CN210297079U - Corner device for laying cable - Google Patents

Abstract

The utility model provides a corner device for cabling belongs to cable laying equipment technical field. The method comprises the following steps: main corner subassembly, connecting rod, supplementary corner subassembly and fixed handle. The main corner assembly comprises a first arc-shaped frame and a plurality of main corner pulleys, and the main corner pulleys are arranged in the first arc-shaped frame; one end of the connecting rod is arranged at the bottom of the first arc-shaped frame, and the connecting rod is vertical to the orthographic projection surface of the first arc-shaped frame; the auxiliary corner assembly comprises a second arc-shaped frame and a plurality of auxiliary corner pulleys, the second arc-shaped frame is rotatably connected with one end of the connecting rod away from the first arc-shaped frame, the auxiliary corner pulleys are arranged in the second arc-shaped frame, and the fixed handle is arranged on one side, away from the connecting rod, of the second arc-shaped frame. In the cable laying process, only one person is needed to apply an acting force to the auxiliary corner assembly at the corner, so that the auxiliary corner assembly is close to the main corner assembly, the cable corner effect can be achieved, the labor cost is saved, and the labor efficiency is improved.

Description

Corner device for laying cable

Technical Field

The utility model belongs to the technical field of cable laying equipment, concretely relates to corner device for cabling.

Background

In the cable laying process, the turning of the cable is mostly needed to be realized by using the corner pulley, but because the weight of the cable is large, the pulley is easy to turn on one side during cable laying, so that the cable is separated from a laying track, and the cable is damaged. Especially when carrying out cable laying under complicated topography environment such as mountain region, cable corner camber is great, needs to consume the continuous rightting of a large amount of manpowers, and the suppression comes the current corner wheel of adjustment, and consuming time and wasting force causes the cable damage simultaneously easily.

Among the prior art, the cable laying turning device that provides through the connected mode of setting up the pulley into the chain formula, realizes the adjustable of corner camber, length, but this corner device turns on one side easily, and on the other hand needs rely on corner topography during the installation, when using under complicated topography conditions such as mountain area, the cable contacts with the massif easily, causes the cable damage, can't satisfy the operation requirement.

Disclosure of Invention

In view of this, the utility model provides a corner device for cabling to when having the cabling under the complicated topography conditions such as mountain region among the solution prior art, the cable of existence causes the technical problem of cable damage with the massif contact easily.

The utility model provides a technical scheme that its technical problem adopted is:

a corner device for cabling comprising:

the main corner assembly comprises a first arc-shaped frame and a plurality of main corner pulleys, and the main corner pulleys are arranged in the first arc-shaped frame;

one end of the connecting rod is arranged at the bottom of the first arc-shaped frame, and the connecting rod is perpendicular to the orthographic projection surface of the first arc-shaped frame;

the auxiliary corner assembly comprises a second arc-shaped frame and a plurality of auxiliary corner pulleys, the second arc-shaped frame is rotatably connected with one end, far away from the first arc-shaped frame, of the connecting rod, the second arc-shaped frame and the first arc-shaped frame are concentric when the second arc-shaped frame rotates around the connecting rod to a position parallel to the first arc-shaped frame, the plurality of auxiliary corner pulleys are arranged in the second arc-shaped frame, and the auxiliary corner pulleys and the main corner pulleys are arranged at intervals when the second arc-shaped frame rotates around the connecting rod to a position parallel to the first arc-shaped frame; and

the fixed handle is arranged on one side, far away from the connecting rod, of the second arc-shaped frame.

Preferably, a supporting block is arranged at one end of the connecting rod, which is far away from the first arc-shaped frame, and a rotating hole is formed in the supporting block; one side of the second arc-shaped frame is provided with a rotating shaft, and the rotating shaft is inserted in the rotating hole and can rotate in the rotating hole.

Preferably, the fixed handle is rotatably connected to a side of the second arc frame away from the connecting rod.

Preferably, fixed handle includes rotation portion and connection the holding rod portion of rotation portion, the one end of rotation portion articulated connect in the second arc frame is kept away from one side of connecting rod, the sliding is provided with fixed fastener in the rotation portion, fixed fastener can the joint in on the first arc frame.

Preferably, the bottom of the first arc-shaped frame is provided with a ground grabbing hole, and a ground grabbing piece is inserted in the ground grabbing hole.

Preferably, the first arc-shaped frame is further provided with a stabilizing member, the stabilizing member is connected with two ends of the first arc-shaped frame, and the stabilizing member is provided with an auxiliary ground grasping member.

Preferably, the number of the main corner pulleys is three, and the number of the auxiliary corner pulleys is two.

According to the above technical scheme, the utility model provides a corner device for cabling, its beneficial effect is: by arranging the main corner assembly and the auxiliary corner assembly and enabling the auxiliary corner assembly to rotate relative to the main corner assembly, when a cable needs to be turned, the turning device for laying the cable is placed at a position with a certain distance from a mountain or other turning obstacles, the auxiliary turning component is rotated to separate the auxiliary turning component from the main turning component, the cable is placed between the main turning component and the auxiliary turning component, the auxiliary turning component is rotated to enable the auxiliary turning component to be close to the main turning component, and the cable is fixedly clamped, and the cable is guided by the pulleys arranged on the main corner component and the auxiliary corner component, the cable is far away from the mountain or other corner obstacles, and the contact damage of the cable and the mountain or other corner obstacles is avoided. In the cable laying process, only one person is needed to apply an acting force to the auxiliary corner component at the corner, so that the auxiliary corner component is close to the main corner component, the cable corner effect can be completed, the labor cost is saved, and the labor efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of a corner device for cable laying according to an embodiment.

Fig. 2 is a schematic structural view of a corner device for cabling according to still another embodiment.

Fig. 3 is a schematic view of the corner device for cabling according to an embodiment in an open state.

Fig. 4 is a schematic structural view of the corner device for cable laying according to the embodiment in an operating state.

In the figure: the cable-laying corner device 10, a main corner component 100, a first arc-shaped frame 110, a main corner pulley 120, a ground gripping part 130, a stabilizing part 140, an auxiliary ground gripping part 141, a connecting rod 200, a supporting block 201, an auxiliary corner component 300, a second arc-shaped frame 310, a rotating shaft 311, an auxiliary corner pulley 320, a fixed handle 400, a rotating part 410, a fixed clamping piece 411 and a holding rod part 420.

Detailed Description

The following combines the drawings of the utility model to further elaborate the technical scheme and technical effect of the utility model.

Referring to fig. 1 and 2, in an embodiment, a cable-laying corner device 10 is used for realizing a corner of a cable when the cable is laid in a complex terrain environment such as a mountain area. The method comprises the following steps: a main corner assembly 100, a connecting rod 200, an auxiliary corner assembly 300, and a fixed handle 400. The main corner assembly 100 comprises a first arc-shaped frame 110 and a plurality of main corner pulleys 120, the main corner pulleys 120 are arranged in the first arc-shaped frame 110, namely the arc-shaped frame 110 is integrally arranged in a circular arc shape, the main corner pulleys 120 are sequentially arranged between an upper arc-shaped cross beam and a lower arc-shaped cross beam of the arc-shaped frame 110 to form an arc-shaped guide for a cable corner, and cables sequentially contact the main corner pulleys 120 to realize the cable corner.

One end of the connecting rod 200 is arranged at the bottom of the first arc-shaped frame 110, and the connecting rod 200 is perpendicular to the orthographic projection surface of the first arc-shaped frame 110, namely, the connecting rod 200 is fixedly connected to the side surface of the first arc-shaped frame 110 and forms a 90-degree included angle with the orthographic projection surface of the first arc-shaped frame 110. That is, the connection rod 200 is disposed parallel to a horizontal plane.

The auxiliary corner assembly 300 includes a second arc frame 310 and a plurality of auxiliary corner pulleys 320, the second arc frame 310 is rotatably connected to an end of the connecting rod 200 away from the first arc frame 110, that is, the second arc frame 310 can rotate around an end of the connecting rod 200 to be close to or away from the first arc frame 110. For example, the second arc frame 310 is hingedly connected to one end of the connection rod 200, for example, by a hinge. In a preferred embodiment, a supporting block 201 is disposed at an end of the connecting rod 200 away from the first arc-shaped frame 110, a rotating hole is formed on the supporting block 201, a rotating shaft 311 is disposed at one side of the second arc-shaped frame 310, and the rotating shaft 311 is inserted into the rotating hole and can rotate in the rotating hole, so as to improve the connection strength and relative rotation fluency between the second arc-shaped frame 310 and the connecting rod 200.

It should be noted that when the second arc frame 310 rotates around the connecting rod 200 to a position parallel to the first arc frame 110, the second arc frame 310 is concentric with the first arc frame 110, that is, when the second arc frame 310 rotates around the connecting rod 200 to a position parallel to the first arc frame 110, the bending directions of the second arc frame 310 and the first arc frame 110 are the same, so as to form a space for passing a cable between the second arc frame 310 and the first arc frame 110.

The plurality of auxiliary corner pulleys 320 are disposed in the second arc-shaped frame 310, and when the second arc-shaped frame 310 rotates around the connecting rod 200 to a position parallel to the first arc-shaped frame 110, the auxiliary corner pulleys 320 and the main corner pulleys 120 are disposed at intervals, so that when a cable is clamped between the second arc-shaped frame 310 and the first arc-shaped frame 110, the cable can simultaneously contact the auxiliary corner pulleys 320 and the main corner pulleys 120, thereby achieving steering. For example, the number of the main corner pulleys 120 is three, the number of the auxiliary corner pulleys 320 is two, and when the second arc frame 310 rotates around the connection rod 200 to a position parallel to the first arc frame 110, the auxiliary corner pulleys 320 are located at a position spaced apart from each other by two adjacent main corner pulleys 120, so that the cable is turned by the main corner pulleys 120 and the auxiliary corner pulleys 320.

The fixing handle 400 is disposed on a side of the second arc-shaped frame 310 away from the connecting rod 200, so that the second arc-shaped frame 310 can rotate around the connecting rod 200 through the fixing handle 400, and an operator applies a downward acting force to the second arc-shaped frame 310 during a cable turning process, so that a cable runs between the second arc-shaped frame 310 and the first arc-shaped frame 110, and the cable is prevented from contacting with a mountain or other obstacles and being damaged.

Referring to fig. 3 and 4, preferably, the fixing handle 400 is rotatably connected to a side of the second arc-shaped frame 310 away from the connecting rod 200, that is, the fixing handle 400 can be bent toward the first arc-shaped frame 110, so that the fixing handle 400 can be fixedly connected to the first arc-shaped frame 110, thereby forming a closed annular space for a cable to pass through, and assisting an operator to perform stable operation of the cable.

For example, the fixed handle 400 includes a rotating portion 410 and a holding portion 420 connected to the rotating portion 410, one end of the rotating portion 410 is hinged to one side of the second arc-shaped frame 310 away from the connecting rod 200, a fixed clip 411 is slidably disposed on the rotating portion 410, and the fixed clip 411 can be clipped on the first arc-shaped frame 110. An operator rotates the second arc-shaped frame 310 to a position where the operator can clamp a cable through the holding portion 420, continues to apply force, rotates the rotating portion 410 relative to the second arc-shaped frame 310, and positions where the second arc-shaped frame 310 is perpendicular to or parallel to the connecting rod 200, and fixedly clamps the fixing handle 400 to the first arc-shaped frame 110 by using the fixing clamp 411, so as to reduce the labor intensity of the operator.

In another embodiment, the bottom of the first arc frame 110 is provided with a ground-grasping hole, and a ground-grasping member 130 is inserted into the ground-grasping hole, so that the first arc frame 110 can be stably fixed on a horizontal ground by the ground-grasping member 130. For example, the ground grabbing part 130 is a drill bit capable of penetrating into the ground, and a driving motor is mounted at the upper end of the drill bit, so that the ground grabbing part 130 can be firmly fixed with the ground, and the labor intensity of an operator is reduced.

Further, a stabilizing member 140 is further disposed on the first arc frame 110, the stabilizing member 140 connects two ends of the first arc frame 110, and an auxiliary ground grasping member 141 is disposed on the stabilizing member 140. For example, the stabilizer 140 is a reinforcing bar or a reinforcing plate connecting both ends of the first arc frame 110, and the stabilizer 140 enables the first arc frame 110 to be stably placed on the ground. The auxiliary ground grasping member 141 may be a wedge or a drill capable of penetrating into the ground.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. A corner device for cabling, comprising:

the main corner assembly comprises a first arc-shaped frame and a plurality of main corner pulleys, and the main corner pulleys are arranged in the first arc-shaped frame;

one end of the connecting rod is arranged at the bottom of the first arc-shaped frame, and the connecting rod is perpendicular to the orthographic projection surface of the first arc-shaped frame;

the auxiliary corner assembly comprises a second arc-shaped frame and a plurality of auxiliary corner pulleys, the second arc-shaped frame is rotatably connected with one end, far away from the first arc-shaped frame, of the connecting rod, the second arc-shaped frame and the first arc-shaped frame are concentric when the second arc-shaped frame rotates around the connecting rod to a position parallel to the first arc-shaped frame, the plurality of auxiliary corner pulleys are arranged in the second arc-shaped frame, and the auxiliary corner pulleys and the main corner pulleys are arranged at intervals when the second arc-shaped frame rotates around the connecting rod to a position parallel to the first arc-shaped frame; and

the fixed handle is arranged on one side, far away from the connecting rod, of the second arc-shaped frame.

2. The corner device for cabling according to claim 1, wherein a support block is provided at an end of the connecting rod away from the first arc-shaped frame, and a rotation hole is formed in the support block; one side of the second arc-shaped frame is provided with a rotating shaft, and the rotating shaft is inserted in the rotating hole and can rotate in the rotating hole.

3. The corner device for cabling of claim 1 wherein said stationary handle is pivotally connected to a side of said second arcuate frame remote from said connecting bar.

4. The corner device for cabling according to claim 3, wherein the fixing handle comprises a rotating part and a lever part connected with the rotating part, one end of the rotating part is hinged to one side of the second arc-shaped frame away from the connecting rod, and a fixing clip is slidably arranged on the rotating part and can be clamped on the first arc-shaped frame.

5. The corner device for cabling of claim 1, wherein a ground engaging hole is formed in a bottom of the first curved frame, and a ground engaging member is inserted into the ground engaging hole.

6. The corner device for cabling of claim 5, wherein said first curved frame is further provided with stabilizing members, said stabilizing members connecting the ends of said first curved frame, said stabilizing members being provided with auxiliary ground-gripping members.

7. The corner device for cabling of claim 1 wherein said primary corner pulleys are three in number and said secondary corner pulleys are two in number.

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