RU2559856C2 - Tee clamp (versions) - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to power industry and can be used for branching of wires of overhead transmission lines from the main wire. The tee clamp in the first version contains the device for connection of the main 1 and branched 2 wires, designed as T-shaped structure consisting of, at least, two spiral conducting wire strands of 3 L-shaped form. Each conducting wire strand 3 consists of several wire spirals, partially or along the whole length glued to each other. The tee clamp in the first version contains all the named above elements of the first version of the invention and also contains the power 5 U-shaped strand coiled over the protector clamp 4 with the coiling direction opposite to the coiling direction of the protector clamp 4. The power strand 5 bends around the main wire.

EFFECT: invention minimises flexural strains and increases service life of the connection.

15 cl, 6 dwg

Description

The invention relates to the electric power industry and can be used for branching the wires of overhead power lines from the main wire.

Known branch clamp containing means for connecting the trunk and branch wires (RU, 2011254 C1).

The technical result, the invention is aimed at, consists in practically eliminating sharp jumps in bending stiffness, which allows protecting the connected wires from the effects of bending deformations caused by wind influences, which increases the service life of the connection.

The specified technical result in the first embodiment of the invention is achieved by the fact that in the branch clamp containing means for connecting the trunk and branch wires, the means for connecting the main and branch wires is made in the form of a T-shaped structure consisting of at least two spiral conductive wire strands L-shaped, each of which consists of several wire spirals, partially or along the entire length glued together, on top of which in the opposite reinforcing tread-lock is wound in the direction.

The number of layers of a T-shaped structure from conductive wire strands of a L-shaped can be more than one.

An abrasive layer may be applied to the glued surface of the conductive wire strands of the L-shaped form.

The tread-lock can be made of separate wire spirals.

The tread-lock can be made in the form of a strand of several partially or along the entire length of wire spirals glued together.

An abrasive layer may be applied to the glued surface of the tread-retainer.

The specified technical result in the second embodiment of the invention is achieved by the fact that in the branch clamp containing means for connecting the trunk and branch wires, the means for connecting the main and branch wires is made in the form of a T-shaped structure consisting of at least two spiral conductive wire strands L-shaped, each of which consists of several wire spirals, partially or along the entire length glued together, on top of which in the opposite a reinforcing tread-retainer is wound in the direction of m, over which a U-shaped power strand is wound in the opposite direction, while the power strand bends around the main wire.

The number of layers of a T-shaped structure from conductive wire strands of a L-shaped can be more than one.

An abrasive layer may be applied to the glued surface of the conductive wire strands of the L-shaped form.

The tread-lock can be made of separate wire spirals.

The tread-lock can be made in the form of a strand of several partially or along the entire length of wire spirals glued together.

An abrasive layer may be applied to the glued surface of the tread-retainer.

The power strand can be made of several wire spirals.

The power strand can be made of several partially or along the entire length of the glued wire spirals.

An abrasive layer may be applied to the glued surface of the power strand.

The invention is illustrated by drawings, where figure 1 shows a spiral conductive wire strand of a L-shaped; figure 2 - mounted on the trunk and branch wire spiral conductive wire strands of a L-shaped; figure 3 - tread-lock; in Fig 4 - assembly with a tread-lock; figure 5 - power strand; figure 6 is a complete assembly.

The branch clamp in the first embodiment contains means for connecting the trunk 1 and branch 2 wires, made in the form of a T-shaped structure, consisting of at least two spiral conductive strands of 3 L-shaped. Each conductive wire strand 3 consists of several wire spirals, partially or along the entire length glued together.

Over the conductive wire strands 3 in the opposite direction is wound reinforcing tread-retainer 4, which can be made in the form of separate wire spirals.

The branch clamp in the second embodiment contains all of the above elements of the first embodiment of the invention, and further comprises a U-shaped power strand 5 wound over the tread-retainer 4 with a winding direction opposite to that of the tread-retainer 4. The strand 5 bends around the main wire.

The connection of the main 1 and branch 2 wires through the inventive branch clamp is based on the use of friction forces. To increase the coefficient of friction between the surface of the trunk 1 and branch 2 wires with elements of the branch clamp, as well as between the elements of the branch clamp, an abrasive layer is applied to the glued surfaces of the conductive wire strands 3, the tread-retainer 4 and the power strand 5.

Mounting branch tap is as follows.

At least two helical conductive wire strands of 3 L-shape with the same direction of winding are alternately wound on the main wire 1 (Fig. 2), and only the upper parts of the conductive wire strands 3 are wound accordingly, the bent part remains free.

After winding on the main wire 1 the upper parts of the conductive wire strands 3, branch wire 2 is attached to the main wire 1 and the loose parts of the conductive wire strands 3 are alternately wound on the branch wire 2, resulting in a T-shaped branch clamp design (figure 2) .

If it is necessary to strengthen the structure, for example, when exposed to wind loads, as well as to ensure constant tight electrical contact, additional L-shaped spiral strands 3 are used, wound on top of the main strands.

For a tighter and more stable contact of the conductive wire strands 3 with the trunk 1 and the branch 2 wires and for providing a greater holding force of the branch wire 2, a tread-lock 4 (Fig. 4) is wound on top of the conductive wire strands 3 in the opposite direction of winding.

In the second embodiment of the invention, in addition to reinforcing the structure, a U-shaped power strand 5 is used, which is wound on the tread-lock 4 in the opposite direction of the tread-retainer 4. The power strand 5 goes around the main wire 1.

Using the claimed design, you can connect wires with different diameters. Moreover, to align the diameters of the trunk and branch wires, a conductive layer of spirals or strands is pre-wound. The strands can also be partially glued, coated with an abrasive, etc.

Alignment coils can be present on either the trunk and branch wires, or on one of them.

Claims (15)

1. A branch clamp comprising means for connecting the trunk and branch wires, characterized in that the means for connecting the trunk and branch wires is made in the form of a T-shaped structure consisting of at least two spiral conductive wire strands of a L-shaped shape, each of which consists of several wire spirals, partially or along the whole length glued together, over which in the opposite direction a reinforcing tread-lock is wound. 2. The clamp according to claim 1, characterized in that the number of layers of a T-shaped structure of conductive wire strands of a L-shaped is more than one. 3. The clamp according to claim 1, characterized in that an abrasive layer is applied to the glued surface of the conductive wire strands of a L-shaped form. 4. The clamp according to claim 1, characterized in that the tread-lock is made of individual wire spirals. 5. The clamp according to claim 1, characterized in that the tread-lock is made in the form of a strand of several partially or along the entire length of the wire spirals glued together. 6. The clamp according to claim 1, characterized in that the abrasive layer is applied to the glued surface of the tread-retainer. 7. A branch clamp comprising means for connecting the main and branch wires, characterized in that the means for connecting the main and branch wires is made in the form of a T-shaped structure, consisting of at least two spiral conductive wire strands of a L-shaped shape, each of which consists of several wire spirals, partially or along the whole length glued together, over which in the opposite direction a reinforcing tread-lock is wound, over which in the opposite direction, a U-shaped power strand is wound, while the power strand bends around the main wire. 8. The clamp according to claim 7, characterized in that the number of layers of a T-shaped structure of conductive wire strands of a L-shaped is more than one. 9. The clamp according to claim 7, characterized in that an abrasive layer is applied to the glued surface of the conductive wire strands of a L-shaped form. 10. The clamp according to claim 7, characterized in that the tread-lock is made of individual wire spirals. 11. The clamp according to claim 7, characterized in that the tread-lock is made in the form of a strand of several partially or along the entire length of the wire spirals glued together. 12. The clamp according to claim 11, characterized in that an abrasive layer is applied to the glued surface of the tread-retainer. 13. The clamp according to claim 7, characterized in that the power strand is made of several wire spirals. 14. The clamp according to claim 7, characterized in that the power strand is made of several partially or along the entire length of the glued wire spirals. 15. The clamp according to 14, characterized in that the abrasive layer is applied to the glued surface of the power strand.

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