CN219138564U - Cable terminal pole - Google Patents

Abstract

The utility model relates to the technical field of transmission lines, and discloses a cable terminal rod, which comprises: a shaft extending in a vertical direction; two middle phase conductor hanging points which are circumferentially arranged at intervals around the rod body; the wire cross arm assembly comprises four wire cross arms, one end of each wire cross arm is connected with the rod body, the other end of each wire cross arm is suspended and protrudes out of the periphery of the rod body, and the wire cross arms are circumferentially arranged at intervals around the rod body; the middle phase conductor hanging points and the conductor cross arm assemblies are distributed in a staggered mode along the extending direction of the rod body, and the middle phase conductor hanging points and the conductor cross arms are distributed in a staggered mode when seen in the overlooking direction. The utility model provides a take up an area of little, simple structure and shorten the cable termination pole of outage time.

Description

Cable terminal pole

Technical Field

The utility model relates to the technical field of power transmission lines, in particular to a cable terminal rod.

Background

Currently, with the development of power grid construction and city planning, there is often a newly built double-circuit cable line opening single-circuit overhead line project. The traditional opening point usually adopts two base single loop terminal poles, and the overhead cable is laid to the transformer substation through the cable after being transferred. The scheme has the advantages that as two foundation towers are required to be arranged, the occupied area is large, urban planning and construction coordination are not facilitated, and the power failure time of an original line is long.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the cable terminal rod which occupies less space and shortens the power failure time.

The embodiment of the application provides a cable termination pole, include:

a shaft extending in a vertical direction;

the two middle phase conductor hanging points are arranged on the periphery of the rod body, and the two middle phase conductor hanging points are circumferentially arranged at intervals around the rod body; and

the wire cross arm assembly comprises four wire cross arms, one end of each wire cross arm is connected with the rod body, the other end of each wire cross arm is suspended and protrudes out of the periphery of the rod body, and the wire cross arms are circumferentially arranged at intervals around the rod body;

the middle phase conductor hanging points and the conductor cross arm assemblies are distributed at intervals along the extending direction of the rod body, the conductor cross arm assemblies are located below the middle phase conductor hanging points and are distributed in a staggered mode along the overlooking direction.

In one embodiment, four wire cross arms are located in the same plane, and an included angle between two adjacent wire cross arms is 90 °.

In one embodiment, the four wire cross arms are respectively: the front left phase wire cross arm, the front right phase wire cross arm, the back left phase wire cross arm and the back right phase wire cross arm, the front left phase wire cross arm, the front right phase wire cross arm, the back right phase wire cross arm and the back left phase wire cross arm are sequentially arranged along the circumferential direction of the pole body, the two middle phase wire hanging points comprise a front middle phase wire hanging point and a back middle phase wire hanging point, the front middle phase wire hanging point is arranged between the front left phase wire cross arm and the front right phase wire cross arm, and the back middle phase wire hanging point is arranged between the back left phase wire cross arm and the back right phase wire cross arm.

In an embodiment, the cable termination pole further comprises:

the first supporting insulator cross arm assembly is located below the hanging point of the medium-phase conductor, the first supporting insulator cross arm assembly comprises two first supporting insulator cross arms, one ends of the first supporting insulator cross arms are connected with the rod body, the other ends of the first supporting insulator cross arms are suspended and protrude out of the periphery of the rod body, and the first supporting insulators are arranged under the hanging point of the medium-phase conductor in a one-to-one correspondence mode.

In one embodiment, the first support insulator crossarm assembly is located between the medium phase conductor suspension point and the conductor crossarm assembly.

In one embodiment, the two first supporting insulator crossarms are respectively: the front first support insulator cross arm and the rear first support insulator cross arm are arranged between the front left phase conductor cross arm and the front right phase conductor cross arm, the rear first support insulator cross arm is arranged between the rear right phase conductor cross arm and the rear left phase conductor cross arm, the front first support insulator cross arm is arranged between the front left phase conductor cross arm and the front right phase conductor cross arm, the rear first support insulator cross arm is arranged between the rear left phase conductor cross arm and the rear right phase conductor cross arm, and the included angles between the rear first support insulator cross arm and the rear left phase conductor cross arm and between the rear right phase conductor cross arm are all 45 degrees.

In an embodiment, the cable termination pole further comprises:

the second support insulator cross arm assembly is arranged below the wire cross arm assembly at intervals along the extending direction of the rod body, one end of the second support insulator cross arm is connected with the rod body, the other end of the second support insulator cross arm is suspended and protrudes out of the periphery of the rod body, the two second support insulator are arranged under each first support insulator cross arm in a one-to-one correspondence mode, and the four second support insulators are arranged under each wire cross arm in a one-to-one correspondence mode.

In an embodiment, the cable termination pole further comprises:

the installation platform is arranged on the rod body, the installation platform is arranged below the wire cross arm assembly at intervals along the extending direction of the rod body, the installation platform is provided with cable terminals and lightning arresters, and the number of the cable terminals and the number of the lightning arresters are consistent with that of the second supporting insulators.

In an embodiment, the mounting platform includes preceding mounting platform and back mounting platform, preceding mounting platform back mounting platform encircles the shaft is circumference interval setting, preceding mounting platform with still be provided with cat ladder installation position between the back mounting platform.

In an embodiment, the cable terminal rod further comprises a ground wire cross arm assembly, the ground wire cross arm assembly comprises two ground wire cross arms, one end of each ground wire cross arm is connected with the rod body, the other end of each ground wire cross arm is suspended and protrudes out of the periphery of the rod body, and the ground wire cross arms are circumferentially arranged at intervals around the rod body;

the ground wire cross arm assembly is arranged above the middle phase conductor hanging points at intervals along the extending direction of the rod body, and the ground wire cross arm, the middle phase conductor hanging points and the conductor cross arm are distributed in a staggered mode when seen in the overlooking direction.

Compared with the prior art, the cable terminal rod has the beneficial effects that: the two medium-phase conductor hanging points and the four conductor cross arms are utilized, so that one cable terminal rod can be simultaneously connected into the overhead lines at the front end and the rear end, and is led into the ground after opening, the number of the original two cable terminal rods is reduced to one, the occupied area is reduced, and the power failure time is shortened.

Drawings

FIG. 1 is a front view of a cable termination pole according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the cross arm of FIG. 1;

FIG. 3 is a schematic view of the ground cross arm of FIG. 1;

FIG. 4 is a cross-sectional view of a-a of FIG. 1;

FIG. 5 is a cross-sectional view of b-b of FIG. 1;

FIG. 6 is a schematic view of a cable termination pole portion according to an embodiment of the present utility model;

FIG. 7 is a schematic view of the mounting platform of FIG. 6;

fig. 8 is a schematic structural view of a cable terminal post according to an embodiment of the present utility model;

fig. 9 is a schematic structural view of another view angle of the cable terminal post according to the embodiment of the present utility model after connection.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Cable terminal rod	10	Shaft body
11	Intermediate phase conductor hanging point	12	Wire cross arm
				12a	Front left-phase conductor cross arm	12b	Front right phase conductor cross arm
12c	Rear left phase conductor cross arm	12d	Rear right phase conductor cross arm
				13	First supporting insulator cross arm	14	Second supporting insulator cross arm
15	Mounting platform	15a	Front mounting platform
				15b	Rear mounting platform	16	Cable terminal
17	Lightning arrester	18	Ground wire cross arm

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", "longitudinal", "transverse", "vertical", "horizontal", "top", "bottom", "inner", "outer", "head", "tail", etc. are configured and operated in a specific direction based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present utility model, and do not indicate that the apparatus or element referred to must have a specific direction, and thus should not be construed as limiting the present utility model.

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

In the related art, a double-circuit cable line opening single-circuit overhead line project, in particular to a newly-built 110kV double-circuit cable line opening single-circuit overhead line project, which needs to convert an overhead line into an underground cable to a newly-added transformer substation. A cable termination lever is typically provided to engage the conductors and cables. Specifically, after the left phase conductor, the right phase conductor and the middle phase conductor of the single-circuit overhead line of the cable terminal rod are disconnected, the two cable terminal rods are respectively connected, converted into cable lines and led to the ground, and then are laid to a newly-added transformer substation through cables. Because the occupation area of the two cable terminal rods is large, urban planning and construction coordination are not facilitated, and the arrangement is performed, so that the power failure time of the original line is long, and the production and life are affected.

Referring to fig. 1, in order to solve the above-mentioned problem, an embodiment of the present application proposes a cable termination pole 100, including: a shaft 10 extending in a vertical direction; two middle phase conductor hanging points 11, wherein the middle phase conductor hanging points 11 are arranged on the periphery of the rod body 10, and the two middle phase conductor hanging points 11 are circumferentially arranged at intervals around the rod body 10; the wire cross arm assembly comprises four wire cross arms 12, one end of each wire cross arm 12 is connected with the rod body 10, the other end of each wire cross arm 12 is suspended and protrudes out of the periphery of the rod body 10, and the wire cross arms 12 are circumferentially arranged at intervals around the rod body 10; the middle phase conductor hanging points 11 and the conductor cross arm assemblies are distributed at intervals along the extending direction of the rod body 10, the conductor cross arm assemblies are located below the middle phase conductor hanging points 11, and the middle phase conductor hanging points 11 and the conductor cross arms 12 are distributed in a staggered mode when seen in the overlooking direction.

Specifically, in the double-loop cable line opening single-loop overhead line engineering, the left phase conductor, the right phase conductor and the middle phase conductor of the single-loop overhead line are disconnected at two sides of the cable terminal rod 100, so that front three-phase conductor loops of the front left phase conductor, the front right phase conductor and the front middle phase conductor, and rear three-phase conductor loops of the rear left phase conductor, the rear right phase conductor and the rear middle phase conductor are respectively generated at two disconnected sides of the overhead line. Accordingly, the cable termination pole 100 proposed in the present application is provided with two intermediate phase conductor suspension points 11 and four intermediate phase conductor crossarms 12 corresponding thereto.

Referring to fig. 2, the four wire cross arms 12 are respectively: the front left phase conductor cross arm 12a, the front right phase conductor cross arm 12b, the rear left phase conductor cross arm 12c and the rear right phase conductor cross arm 12d, and the two middle phase conductor hanging points 11 comprise a front middle phase conductor hanging point 11 and a rear middle phase conductor hanging point 11. At this time, the front left phase conductor, the front right phase conductor and the front middle phase conductor are respectively connected to the front left phase conductor cross arm 12a, the front right phase conductor cross arm 12b and the front middle phase conductor hanging point 11 correspondingly and are led into underground cables to form a loop I. The rear left phase conductor, the rear right phase conductor and the rear middle phase conductor are respectively correspondingly connected into the rear left phase conductor cross arm 12c, the rear right phase conductor cross arm 12d and the rear middle phase conductor hanging point 11 and are led into an underground cable to form a loop II.

Referring to fig. 2, in one embodiment, four of the wire cross arms 12 are located in the same plane, and an included angle between two adjacent wire cross arms 12 is 90 °. The arrangement is beneficial to equipment installation and maintenance, and ensures the operation safety of operation and inspection personnel. Further, the structure design is scientific and reasonable, the drainage wire connected with the overhead line can be enabled to be kept at a sufficient safe distance, and the safe operation of the cable terminal tower is effectively guaranteed.

Referring to fig. 2, in one embodiment, the four wire cross arms 12 are respectively: the front left-phase conductor cross arm 12a, the front right-phase conductor cross arm 12b, the rear left-phase conductor cross arm 12c and the rear right-phase conductor cross arm 12d, the front left-phase conductor cross arm 12a, the front right-phase conductor cross arm 12b, the rear right-phase conductor cross arm 12d and the rear left-phase conductor cross arm 12c are sequentially arranged along the circumferential direction of the rod body 10, the two middle-phase conductor hanging points 11 comprise a front middle-phase conductor hanging point 11 and a rear middle-phase conductor hanging point 11, and the front middle-phase conductor hanging point 11 is arranged between the front left-phase conductor cross arm 12a and the front right-phase conductor cross arm 12b and the rear middle-phase conductor hanging point 11 is arranged between the rear left-phase conductor cross arm 12c and the rear right-phase conductor cross arm 12d in a top view.

The projections of the different wire crossarms 12 and the intermediate phase wire hanging points 11 on the reference plane are staggered with respect to the plane perpendicular to the shaft 10. Thus, the cable terminal rod 100 after the wires are connected has a small occupied space, and can lead the power transmission wires to the ground simply and smoothly in a small space range.

Referring to fig. 4, in an embodiment, the cable termination pole 100 further includes: the first supporting insulator cross arm 13 assemblies are located below the middle phase conductor hanging points 11, the first supporting insulator cross arm 13 assemblies comprise two first supporting insulator cross arms 13, one ends of the first supporting insulator cross arms 13 are connected with the rod body 10, the other ends of the first supporting insulator cross arms 13 are suspended and protruded out of the periphery of the rod body 10, and the first supporting insulators are arranged below the middle phase conductor hanging points 11 in a one-to-one correspondence mode.

The arrangement of the first supporting insulator crossarm 13 facilitates the adjustment of the distance of the phase conductors from the shaft 10 in the control. And the distances among the middle phase wires, the left Xiang Daoxian and the right phase wires are controlled, so that the safety and the power supply reliability are effectively improved.

In one embodiment, the first support insulator crossarm assembly is located between the medium phase conductor suspension point 11 and the conductor crossarm assembly.

In another embodiment, the first support insulator crossarm assembly may also lie in the same plane as the wire crossarm assembly. The implementation of the above embodiment is beneficial to the layout of the wires, control the wire spacing, and improve the safety of the cable termination pole 100 during construction.

In one embodiment, the two first supporting insulator crossarms 13 are respectively: the front first support insulator cross arm 13 and the rear first support insulator cross arm 13 are arranged between the front left phase conductor cross arm 12a and the front right phase conductor cross arm 12b, the rear first support insulator cross arm 13 is arranged between the rear right phase conductor cross arm 12d and the rear left phase conductor cross arm 12c, and the included angles between the front first support insulator cross arm 13 and the front left phase conductor cross arm 12a and between the front right phase conductor cross arm 12b, and between the rear first support insulator cross arm 13 and the rear left phase conductor cross arm 12c and between the rear right phase conductor cross arm 12d are all 45 degrees when viewed in the top view direction.

So set up, make the three-phase wire divide the angle configuration, solved the not enough problem of circuit inter-phase distance, brought very big facility for construction and maintenance, practiced thrift the cost, effectively improved security and power supply reliability, guaranteed inter-phase distance, it is rationally distributed, it is convenient to install, reliability and security have all obtained the improvement.

Referring to fig. 5, in one embodiment, the cable termination pole 100 further includes: the second support insulator cross arm 14 assemblies, the second support insulator cross arm 14 assemblies are arranged below the wire cross arm assemblies at intervals along the extending direction of the rod body 10, one end of each second support insulator cross arm 14 is connected with the rod body 10, the other end of each second support insulator cross arm 14 is suspended and protrudes out of the periphery of the rod body 10, two second support insulators are arranged under each first support insulator cross arm 13 in a one-to-one correspondence manner, and four second support insulators are arranged under each wire cross arm 12 in a one-to-one correspondence manner.

It will be appreciated that the two left and right phase conductors, after passing through the conductor cross arm 12, are then vertically routed down through the second support insulator cross arm 14 and connected to the nearest cable termination 16 therebelow, and are diverted into cable ground by the cable termination 16. After the two middle phase wires are led in from the two middle phase wire hanging points 11, the distances between the two middle phase wires and the rod body 10 are balanced through the first supporting insulator cross arm 13, the two middle phase wires are connected to the second supporting insulator cross arm 14 corresponding to the lower middle phase wires, and are connected to the nearest cable terminal 16 below the second supporting insulator cross arm, and the two middle phase wires are converted into a cable ground through the cable terminal 16. Because the two second supporting insulators are arranged under the first supporting insulator cross arms 13 in a one-to-one correspondence manner, the four second supporting insulators are arranged under the wire cross arms 12 in a one-to-one correspondence manner. The device is simple in down-lead mode, low in engineering cost and convenient to operate and maintain.

Referring to fig. 6 and 7, in one embodiment, the cable termination pole 100 further includes: the installation platform 15, the installation platform 15 is located on the shaft 10, and follow the extension direction interval of shaft 10 is located the below of wire cross arm subassembly, install cable termination 16 and arrester 17 on the installation platform 15, the quantity of cable termination 16 with the quantity of arrester 17 all with the quantity of second supporting insulator is unanimous.

One lightning arrester 17 is provided for each cable terminal 16, ensuring the safety of the cable terminal rod 100 when exposed outdoors. Further, since the number of the cable terminal heads 16 and the number of the lightning arresters 17 are identical to the number of the second supporting insulators. After each wire is connected to the second supporting insulator, it is connected to the corresponding cable terminal 16 and lightning arrester 17. By adopting the connection relation, the connection of the wires and the terminal heads is facilitated for workers, the crossing between the wires of the cable terminal rod 100 is avoided, and the stability and safety of the cable terminal rod 100 and the wires are ensured. Further, the mounting platform 15 is configured such that the shaft 10 is no longer loaded by an additional ground cable, facilitating safe operation of the cable termination pole 100.

The installation platform 15 is convenient for installing equipment such as a cable terminal and a lightning arrester 17, and also facilitates operation maintenance, test overhaul of the equipment such as the cable terminal and the lightning arrester 17 by operation and inspection personnel at the later stage, and considers the operation safety of the operation and inspection personnel. The whole structure is simple and clear, galvanized steel is adopted, the structure process is simple, and the construction is simple and easy to implement.

Referring to fig. 7, in an embodiment, the mounting platform 15 includes a front mounting platform 15a and a rear mounting platform 15b, the front mounting platform 15a and the rear mounting platform 15b are circumferentially spaced around the shaft 10, and a ladder stand mounting position is further provided between the front mounting platform 15a and the rear mounting platform 15 b.

The cat ladder is convenient for the staff to climb to the arbitrary height of the combined tower and carry out maintenance work by means of the cat ladder. The application has the advantages of reasonable wiring of the effective wires at intervals, simple construction and convenient maintenance.

Referring to fig. 3, 8 and 9, in an embodiment, the cable termination pole 100 further includes a ground wire cross arm 18 assembly, the ground wire cross arm 18 assembly includes two ground wire cross arms 18, one end of the ground wire cross arm 18 is connected with the pole body 10, the other end of the ground wire cross arm 18 is suspended and protrudes from the periphery of the pole body 10, and each ground wire cross arm 18 is circumferentially spaced around the pole body 10; the ground wire cross arm 18 assembly is arranged above the middle phase conductor hanging point 11 at intervals along the extending direction of the rod body 10, and the ground wire cross arm 18, the middle phase conductor hanging point 11 and the conductor cross arm 12 are distributed in a staggered manner when seen in a top view direction.

The structural form of the traditional cable terminal pole 100 is optimally designed, the optimized structure is reasonable in space layout, materials are saved, occupied land resources are reduced, convenience in construction and maintenance is greatly improved, and guarantee is provided for safe and stable operation of an electric power transmission system.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present utility model, and these modifications and substitutions should also be considered as being within the scope of the present utility model.

Claims (10)

1. A cable termination pole comprising:

a shaft extending in a vertical direction;

the two middle phase conductor hanging points are arranged on the periphery of the rod body, and the two middle phase conductor hanging points are circumferentially arranged at intervals around the rod body; and

the wire cross arm assembly comprises four wire cross arms, one end of each wire cross arm is connected with the rod body, the other end of each wire cross arm is suspended and protrudes out of the periphery of the rod body, and the wire cross arms are circumferentially arranged at intervals around the rod body;

the middle phase conductor hanging points and the conductor cross arm assemblies are distributed at intervals along the extending direction of the rod body, the conductor cross arm assemblies are located below the middle phase conductor hanging points and are distributed in a staggered mode along the overlooking direction.

2. The cable termination pole of claim 1, wherein four of the wire cross arms lie in the same plane and an angle between adjacent two of the wire cross arms is 90 °.

3. The cable termination pole of claim 2, wherein the four wire cross arms are: the front left phase wire cross arm, the front right phase wire cross arm, the back left phase wire cross arm and the back right phase wire cross arm, the front left phase wire cross arm, the front right phase wire cross arm, the back right phase wire cross arm and the back left phase wire cross arm are sequentially arranged along the circumferential direction of the pole body, the two middle phase wire hanging points comprise a front middle phase wire hanging point and a back middle phase wire hanging point, the front middle phase wire hanging point is arranged between the front left phase wire cross arm and the front right phase wire cross arm, and the back middle phase wire hanging point is arranged between the back left phase wire cross arm and the back right phase wire cross arm.

4. The cable termination pole of claim 3, wherein the cable termination pole further comprises:

the first supporting insulator cross arm assembly is located below the hanging point of the medium-phase conductor, the first supporting insulator cross arm assembly comprises two first supporting insulator cross arms, one ends of the first supporting insulator cross arms are connected with the rod body, the other ends of the first supporting insulator cross arms are suspended and protrude out of the periphery of the rod body, and the first supporting insulators are arranged under the hanging point of the medium-phase conductor in a one-to-one correspondence mode.

5. The cable termination pole of claim 4, wherein the first support insulator crossarm assembly is located between the mid-phase conductor suspension point and the conductor crossarm assembly.

6. The cable termination pole of claim 5, wherein the two first support insulator crossarms are: the front first support insulator cross arm and the rear first support insulator cross arm are arranged between the front left phase conductor cross arm and the front right phase conductor cross arm, the rear first support insulator cross arm is arranged between the rear right phase conductor cross arm and the rear left phase conductor cross arm, the front first support insulator cross arm is arranged between the front left phase conductor cross arm and the front right phase conductor cross arm, the rear first support insulator cross arm is arranged between the rear left phase conductor cross arm and the rear right phase conductor cross arm, and the included angles between the rear first support insulator cross arm and the rear left phase conductor cross arm and between the rear right phase conductor cross arm are all 45 degrees.

7. The cable termination pole of claim 6, wherein the cable termination pole further comprises:

the second support insulator cross arm assembly is arranged below the wire cross arm assembly at intervals along the extending direction of the rod body, one end of the second support insulator cross arm is connected with the rod body, the other end of the second support insulator cross arm is suspended and protrudes out of the periphery of the rod body, the two second support insulator cross arms are arranged under the first support insulator cross arms in a one-to-one correspondence mode, and the four second support insulator cross arms are arranged under the wire cross arms in a one-to-one correspondence mode.

8. The cable termination pole of claim 7, wherein the cable termination pole further comprises:

the installation platform is arranged on the rod body, the installation platform is arranged below the wire cross arm assembly at intervals along the extending direction of the rod body, the installation platform is provided with cable terminals and lightning arresters, and the number of the cable terminals and the number of the lightning arresters are consistent with that of the second supporting insulators.

9. The cable termination pole of claim 8, wherein the mounting platform comprises a front mounting platform and a rear mounting platform, the front mounting platform and the rear mounting platform being circumferentially spaced around the pole body, a ladder mounting location being further provided between the front mounting platform and the rear mounting platform.

10. The cable termination pole of claim 1, further comprising a ground wire cross arm assembly comprising two ground wire cross arms, one end of the ground wire cross arm being connected to the pole body, the other end of the ground wire cross arm being suspended and protruding from the outer periphery of the pole body, each of the ground wire cross arms being circumferentially spaced around the pole body;

the ground wire cross arm assembly is arranged above the middle phase conductor hanging points at intervals along the extending direction of the rod body, and the ground wire cross arm, the middle phase conductor hanging points and the conductor cross arm are distributed in a staggered mode when seen in the overlooking direction.

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