CN220377532U - Clamp system suitable for large-gap and multiphase-angle double-inhaul-cable connection - Google Patents

Abstract

The utility model discloses a clamp system suitable for large-clearance and multi-phase intersection angle double-inhaul cable connection, which comprises a first clamp device and a second clamp device, wherein an adjustable device is matched between the first clamp device and the second clamp device for connection, and the intersection angle between the first clamp device and the second clamp device and the longitudinal interval between the first clamp device and the second clamp device can be adjusted simultaneously by rotating the adjustable device; according to the utility model, the two inhaul cable clamps are in threaded connection, so that the structure is simple, meanwhile, the small-amplitude adjustment of various angles between the two clamps and the adjustment of the distance between the two clamps can be realized through the threaded connection, and the reliability of the inhaul cable clamp and the applicability of the connecting cable clamp are greatly improved.

Description

Clamp system suitable for large-gap and multiphase-angle double-inhaul-cable connection

Technical Field

The utility model relates to the technical field of process manufacturing, in particular to a clamp system suitable for large-clearance and multi-phase intersection angle double-inhaul cable connection.

Background

In civil engineering, two intersecting cables are usually connected and fixed by a clamp. The clamps are designed in two pieces, and the two inhaul cables are fixed at the intersection point of the two inhaul cables through the connection of the upper cover plate and the lower cover plate. The connecting mode is more convenient for the connection of the two crossed inhaul cables in the space, but if the clamp is still adopted for the large-gap double inhaul cables, the distance between the inhaul cables is reduced to the range where the two clamping pieces can be constructed by applying a certain external force in construction, so that the inhaul cables are sheared, and potential safety hazards are generated.

Meanwhile, the existing structure is often required to be reinforced in civil engineering, and when the existing cable network is reinforced by adopting a cable structure, the connection and fixation requirements of the double guy cables with large gaps and multiple intersecting angles can be met at the same time. Developing a clamp with freely adjustable connection angle will bring great convenience to construction.

Therefore, the technical problem that two-piece type clamps are inconvenient to connect with two inhaul cables with large gaps and multiphase intersection angles in the current engineering, and meanwhile potential safety hazards caused by shearing of the inhaul cables can be caused is solved, a crossed cable clamp is disclosed in a patent with publication number of CN 205780585U, the crossed cable clamp is applied to the merging position of crossed cables, the inhaul cables in two extending directions are fixed through a first inhaul cable clamp and a second inhaul cable clamp, and meanwhile the two inhaul cables are rotatably connected with clamping blocks on the first inhaul cable clamp through clamping blocks on the second inhaul cable clamp, so that relative angles between the inhaul cables are adapted, and bending of the inhaul cables is avoided.

The existing crossed cable clamp adjusts the relative angle between the inhaul cables through the cooperation rotation of the sliding grooves, the structure is complex, the angle of the crossed cable clamp can be adjusted, the function is single, the clamping groove phenomenon is easy to generate by means of the rotation of the sliding grooves, and the reliability of the crossed cable clamp is low.

Secondly, the position of the angle of approximately 45 degrees is adjusted in one time in the structure of the existing cross cable clamp, the adjustment amplitude is large, and the adjustment of any angle cannot be realized, so that the existing cross cable clamp is not strong in practicability.

It can be seen how to improve the structural reliability of the cross-clip and the applicability of the extension clip connection is a problem to be solved in the art.

Disclosure of Invention

Aiming at the technical problems of low reliability and low cable clamp connection applicability of the existing cross cable clamp, the utility model aims to provide a clamp system suitable for large-gap and multi-phase intersection angle double-cable connection, which can solve the problems in the prior art, improve the reliability and applicability of the cross cable clamp and well overcome the problems in the prior art.

In order to achieve the above purpose, the utility model provides a clamp system suitable for large-clearance and multi-phase intersection angle double-guy cable connection, which comprises a first clamp device and a second clamp device, wherein an adjustable device is cooperatively arranged between the first clamp device and the second clamp device for connection, and the intersection angle between the first clamp device and the second clamp device and the longitudinal distance between the first clamp device and the second clamp device can be adjusted simultaneously by rotating the adjustable device.

Further, the first clamp device comprises a first cover plate and a first inhaul cable fixing piece; a first end face of the first inhaul cable fixing piece is provided with a first mounting groove; the first cover plate and the first inhaul cable fixing piece are correspondingly provided with locking parts and are matched with the locking parts to connect the first cover plate and the first inhaul cable fixing piece.

Further, a first fixed hose for installing the connected stay rope is arranged in the first installation groove.

Further, the second clamp device comprises a second cover plate and a second inhaul cable fixing piece; a second installation groove is formed in the second inhaul cable fixing piece; the second cover plate and the second inhaul cable fixing piece are correspondingly provided with locking parts and are matched with the locking parts to connect the second cover plate and the second inhaul cable fixing piece.

Further, a second fixing hose for installing the connected stay rope is arranged in the second installing groove.

Further, the adjustable means comprises a protrusion and a mounting hole; the bulge is arranged on the second end face of the first inhaul cable fixing piece, and the mounting hole is correspondingly formed in the center of the second inhaul cable fixing piece; the protrusions are connected with the mounting holes in a matched mode.

Further, an external thread is arranged outside the bulge; and an internal thread matched with the external thread is arranged in the mounting hole.

Further, at least one pad is arranged between the bulge and the mounting hole in a matching way.

The fixture system suitable for large-clearance and multiphase intersection angle double-inhaul cable connection is simple in structure by connecting the two inhaul cable fixtures in a threaded mode, meanwhile, small-amplitude adjustment of various angles between the two fixtures and adjustment of the distance between the two fixtures can be achieved through adjusting the threaded connection depth, and reliability of the inhaul cable fixture and applicability of expanding cable clamp connection are greatly improved.

Drawings

The utility model is further described below with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of an application architecture of the present dual cable tie clip system;

FIG. 2 is an exploded top view of the overall structure of the present dual cable tie clamp system;

FIG. 3 is an exploded bottom view of the overall structure of the present dual cable attachment clamp system;

FIG. 4 is a schematic diagram of the assembled second clamp device of the present dual cable tie clamp system;

fig. 5 is a schematic structural view of the first clamp device in the present dual cable attachment clamp system after assembly.

The following is a description of the components in the drawings:

100. first clamp device 110, first cover 111, second locking portion 112, first recess 120, first cable retainer 121, first securing hose 122, first locking portion 130, first locking member 140, projection 200, second clamp device 210, second cover 211, fourth locking portion 212, second recess 220, second cable retainer 221, second securing hose 222, third locking portion 230, second locking member 240, mounting hole 300, gasket 400, first cable 500, second cable.

Detailed Description

The utility model is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the utility model easy to understand.

Aiming at the technical problems of low reliability and low cable clamp connection applicability of the existing cross cable clamp, the utility model provides a clamp system suitable for large-gap and multi-phase angle double-cable connection, which can solve the problems in the prior art and improve the reliability of the cross cable clamp.

Referring to fig. 1, the clamping system suitable for large-clearance and multi-phase angle dual-cable connection provided by the utility model comprises a first clamping device 100 and a second clamping device 200, wherein the first clamping device 100 and the second clamping device 200 are oppositely arranged and are respectively used for installing a first cable 400 and a second cable 500.

Referring to fig. 2, the first clamp device 100 includes a first cover plate 110 and a first cable mount 120.

The first cable fixing member 120 is relatively provided with a first locking portion 122, and is connected with the first cover plate 110 through the first locking portion 122 in cooperation with the locking member.

Further, the first cable fixing piece 120 is provided with a first installation groove, the first installation groove is used for installing the first fixing hose 121, the depth and the diameter of the first fixing hose 121 are matched with those of the first cable 400, the first cable 400 can be embedded into the first fixing hose 121, and the first cable 400 is stably installed in the first fixing hose 121.

The first cover plate 110 is provided with a second locking part 111 corresponding to the first cable fixing piece 120, and when the first cover plate 110 is in fit connection with the first cable fixing piece 120, the second locking part 111 on the first cover plate 110 is correspondingly arranged with a first locking part 122 on the first cable fixing piece 120, and the first locking piece 130 is arranged to sequentially penetrate through the second locking part 111 and the first locking part 122, so that the first cover plate 110 is connected with the first cable fixing piece 120.

In addition, the first cover plate 110 is provided with the first groove 112, and is adapted to the first fixing hose 121 on the first cable fixing piece 120, so that when the first cover plate 110 is fastened on the first cable fixing piece 120, the first cover plate 110 and the first cable fixing piece 120 are attached to each other, so as to ensure the connection stability of the first cover plate 110 and the first cable fixing piece 120, and the first cable 400 is firmly clamped in the first fixture device 100.

The first fixing hose 121 is arranged in the first cable fixing piece 120, so that the first cable 400 connected with the first fixing hose is prevented from being concentrated in stress at a connecting point, and the first cable 400 is prevented from being damaged.

Referring to fig. 3, the bottom end of the first cable fixing member 120 is provided with a protrusion 140, and the periphery of the protrusion 140 is provided with external threads for being coupled with the second clamp device 200.

The second clamp device 200 includes a second cover plate 210 and a second cable fixture 220.

First, the second cable fixing member 220 has a mounting hole 240 formed therein, and the diameter of the mounting hole 240 is adapted to the diameter of the protrusion 140 at the bottom of the first cable fixing member 120, so that the protrusion 140 at the bottom of the first cable fixing member 120 can be disposed in the mounting hole 240 of the second cable fixing member 220.

Next, the inner wall of the mounting hole 240 is provided with an internal thread, which is adapted to the external thread of the protrusion 140, so that the first fixture device 100 and the second fixture device 200 can be screwed when the protrusion 140 is disposed in the mounting hole.

Further, a plurality of gaskets 300 are matched between the first cable fixing piece 120 and the second cable fixing piece 220, the gaskets 300 are sleeved on the protrusions 140 in a stacked mode, and after the first cable fixing piece 120 is matched and connected with the second cable fixing piece 220, the distance between the first cable fixing piece 120 and the second cable fixing piece 220 can be adjusted in a small range.

The middle of the gasket 300 is provided with a perforation, the diameter of the perforation is matched with the mounting hole 240 of the second cable fixing piece 220, and the center of the perforation diameter and the center of the mounting hole 240 of the second cable fixing piece 220 are positioned on the same axis, so that the protrusion 140 at the bottom of the first cable fixing piece 120 can penetrate through the perforation into the mounting hole 240.

According to the utility model, the first clamp device 100 and the second clamp device 200 are in threaded connection, so that the angle of the first clamp device 100 and the second clamp device 200 can be adjusted according to the rotation angle of the protrusion 140 and the mounting hole 240, the operation is convenient, and the parameter value of the angle can be controlled. In addition, the distance between the first and second clamping devices 100 and 200 may be adjusted by screw connection.

This scheme is through setting up threaded connection, not only can adjust the angle between first fixture device 100 and the second fixture device 200, can also adjust the interval between first fixture device 100 and the second fixture device 200, integrates two kinds of regulatory function in a structure, has still increased the variety of device function when having optimized the device structure.

Further, a third locking portion 222 is disposed on the second cable fixing member 220, and is connected to the second cover 210 by the third locking portion 222 cooperating with the locking member.

Further, the second cable fixing piece 220 is provided with a second installation groove, the second installation groove is used for installing the second fixed hose 221, the depth and the diameter of the second fixed hose 221 are matched with those of the second cable 500, the second cable 500 can be embedded into the second fixed hose 221, and the second cable 500 is stably installed in the second fixed hose 221.

The second fixing hose 221 is arranged in the second cable fixing piece 220, so that the connected second cable 500 is prevented from being concentrated in stress at the connecting point, and the second cable 500 is prevented from being damaged.

The second cover plate 210 is provided with a fourth locking part 221 corresponding to the second cable fixing piece 220, and when the second cover plate 210 is in fit connection with the second cable fixing piece 220, the fourth locking part 221 on the second cover plate 210 is correspondingly arranged with a third locking part 222 on the second cable fixing piece 220, and the second locking piece 230 is arranged to sequentially penetrate through the third locking part 222 and the fourth locking part 221, so that the second cable fixing piece 220 is connected with the second cover plate 210.

In addition, the second cover plate 210 is provided with a second groove 212, and is adapted to the second installation hose 221 on the second cable fixing piece 220, when the second cover plate 210 is opened on the second cable fixing piece 220, the second cover plate 210 and the second cable fixing piece 220 can be attached to each other, so that the connection stability of the second cover plate 210 and the second cable fixing piece 220 is ensured, and the second cable 500 is firmly clamped in the second clamp device 200.

The following illustrates the working process of the present utility model in specific application, and what is described herein is merely one specific application example of the present solution, and is not limited to the present solution.

When the first inhaul cable and the second inhaul cable are not intersected in the space and the distance between the first inhaul cable and the second inhaul cable is larger, the fixture device for connecting the double inhaul cables provided by the utility model is respectively arranged on the first inhaul cable and the second inhaul cable.

First, referring to fig. 4, after the second cable 500 is passed through the second fixing hose 221 on the second cable fixing member 220, the second cover 210 is fastened to the lower portion of the second cable fixing member 220, and the second cable fixing member 220 is connected to the second cover 210 by passing through the second connecting screw 230 through the corresponding fourth screw hole 211 on the second cable fixing member 220, which passes through the third screw hole 222 and corresponds to the second cover 210, and the second cable 500 is clamped between the second cable fixing member 220 and the second cover 210.

After the second fixture device 200 is installed, referring to fig. 5, the protrusion 140 of the first cable fixing member 120 is connected with the installation hole 240 on the second cable fixing member 220, the first cable 400 is passed through the first fixing hose 121 in the first cable fixing member 120 after rotating to the installation required angle under the premise of ensuring connectivity, then the first cover plate 110 is fastened on the upper portion of the first cable fixing member 120, and the first connecting screw 130 is passed through the second screw hole 111 on the first cover plate 110 to be connected with the first screw hole 122 on the first cable fixing member 120, so that the double cable connection is completed.

The clamp system which is formed by the scheme and is suitable for large-gap and multiphase-angle double-inhaul-cable connection is characterized in that the two inhaul-cable clamps are in threaded connection, the structure is simple, meanwhile, the adjustment of various angles and the adjustment of the distance between the two inhaul-cable clamps can be simultaneously realized through the threaded connection, and the reliability of the inhaul-cable clamps and the applicability of cable clamp connection are greatly improved.

And secondly, the connecting thickness is constructed by utilizing the thickness of the parts and the connecting depth of the protrusions and the mounting holes, so that the connection of the large-gap double-inhaul cable under normal construction is facilitated, and the stress state of the inhaul cable is not changed.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a clamp system suitable for two cable connections of big clearance and heterogeneous angle of crossing, includes first fixture device and second fixture device, its characterized in that, the cooperation sets up adjustable device between first fixture device and the second fixture device and connects, through the rotation adjustable device can adjust the intersection angle between first fixture device and the second fixture device simultaneously and adjust the longitudinal distance between first fixture device and the second fixture device.

2. The clamp system for a large clearance and multi-phase angle dual cable connection of claim 1 wherein said first clamp means comprises a first cover plate and a first cable mount; a first end face of the first inhaul cable fixing piece is provided with a first mounting groove; the first cover plate and the first inhaul cable fixing piece are correspondingly provided with locking parts and are matched with the locking parts to connect the first cover plate and the first inhaul cable fixing piece.

3. The clamp system for large clearance and multi-phase angle dual cable connection of claim 2 wherein said first mounting groove is provided with a first securement hose for mounting the cable to be connected.

4. The clamp system for large clearance and multi-phase angular dual cable connection of claim 1 wherein said second clamp means comprises a second cover plate and a second cable mount; a second installation groove is formed in the second inhaul cable fixing piece; the second cover plate and the second inhaul cable fixing piece are correspondingly provided with locking parts and are matched with the locking parts to connect the second cover plate and the second inhaul cable fixing piece.

5. The clamp system for large clearance and multi-phase angle dual cable connection of claim 4 wherein said second mounting groove is provided with a second securement hose for mounting a cable to be connected.

6. A clamp system adapted for large clearance and multi-phase angular double cable connection according to claim 2 or 4 wherein said adjustable means comprises a boss and a mounting hole; the bulge is arranged on the second end face of the first inhaul cable fixing piece, and the mounting hole is correspondingly formed in the center of the second inhaul cable fixing piece; the protrusions are connected with the mounting holes in a matched mode.

7. The clamp system for large clearance and multi-phase angular two-cable connection of claim 6 wherein said projection is externally threaded; and an internal thread matched with the external thread is arranged in the mounting hole.

8. The clamp system for large clearance and multi-phase angular dual cable coupling of claim 6 wherein at least one spacer is cooperatively disposed between said boss and said mounting hole.