CN218347025U - Quick aerial laying device of communication cable - Google Patents

Abstract

The utility model relates to a communication cable makes somebody a mere figurehead and lays technical field, and the application discloses a quick built on stilts laying device of communication cable, which comprises a supporting rod, a pedestal, the A-frame, clamping mechanism, the bracing piece is equipped with a plurality of festivals, bolted connection between a plurality of festivals vaulting pole head and the tail, the vertical setting of bracing piece, the base level sets up and places on subaerial, the bottom festival vaulting pole is installed on the base, install the A-frame on the bottom festival vaulting pole, clamping mechanism installs on the top festival vaulting pole, clamping mechanism is used for pressing from both sides tight communication cable, prior art is solved and is present, quick built on stilts laying device of communication cable adopts wooden pole or cement pole more, and is bulky, need to dig the hole, the operation such as act as acting as go-between, it is inconvenient to construct, be not suitable for quick built on stilts temporary laying of communication cable, realized providing a stable in structure, the equipment is convenient, the quick built on stilts laying device of simple operation, small size is exquisite.

Description

Quick aerial laying device of communication cable

Technical Field

The application relates to the technical field of overhead laying of communication cables, in particular to a quick overhead laying device of the communication cables.

Background

The communication cable overhead laying is the most common work in the communication cable construction process, and the communication cable overhead laying means that a communication cable frame is hung on an electric pole with a certain height from the ground so as to form a communication cable building mode of a communication cable line, and the overhead cable needs to be temporarily and quickly laid in the processes of overhead operation rush repair and the like so as to improve the construction quality and ensure normal communication.

However, in the process of implementing the technical scheme of the invention in the embodiments of the present application, the inventor of the present application finds that at least the following technical problems exist:

at present, the quick built on stilts laying device of communication cable adopts wooden pole or cement pole more, and the volume is great, needs operations such as pit digging, act as go-between, and the construction is not convenient, is not suitable for quick built on stilts to lay temporarily.

Disclosure of Invention

The embodiment of the application provides a quick built on stilts laying device of communication cable, has solved current among the prior art, and quick built on stilts laying device of communication cable adopts wooden pole or cement pole more, and the volume is great, needs the operations such as digging pit, act as go-between, and it is inconvenient to be under construction, is not suitable for the quick built on stilts problem of laying temporarily, has realized providing a stable in structure, equipment convenience, simple operation, small in size for quick built on stilts laying of communication cable.

The embodiment of the application provides a quick built on stilts laying device of communication cable, including bracing piece, base, A-frame, clamping mechanism, the bracing piece is equipped with a plurality of festivals, a plurality of festivals bolted connection between the bracing piece end to end, the vertical setting of bracing piece, the base level sets up and places subaerially, and one section is below the bracing piece is installed on the base, one section is below install on the bracing piece the A-frame, the A-frame is used for fixing the bracing piece, clamping mechanism installs one section the top on the bracing piece, clamping mechanism is used for pressing from both sides the communication cable of drawing forth in the tight subaerial cable dish.

Further, install the fixed buckle of cable on the bracing piece, the fixed buckle of cable includes left clamp and right clamp, a plurality of through-hole that is used for the bolt to pass is all seted up to left clamp with on the right clamp, cable ring is had in the both ends rigid coupling of right clamp, the internal diameter of cable ring is greater than the diameter of communication cable.

Furthermore, sponge anti-slip pads are arranged on the inner surfaces of the left clamping hoop and the right clamping hoop, which are abutted against the supporting rod.

Further, evenly set up a plurality of snap ring along the circumferencial direction on the bracing piece, subaerial a plurality of and the bearing weight of number and snap ring number unanimity placed, the bearing weight is connected with haulage rope one end, the one end of climbing buckle is connected to the other end of haulage rope, the other end lock joint of climbing buckle is in the top one on the snap ring on the bracing piece, the haulage rope is taut completely.

Further, clamping mechanism includes clamp, fixing base, remote control electric telescopic handle, mount pad and remote control electric clamping jaw, the clamp can revolute the rotation of axes, two round holes have been seted up on the clamp the round hole is used for a bolt to pass, the rigid coupling has the fixing base on the clamp, vertically on the fixing base be provided with remote control electric telescopic handle, remote control electric telescopic handle can stretch out and draw back in vertical direction, the remote control electric telescopic handle below is provided with the mount pad, install on the side of mount pad remote control electric clamping jaw, circular through-hole has been seted up to the clamp connection department of remote control electric clamping jaw, the diameter of circular through-hole slightly is less than the diameter of communication cable.

Furthermore, fixing flanges are fixedly connected to two ends of the supporting rod, and the fixing flanges are planar flanges.

Furthermore, a plurality of reinforcing rib plates are fixedly connected to the supporting rod and the fixed flange and are uniformly distributed around the circumferential direction.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

1. the supporting rods are arranged to be provided with a plurality of sections, the supporting rods are connected through bolts between the head and the tail of the supporting rods, when the supporting rods are needed to be quickly erected and temporarily laid, the supporting rods are arranged to be multi-section, the whole size of the multi-section supporting rods is small, the multi-section supporting rods are convenient to carry to a construction site, and due to the bolts between the head and the tail of the multi-section supporting rods, the multi-section supporting rods can be quickly assembled on the construction site.

2. The cable fixing buckle is arranged on the supporting rod, so that after the communication cable is led out from the optical cable disc, the communication cable firstly passes through the cable fixing buckle on the supporting rod except for the lowest section of supporting rod and then is clamped on the clamping mechanism, the communication cable is stable between the optical cable disc and the clamping mechanism, the communication cable is not prone to shaking, and subsequent communication cable laying is facilitated.

Drawings

Fig. 1 is a schematic overall structure diagram of a rapid overhead communication cable laying device in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a fixing flange in the rapid aerial laying device for communication cables in the embodiment of the present application;

fig. 3 is a schematic structural view of a cable fixing buckle in the rapid aerial communication cable laying device in the embodiment of the present application;

fig. 4 is a schematic structural diagram of a base and a triangular bracket in the rapid overhead routing device for communication cables according to the embodiment of the present application;

FIG. 5 is an enlarged view of portion A of FIG. 1;

fig. 6 is a schematic structural diagram of a clamping mechanism in the rapid aerial installation device for communication cables according to the embodiment of the present application;

in the figure: 1. a support bar; 2. a base; 3. a triangular bracket; 4. a clamping mechanism; 5. a cable reel; 6. a communication cable; 7. a cable fixing buckle; 71. a left clamp; 72. a right clamp; 73. a through hole; 74. a cable loop; 75. a sponge anti-slip pad; 11. a snap ring; 8. a load-bearing weight; 9. a hauling rope; 10. climbing buckles; 41. clamping a hoop; 42. a fixed seat; 43. remotely controlling the electric telescopic rod; 44. a mounting base; 45. remotely controlling the electric clamping jaw; 411. a rotating shaft; 412. a circular hole; 451. a circular through hole; 12. fixing the flange; 13. reinforcing a rib plate; 31. a main rod; 32. an auxiliary rod; 33. a triangular clamp; 34. a triangular support.

Detailed Description

At present, the quick built on stilts laying device of communication cable adopts wooden pole or cement pole more, and the volume is great, needs operations such as pit digging, act as go-between, and the construction is not convenient, is not suitable for quick built on stilts to lay temporarily. The inventor has considered a quick built on stilts laying device of communication cable, including bracing piece 1, base 2, A-frame 3, clamping mechanism 4, bracing piece 1 is equipped with a plurality of festivals, bolted connection between 1 head and the tail of a plurality of festivals vaulting pole, 1 vertical setting of bracing piece, 2 levels of base set up and place subaerially, one section of vaulting pole 1 of below is installed on base 2, install A-frame 3 on one section of vaulting pole 1 of below, A-frame 3 is used for fixed support pole 1, clamping mechanism 4 is installed on one section of vaulting pole 1 of the top, clamping mechanism 4 is arranged in pressing from both sides the communication cable 6 of drawing forth in the tight subaerial cable dish 5 of clamp. The quick aerial laying device with the advantages of stable structure, convenience in assembly, convenience in operation and small size is provided for quick aerial laying of the communication cable.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

As shown in fig. 1 and fig. 2, an embodiment of the present application relates to a fast overhead cabling device for communication cables, including: bracing piece 1, base 2, A-frame 3, clamping mechanism 4, bracing piece 1 is equipped with a plurality of festivals, the equal rigid coupling in bracing piece 1 both ends has mounting flange 12, mounting flange 12 is the planar flange, use mounting flange 12 to carry out the bolt fastening to two adjacent bracing pieces 1, the welding has a plurality of reinforcing rib plate 13 between bracing piece 1 and the mounting flange 12, a plurality of reinforcing rib plate 13 is around circumferencial direction evenly distributed, reinforcing rib plate 13's setting, the fastness of rigid coupling between bracing piece 1 and the mounting flange 12 has been strengthened, when needs carry out quick built on stilts interim laying, because bracing piece 1 sets into the multisection, multisection bracing piece 1's whole volume is less, be convenient for carry and take the job site to, because bolted connection between multisection bracing piece 1 head and the tail, can be quick assemble multisection bracing piece 1 at the job site.

As shown in fig. 1, the supporting rod 1 is vertically arranged, the base 2 is horizontally arranged and placed on the ground, the base 2 is arranged in an H shape, the base 2 is stable, the base 2 is provided with bolt holes matched with the fixing flanges 12, and the fixing flanges 12 on the supporting rod 1 at the bottom are connected to the base 2 through bolts.

As shown in fig. 3, the tripod 3 is installed on the lowest section of the supporting rod 1, the tripod 3 includes a main rod 31, an auxiliary rod 32, triangular clamping hoops 33 and a triangular support 34, the three upper triangular clamping hoops 33 are installed on the supporting rod 1 through bolt connection, the three upper triangular clamping hoops 33 are rotatably connected with the three main rods 31 which are obliquely placed, the three main rods 31 are uniformly distributed around the circumferential direction of the supporting rod 1, the main rod 31 is rotatably connected with the auxiliary rod 32 which is horizontally placed, the auxiliary rod 32 is rotatably connected with the lower triangular clamping hoop 33, the three lower triangular clamping hoops 33 are installed on the supporting rod 1 through bolt connection, the triangular support 34 is fixedly connected to the bottom of the main rod 31, and the triangular support 34 is horizontally placed on the ground. A triangular support 3 is used for fixing the supporting rod 1, and the supporting rod 1 can be stably fixed by the aid of the base 2 and the triangular support 3, so that the supporting rod 1 can be erected conveniently.

As shown in fig. 1 and 4, cable fixing buckles 7 are installed on the support rods 1 except for the lowermost section of the support rod 1, each cable fixing buckle 7 includes a left clamp 71 and a right clamp 72, a plurality of through holes 73 for bolts to pass through are respectively formed on the left clamp 71 and the right clamp 72, cable rings 74 are fixedly connected to two ends of the right clamp 72, the inner diameter of each cable ring 74 is larger than the diameter of the communication cable 6, the cable fixing buckles 7 are arranged to enable the communication cable 6 to pass through the cable fixing buckles 7 on the support rods 1 except for the lowermost section of the support rod 1 after being led out from the optical cable tray 5 and then clamped to the clamping mechanism 4, so that the communication cable 6 is stable between the optical cable tray 5 and the clamping mechanism 4 and is not prone to shake, subsequent cable laying is facilitated, and sponge anti-slip pads 75 are arranged on the abutting inner surfaces of the left clamp 71 and the right clamp 72 and the support rod 1, so that the cable fixing buckles 7 are installed on the support rods 1 more tightly and are not prone to slip.

As shown in fig. 1 and 5, a plurality of snap rings 11 are uniformly arranged on the support rod 1 along the circumferential direction, a plurality of load-bearing weights 8 with the same number as the snap rings 11 are placed on the ground, the load-bearing weights 8 are connected with one end of a traction rope 9, the other end of the traction rope 9 is connected with one end of a climbing buckle 10, the other end of the climbing buckle 10 is buckled on the snap ring 11 on the uppermost support rod 1, and the traction rope 9 is completely tensioned.

As shown in fig. 1 and 6, a clamping mechanism 4 is mounted on the uppermost one of the support rods 1, and the clamping mechanism 4 is used to clamp the communication cables 6 led out from the cable drum 5 on the ground. Clamping mechanism 4 includes clamp 41, fixing base 42, remote control electric telescopic handle 43, mount pad 44 and remote control electric clamping jaw 45, clamp 41 can revolve rotation 411, two round holes 412 have been seted up on clamp 41, two round holes 412 are used for a bolt to pass, the rigid coupling has fixing base 42 on clamp 41, the last vertical remote control electric telescopic handle 43 that is provided with of fixing base 42, remote control electric telescopic handle 43 can stretch out and draw back in vertical direction, remote control electric telescopic handle 43 below is provided with mount pad 44, install remote control electric clamping jaw 45 on the side of mount pad 44, circular through-hole 451 has been seted up to remote control electric clamping jaw 45's the tight department of clamp, the diameter of circular through-hole 451 slightly is less than the diameter of communication cable 6.

The functional principle of the present application can be illustrated by the following operation modes:

an operator firstly installs the lowest section of the supporting rod 1 on the base 2, installs the triangular support 3 on the lowest section of the supporting rod 1 through the triangular clamping hoop 33, at the moment, the triangular support 34 is horizontally placed on the ground, cable fixing buckles 7 are installed on the supporting rods 1 except the lowest section of the supporting rod 1, the supporting rods 1 are sequentially connected from bottom to top, the bearing weights 8 are uniformly and horizontally placed on the ground along the circumferential direction of the supporting rod 1, one end of the traction rope 9 is connected with the bearing weights 8, the other end of the traction rope is connected with one end of the climbing buckle 10, the other end of the climbing buckle 10 is buckled on a snap ring 11 on the uppermost section of the supporting rod 1, the traction rope 9 is completely tensioned, the clamping mechanism 4 is installed on the uppermost section of the supporting rod 1, the communication cables 6 sequentially penetrate through the cable fixing buckles 7 from bottom to top, then the communication cables 6 penetrate through the semi-loosening clamping mechanism 4, a certain length of the communication cables 6 can be drawn out from the optical cable disc 5 as required, then the clamping mechanism 4 is closed, and laying of the communication cables 6 is carried out.

Therefore, the quick aerial laying device with stable structure, convenient assembly, convenient operation and small volume is provided for the quick aerial laying of the communication cable.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present application and the concept thereof within the scope of the present application.

Claims (7)

1. A quick aerial laying device of communication cable, characterized by, includes: bracing piece (1), base (2), A-frame (3), clamping mechanism (4), bracing piece (1) is equipped with a plurality of festivals, a plurality of festivals bolted connection between bracing piece (1) end to end, bracing piece (1) vertical setting, base (2) level sets up and places in subaerial, the below festival bracing piece (1) is installed on base (2), the below festival install on bracing piece (1) A-frame (3), A-frame (3) are used for fixing bracing piece (1), clamping mechanism (4) are installed at the top festival on bracing piece (1), clamping mechanism (4) are arranged in pressing from both sides the communication cable (6) of drawing forth in tight ground optical cable dish (5).

2. The quick aerial laying device of communication cables as claimed in claim 1, wherein the supporting rod (1) is provided with a cable fixing buckle (7), the cable fixing buckle (7) comprises a left clamp (71) and a right clamp (72), the left clamp (71) and the right clamp (72) are respectively provided with a plurality of through holes (73) for bolts to pass through, two ends of the right clamp (72) are fixedly connected with cable rings (74), and the inner diameter of each cable ring (74) is larger than the diameter of the communication cable (6).

3. A rapid aerial installation device for communication cables according to claim 2, characterized in that sponge anti-slip pads (75) are arranged on the inner surfaces of the left clamp (71) and the right clamp (72) which are abutted against the supporting rod (1).

4. The quick aerial laying device of communication cables as claimed in claim 1, wherein a plurality of snap rings (11) are uniformly arranged on the support rod (1) along the circumferential direction, a plurality of bearing weights (8) with the number identical to that of the snap rings (11) are placed on the ground, a traction rope (9) is arranged between the bearing weights (8) and the snap rings (11), one end of the traction rope (9) is tied on the bearing weights (8), the other end of the traction rope is tied with a mountain climbing buckle (10), and the mountain climbing buckle (10) is buckled on the snap ring (11) on the uppermost section of the support rod (1).

5. The device for quickly laying overhead communication cables as claimed in claim 1, wherein the clamping mechanism (4) comprises a clamp (41), a fixing seat (42), a remote control electric telescopic rod (43), a mounting seat (44) and a remote control electric clamping jaw (45), the clamp (41) can rotate around a rotating shaft (411), two round holes (412) are formed in the clamp (41), two round holes (412) are used for a bolt to pass through, the fixing seat (42) is fixedly connected to the clamp (41), the remote control electric telescopic rod (43) is vertically arranged on the fixing seat (42), the remote control electric telescopic rod (43) can stretch in the vertical direction, the mounting seat (44) is arranged below the remote control electric telescopic rod (43), the remote control electric clamping jaw (45) is installed on the side surface of the mounting seat (44), a round through hole (451) is formed in the clamping position of the remote control electric clamping jaw (45), and the round through hole (451) is used for clamping and passing through the communication cable (6).

6. The quick aerial laying device of communication cables as claimed in claim 1, characterized in that fixing flanges (12) are fixedly connected to both ends of the supporting rod (1), and the fixing flanges (12) are planar flanges.

7. The device for quickly laying overhead communication cables according to claim 6, wherein a plurality of reinforcing rib plates (13) are fixedly connected to the supporting rod (1) and the fixed flange (12), and the plurality of reinforcing rib plates (13) are uniformly distributed around the circumferential direction.

Images