and plastic plugs. Inside the plates there are plastic clamping jaws having 2 or 4 arcuate grooves (with a central liner) with transverse grooves to hold the wires. Steel plates and cheeks are spring-loaded and pulled together with a bolt with a washer Grover. (Internet. Website. Http://www.ati.com.ua./view bb card 207433.html. Pt1. Of 11.16.09).

The specified anchor clamp has significant weight due to the use of steel cheeks and bulky plastic clamping cheeks.

An analogue is an anchor, tension clamp type SO 158.1 for attaching 4-core SIP to supports or walls using standard hooks. The clamp contains aluminum alloy pads, in which holes are made for fastening a removable spring-loaded handle made of steel wire, and plugs made of plastic. Inside the plates there are plastic clamping jaws, which, like the plugs, are made by casting from a fiberglass-reinforced polymer. The clamping cheeks for placing the wires are made with two or four arcuate grooves (with a central liner) with transverse grooves for holding the wires. The pads and cheeks are spring-loaded with a silicone rubber tube and tightened with a bolt and washer. (Internet. Site. Http: //www.10кv.com.ua./ensto04/so157.html. Page 1, dated September 8, 2009).

However, an analogue of a silicone rubber tube is difficult to manufacture and expensive, can fall out during the assembly process, it has an insufficient service life due to possible wall breaks during chaotic bending and compression, especially when working and mounting clamps at low temperatures.

The prototype is an anchor clamp type GUKo1 for attaching 4-core SIP 4 × (25-50) mm ² and GUKo2 for attaching wires 4 × (70-120) mm ² . The clamp contains plates of steel (or aluminum alloy) plates, a movable wedge connected to a steel bow. Inside the plates there are plastic clamping cheeks, which, like the movable wedge, are made by casting from a fiberglass-reinforced polymer. The clamping cheeks for placing the wires are made with four arcuate grooves with transverse grooves to hold the wires. The pads and cheeks are spring-loaded with springs and pulled together with two bolts and washers. (Internet. Site. Http://www.sikame.ru/ankernyi zazhim.htm. P. 2. 04.10.2010).

The disadvantage of the prototype is somewhat overestimated weight and dimensions due to the increased length of the steel bow and the increased thickness of the clamping jaws of the GUKo2 clip for attaching wires 4 × (70-120) mm ² , although, for example, large wires of 120 mm ² are rarely used.

The basis of this utility model is the task of creating such an anchor clamp in which due to the new design elements, their new relative position would reduce the weight and cost of the clamp and simplify its manufacturing technology.

The problem is solved in that in the anchor clip containing the aluminum alloy plates, a movable wedge connected to the steel arch, clamping cheeks with four arcuate grooves having transverse grooves for holding the wires, while the plates and cheeks are spring-loaded and pulled together by two bolts with washers and a movable clamping cheek and the wedge are made by molding from a durable polymer, according to the utility model clamping cheeks formed with four arcuate-section grooves for wires 35-95 mm ² and the steel shackle vypol ene wire length 570-610 mm.

Due to the implementation of the clamping jaws with four arcuate grooves for wires with a cross-section of 35-95 mm ² and a steel arch from a wire of shortened length 570-610 mm, the weight and dimensions of the clamp are significantly reduced. So, for the prototype, the GUKo2 anchor clamp for attaching wires 4 × (70-120) mm ² has dimensions: a = 360 mm, b = 56 mm, c = 85 mm, and the proposed clamp, for example, has corresponding dimensions: a ₁ = 290 mm, in ₁ = 47 mm, with ₁ = 70 mm.

As the polymer can be taken polyamide reinforced with fiberglass, which has high strength, weather and light resistance.

The wire for the arch can be made of stainless steel, which significantly increases the tensile strength of the arch and its corrosion resistance.

The proposed anchor clip is schematically illustrated in FIGS. 1-3. Figure 1 shows the clip in front view, figure 2 is the same in top view, figure 3 is the same in rear view. The figures show: 1 - clamping cheeks, 2, 3 - lining made of aluminum alloy, 4 - steel bow, 5 - movable wedge, 6 - groove for wire, 7 - coupling bolt with washer, 8 - elastic element, 9 - fixing ribs .

The anchor clip contains aluminum alloy plates 2, 3, a movable wedge 5 connected to a steel handle 4, clamping cheeks 1 with four arcuate grooves 6 having transverse grooves (not shown conventionally in the figure) to hold the wires, while the plates 2, 3 and the clamping jaws 1 are spring-loaded with an elastic element 8 and are pulled together by two bolts 7 with washers, and the clamping jaws 1 and the movable wedge 5 are made by casting from a durable polymer. The clamping cheeks 1 are made with four arcuate grooves 6 for wires with a cross section of 35-95 mm ² , and the steel bow 4 is made of wire 570-610 mm long.

On the cheeks 1 made fixing ribs 9 for fixing the cheeks 1 relative to the movable wedge 5.

Example. Anchor clamp for attaching 4-core SIP 4x (35-95) mm ² contains pads 2, 3 of aluminum alloy AD31. in which holes are made for two coupling bolts 7. The removable handle 4 is made of stainless wire with a diameter of 7.0 mm and a length of 595 mm. The clamping cheeks 1 are made in the middle with two holes for the passage of the coupling bolts 7 and placing an elastic element 8 next to it. In the clamping cheeks 1 on the sides there are four arcuate grooves 6 having transverse grooves (not shown conventionally in the figures) for better friction and holding the wires, for example, 4 × 95 mm ² and the fixing ribs 9 for fixing the cheeks 1 relative to the movable wedge 5.

The pads 2, 3 and the clamping jaws 1 are spring-loaded with elastic elements 8 in the form of springs and are pulled together by two bolts 7 with washers. The clamping cheeks 1 and the movable wedge 5 are made by casting of fiberglass reinforced polyamide.

The work of the clamp is as follows. The clip with the help of the bow 4 is fixed on the bracket and hook of the support of the overhead power line. Then, spring-loaded using elastic elements 8, the clamping cheeks 1 and pads 2, 3 are moved apart by the greatest amount to let the wires through, for example, with a cross section of 2 × 95 mm ² and place them in four arcuate grooves 6. After that, the required tension of the wires is made and tighten the clamping jaws 1 and the pads 2, 3 with bolts 7 with washers using a torque wrench to the required value, which is usually indicated on the clamp itself. In this case, the transverse grooves of the grooves 6 of the clamping jaws 1 at the attachment points will compress the wires as much as possible, preventing them from slipping out in the suspension even at maximum tensile loads.

Claims (3)

1. Anchor clamp containing aluminum alloy linings, a movable wedge connected to a steel bow, clamping cheeks with four arcuate grooves having transverse grooves to hold the wires, while the linings and cheeks are spring-loaded and tightened with two bolts with washers, and the clamping cheeks and the movable wedge is made by casting from a durable polymer, characterized in that the clamping cheeks are made with four arcuate grooves for wires with a cross section of 35-95 mm ² , and the steel arch is made of wire 570-610 mm long. 2. The clamp according to claim 1, characterized in that the polymer is a polyamide reinforced with fiberglass. 3. The clamp according to claim 1, characterized in that the wire is made of stainless steel.