CN214795342U - A attach and hang ware for optical cable hangs protection hook - Google Patents

Abstract

The utility model provides an attach ware that is used for optical cable to hang protection hook for hang the protection hook with the optical cable and hang on the steel strand wires, the optical cable hangs protection hook includes two support arms that form by the both ends of elastic wire and the main part hook portion who becomes the double-line lifting hook by the middle part of elastic wire is buckled, and two support arms are V type structure. The accessory hanger comprises a stay bar and an operating head positioned at the top of the stay bar; the operating head is provided with a containing frame for installing an optical cable hanging protection hook, the containing frame is provided with a main body hook groove and a limiting structure located in front of the main body hook groove, the main body hook groove is used for clamping the optical cable to hang the protection hook in the width direction of a main body hook for hanging the protection hook on the optical cable, and the limiting structure is used for clamping the optical cable to hang the protection hook in the radial direction of the main body hook. Use the utility model discloses attach the ware, constructor can hang the protection hook with the optical cable subaerial convenient and fast and install on the steel strand wires in the air, need not high altitude construction, erects the in-process that the project needs a large amount of installation optical cables to hang the protection hook at the optical cable, has simplified the work progress greatly and has improved the security.

Description

A attach and hang ware for optical cable hangs protection hook

Technical Field

The utility model relates to a network line construction field especially relates to an attach and hang ware that is used for optical cable to hang protection hook.

Background

In the communication network laying engineering, a network optical cable is generally laid in a pipe gallery in a medium-large city, however, in vast medium-small cities and rural areas, a high-altitude erection mode can be adopted, the optical cable erection in the prior art is generally suspended and fixed by means of steel stranded wires and hooks or buckles, the top ends of the hooks or the buckles are hung on the steel stranded wires, and the network optical cable is placed on the hooks or the buckles.

The hook commonly used in the prior art is generally in a V-shaped structure, two ends of the hook are top hooks hung on steel strands, and the middle part of the hook is sunken downwards to support the network optical cable. In addition, in order to increase the contact area of the hooks and the network optical cable, widening pieces are additionally arranged at the concave middle parts of the hooks, so that the phenomenon that the contact parts of the network optical cable and the hooks are damaged or cut off due to excessive pressure is avoided. Buckle among the prior art is comparatively similar with foretell couple structure, like the utility model discloses a make things convenient for the optical cable that erects in high altitude that patent number is 201921629672.3, the optical cable outside is equipped with the buckle, as shown in fig. 1, the crisscross two hook type structures that are equipped with in both ends of buckle, and the bayonet socket joint that two hook type structures constitute is on the steel strand wires to realize the fixed of optical cable.

However, the hooks or the buckles have the following problems in the construction process: 1. it is inconvenient to construct. During the process of laying the network optical cable, a large number of hooks or buckles (for example, one hook is arranged at intervals of 30-50cm, which is determined according to the number of the network optical cables supported by the hooks), so that a constructor needs to firstly place the network optical cable on the hook, or fold the network optical cable and the steel stranded wire together by hands, and then hang the hook on the steel stranded wire. According to the construction steps, the network optical cable and the steel strand are folded together, so that the weight can be greatly increased, subsequent hook action is inconvenient, and the labor intensity of constructors is increased. 2. The optical cable is inconvenient to increase and decrease and maintain in the later period. If an optical cable line needs to be additionally hung in the later period, all the hooks or the buckles need to be completely taken off, and the optical cable needs to be additionally hung and then hung again, so that the process is extremely complicated. 3. The security is low. In the prior art, generally, an optical cable hook (generally 3-5 m away from the ground) in the air is erected and installed, a ladder or a high stool or other high-altitude operation equipment needs to be used manually, the labor and the labor are wasted, and safety accidents are easy to occur. Therefore, a special tool for facilitating the installation of the cable suspension hook on the steel strand is needed.

SUMMERY OF THE UTILITY MODEL

In view of the above, embodiments of the present invention provide an attachment for a cable suspension hook to obviate or mitigate one or more of the disadvantages of the prior art.

The technical scheme of the utility model as follows:

an attachment device for an optical cable hanging protection hook is used for hanging the optical cable hanging protection hook on a steel strand, the optical cable hanging protection hook comprises two support arms formed by two ends of an elastic wire and a main body hook part of a double-wire hook bent from the middle part of the elastic wire, the two support arms are of a V-shaped structure, and the attachment device comprises a support rod and an operating head positioned at the top of the support rod; the operating head is provided with a containing frame for installing an optical cable to hang a protection hook, the containing frame is provided with a main body hook groove and a limiting structure located in the front of the main body hook groove, the main body hook groove is used for hanging the protection hook on the optical cable in a clamping mode in the width direction of the main body hook, and the limiting structure is used for hanging the protection hook on the main body hook in a clamping mode in the radial direction of the main body hook.

In some embodiments, the top of the receptacle of the attachment is further provided with at least one support structure for abutting one arm of the cable suspension hook.

In some embodiments, the accommodating frame is a hollow cylindrical main structure, the main hook groove is located at the front end of the cylindrical main structure of the accommodating frame, and the supporting structure is two grooves located on two sides of the accommodating frame and used for clamping two support arms of the optical cable hanging protection hook respectively.

In some embodiments, the diameter of the cylindrical main body structure of the containing frame is smaller than the maximum diameter of the main body hook of the accessory hook, the limiting structure is a triangular bracket arranged on the outer side of the containing frame, and the distance between the triangles and the farthest inner wall of the cylindrical main body structure of the containing frame is smaller than the maximum diameter of the main body hook of the optical cable hanging protection hook so as to clamp the main body hook of the accessory hook.

In some embodiments, the top end of the cylindrical body structure of the containment shelf has a downward undercut.

In some embodiments, the accommodating frame is of an empty bin disc structure, the main body hook groove is of an inner cavity structure of the empty bin disc of the accommodating frame, and the top end of the empty bin disc is provided with a slot for the main body hook of the attached hanger to enter and exit.

In some embodiments, the thickness of the empty bin disc of the containing frame is smaller than the hyperbolic width of the main hook of the optical cable hanging protection hook, the maximum diameter of the empty bin disc of the containing frame is smaller than the maximum diameter of the main hook of the optical cable hanging protection hook, and the limiting structure of the containing frame is a closed wall portion arranged at the front end of the empty bin disc so as to clamp the optical cable hanging protection hook in the radial direction of the main hook of the optical cable hanging protection hook.

In some embodiments, the support structure of the accommodating frame is a Y-shaped plate located at the back of the empty bin disc, the structure of the Y-shaped plate corresponds to two top hooks of the cable suspension sheath hook so as to support the top hooks when the Y-shaped plate is installed, and a lower concave part is arranged in the middle of the Y-shaped plate.

In some embodiments, the stay is connected to the action head by a welded, threaded or snap-fit connection or by a screw, rivet or pin connection.

In some embodiments, the stay bar is a telescopic bar or an assembled bar formed by connecting a plurality of unit bars in series.

According to the utility model discloses a attach ware that is used for optical cable to hang protection hook, obtainable beneficial effect includes at least:

use the utility model discloses attach the ware, constructor can hang the protection hook with the optical cable subaerial convenient and fast and install on the steel strand wires in the air, need not high altitude construction, erects the in-process that the project needs a large amount of installation optical cables to hang the protection hook at the optical cable, has simplified the work progress greatly and has improved the security.

According to the utility model discloses optical cable hangs protection hook, improved the design respectively with two function positions of support arm and main part hook portion, thereby make the installation improve, can hang two support arms of protection hook earlier with the optical cable and install on steel strand wires, put into optical cable again afterwards and hang the main part hook portion of protection hook in, the installation of optical cable no longer receives stopping and the influence of steel strand wires promptly, the installation has been simplified greatly, the high efficiency that the optical cable circuit erect with reduced constructor's intensity of labour. The utility model discloses two support arms and main part hook portion that optical cable hung protection hook are the vertical crossing state, have guaranteed that the optical cable circuit can be in same straight line. In addition, the configuration structure of the optical cable hanging protection hook is also beneficial to maintaining the hanging stability of the optical cable hanging protection hook on the steel strand and facilitating the attaching and hanging process during construction.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

It will be appreciated by those skilled in the art that the objects and advantages that can be achieved with the present invention are not limited to the details set forth above, and that these and other objects that can be achieved with the present invention will be more clearly understood from the following detailed description.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. For convenience in illustrating and describing some portions of the present invention, corresponding parts of the drawings may be exaggerated, i.e., may be larger, relative to other components in an exemplary device actually manufactured according to the present invention. In the drawings:

fig. 1 is a schematic structural diagram of an optical cable buckle or hook in the prior art.

Fig. 2 is a schematic structural view of an optical cable hanging protection hook in an embodiment of the present invention.

Fig. 3 is a front projection view of an optical cable suspension hook according to an embodiment of the present invention.

Fig. 4 is a top view of a cable suspension hook according to an embodiment of the present invention.

Fig. 5 is a cross-sectional view a-a of the cable suspension hook of fig. 3.

Fig. 6 is a cross-sectional view of the cable suspension hook of fig. 3, taken along line C-C.

Fig. 7 is a schematic structural view of a cable suspension hook according to an embodiment of the present invention, mounted on a steel strand.

Fig. 8 is a top view of a cable suspension hook according to an embodiment of the present invention mounted on a steel strand.

Fig. 9 is a schematic structural diagram of an attachment according to an embodiment of the present invention.

Fig. 10 is a schematic structural view of an attachment according to another embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a first arm for hanging a hook using an attachment to mount a cable suspension according to an embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a second arm of the cable suspension hook according to an embodiment of the present invention.

Fig. 13 is a schematic structural diagram of an optical cable suspension hook according to an embodiment of the present invention.

Fig. 14 is a schematic structural diagram of the hanger according to an embodiment of the present invention.

Reference numerals:

hanging and protecting the hook by the optical cable: 10. a first support arm; 20. a second support arm; 30. a body hook portion; 11. a first top hook lower folding section; 12. a first top hook width section; 13. a first top hook upper folding section; 14. a first top hook connecting section; 21. a second top hook lower folding section; 22. a second top hook width section; 23. a second top hook upper folding section; 24. a second top hook connecting section; 31. a node structure; 15. a helical section; 25. an inner core segment; 32. an arc-shaped section; 33. a tail end;

attaching a hanger: 110. an operating head; 120. a stay bar; 111. a main body hook groove; 112. a support structure; 113. a limiting structure; 114. a lower recess;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

It should also be noted that, in order to avoid obscuring the invention with unnecessary details, only the structures and/or process steps that are closely related to the solution according to the invention are shown in the drawings, while other details that are not relevant to the invention are omitted.

It should be emphasized that the term "comprises/comprising" when used herein, is taken to specify the presence of stated features, elements, steps or components, but does not preclude the presence or addition of one or more other features, elements, steps or components.

It is also noted herein that the term "coupled," if not specifically stated, may refer herein to not only a direct connection, but also an indirect connection in which an intermediate is present.

The utility model provides a novel optical cable hang protection hook to strengthen its stability that hangs, be convenient for construction and later maintenance, reduce cost etc. in addition, this application still provides a method of hanging and exclusive mounting tool etc. of this optical cable hang protection hook, with save constructor's intensity of labour and time.

As shown in fig. 2, the cable suspension hook according to the embodiment of the present invention is formed by bending an elastic wire, and includes a first arm 10 formed by one end of the elastic wire, a second arm 20 formed by the other end of the elastic wire, and a main body hook portion 30 bent from the middle of the elastic wire to form a two-wire hook; the first arm 10 and the second arm 20 are used for hanging an optical cable hanging protection hook on a steel strand, and the main body hook 30 is used for supporting an optical cable. It can be understood that the body hook 30 of the present invention can carry a plurality of optical cables, which can be determined according to actual requirements.

In some embodiments, as shown in fig. 3 and 8, when the cable suspension hook is in a state of being suspended on a steel strand, the first arm 10 and the second arm 20 are approximately located in a vertical reference plane where the steel strand is located, and a symmetry plane of the two-line hook of the main body hook part 30 is approximately perpendicular to the reference plane. Roughly indicate can have the deviation slightly, because the embodiment of the utility model provides an optical cable hangs protection hook adopts and has elastic hard material like steel wire, iron wire etc. has certain elasticity, it can slightly change in elastic modulus allowed range. After the optical cable hanging protection hook is hung on a steel strand, the first support arm 10 and the second support arm 20 are in a vertical state, the main body hook part 30 is vertical to the steel strand approximately, an upward opening of the main body hook part 30 avoids the position of the steel strand, optical cables are convenient to put in or take out, and the optical cables borne by all the optical cable hanging protection hooks can keep a straight line parallel to the steel strand.

In some embodiments, as shown in fig. 2 and 3, the first arm 10 and the second arm 20 are substantially V-shaped, and the body hook 30 extends downward in the forward direction at the node structure 31 of the first arm 10 and the second arm 20 and then bends upward, so that the opening of the body hook 30 faces upward, and the distance of the opening is less than the maximum diameter of the body hook 30. The reduced opening structure is beneficial to accommodating optical cables, and the optical cables are prevented from falling off the arc-shaped section 32 of the hook part 30 of the main body due to the influence of strong wind and the like.

In some embodiments, as shown in fig. 2 and 4, the first arm 10 is provided with a first top hook having a hook-type structure substantially parallel to the reference plane, and the second arm 20 is provided with a second top hook having a hook-type structure substantially perpendicular to the reference plane and biased away from the body hook portion 30. The first top hook and the second top hook structure of the embodiment are beneficial to tightly clamping the optical cable hanging protection hook on the steel strand due to the staggered arrangement of the first top hook and the second top hook, are convenient for the hanging process of the optical cable hanging protection hook, and are particularly suitable for being installed by using the auxiliary hanger.

According to the utility model discloses optical cable hangs protection hook, improved the design respectively with two function positions of support arm and main part hook portion 30, thereby make the installation improve, can hang two support arms of protection hook earlier with the optical cable and install on steel strand wires, put into optical cable again afterwards and hang in main part hook portion 30 of protection hook, the installation of optical cable no longer receives stopping and the influence of steel strand wires promptly, the installation has been simplified greatly, high improvement the efficiency that optical cable line erect and the intensity of labour who has reduced constructor. The utility model discloses two support arms and main part hook portion 30 that the optical cable hung the protection hook are the vertical crossing state, have guaranteed that the optical cable circuit can be in same straight line. In addition, the configuration structure of the optical cable hanging protection hook is also beneficial to maintaining the hanging stability of the optical cable hanging protection hook on the steel strand and facilitating the attaching and hanging process during construction.

In some embodiments, as shown in fig. 2, 3, 4 and 5, to show the structure of the first arm 10, fig. 5 is a cross-sectional view a-a of fig. 2, the first arm 10 includes a first top hook and a first top hook connecting section 14, the first top hook includes a first top hook lower folded section 11, a first top hook width section 12 and a first top hook upper folded section 13, and the first top hook upper folded section 13 is adjacent to the first top hook connecting section 14. The first top hook upward-folding section 13 of the first top hook is deflected towards the outer side and the front side relative to the extending direction of the first top hook upward-folding section 13, the width of the first top hook width section 12 is greater than or equal to the diameter of a steel strand, the first top hook downward-folding section 11 is parallel to the first top hook upward-folding section 13, and the length of the first top hook downward-folding section 11 is longer than that of the first top hook upward-folding section 13. The outer side mentioned here is a direction away from a symmetrical plane of the cable suspension hook, and the front and rear means a direction with the main body hook portion 30 as the front and the two arms as the rear.

In some embodiments, as shown in fig. 2, 3, 4 and 6, to show the structure of the second arm 20, fig. 6 is a cross-sectional view of C-C of fig. 2, the second arm 20 includes a second top hook and a second top hook attachment section 24, the second top hook includes a second top hook lower fold section 21, a second top hook width section 22 and a second top hook upper fold section, and the second top hook upper fold section is contiguous with the second top hook attachment section 24. The second top hook upper folding section of the second top hook is deflected towards the inner side relative to the extending direction of the second top hook upper folding section, the width of the second top hook width section 22 is greater than or equal to the diameter of the steel strand, the second top hook lower folding section 21 is deflected towards the rear side relative to the reference plane, and the length of the second top hook lower folding section 21 is longer than that of the second top hook upper folding section. The inner side is a direction close to a symmetrical plane of the cable suspension hook, and the front and rear are directions in which the main body hook portion 30 is front and the two arms are rear.

In the above embodiment, the first top hook is substantially along the direction of the reference plane, or has an included angle of a small angle (for example, 0 to 20 °) with the reference plane; the second top hook is approximately perpendicular to the reference plane, or has the contained angle of big angle (for example 70 ~ 90 °) with the reference plane for first top hook and second top hook are installed on the steel strand with the state of crisscross each other, can firmly lock on the steel strand, strengthen its stability greatly.

In addition, the first top hook and the second top hook are both in flaring structures, so that the hooking process in the installation process is facilitated. The bottom of the hook-shaped structure is approximately equal to the diameter of the steel strand, that is, the lengths of the first top hook width section 12 and the second top hook width section 22 are approximately equal to the diameter of the steel strand, so that the two hook-shaped structures are firmly clamped on the steel strand. The first top hook upward-folding section 13 and the first top hook connecting section 14 have a certain inclination angle, the second top hook upward-folding section and the second top hook connecting section 24 have a certain inclination angle, the first top hook upward-folding section 13 and the second top hook upward-folding section are both deflected to the inner side, stability of two hook-shaped structures on the steel strand is kept, and the two hook-shaped structures are prevented from being popped out and sliding. The second top hook lower folding section 21 of the second top hook is approximately deflected towards the rear side, so that the second top hook can enter the steel strand more easily in the installation process.

In some embodiments, as shown in FIG. 2, the node structure 31 of the first arm 10 and the second arm 20 is a single-line spiral structure including the spiral segment 15 of the first arm 10 and the core segment 25 of the second arm 20. The inner core segment 25 of the second arm 20 is concavely bent towards the direction of the first arm 10, and the spiral segment 15 of the first arm 10 is wound on the outer periphery of the inner core segment 25 of the second arm 20. The utility model discloses optical cable hangs protection hook adopts an elastic wire to buckle and forms, and the node structure 31 of first support arm 10 and second support arm 20 is single line helical structure, and one of them support arm spiral winding is on another support arm promptly, and a support arm is in the front, and another support arm is behind, and two support arm staggered arrangement, staggered structure can strengthen its elasticity, can firmly block and die on steel strand wires. The single-wire spiral structure is beneficial to enhancing the elasticity of the two support arms which are arranged on the steel strand in a staggered mode. In addition, the single-wire spiral structure is more stable and more reasonable in stress compared with a double-spiral structure, the automatic manufacturing process of the optical cable hanging protection hook is simplified, the forming and the structural stability during manufacturing are facilitated, and the manufacturing cost and the manufacturing process are reduced by the structure.

Preferably, the first arm 10 is located at the rear side of the second arm 20, and the elastic line segment of the body hook 30 adjacent to the first arm 10 extends from the front side of the bottom end of the node structure 31 and is deflected to the same side (as the left side in fig. 2) as the first arm 10. In other words, the spiral section 15 of the first arm 10 can be spirally wound for (N +0.5) turns, that is, the elastic line section is located at the rear of the first arm 10 and at the front of the main body hook 30, and the staggered structure can ensure the stability of the whole cable suspension protection hook and prevent the cable suspension protection hook from being scattered and structurally displaced in the construction process.

Further preferably, the elastic line segment of the body hook 30 adjacent to the inner core segment 25 of the second arm 20 is bent from the bottom end of the node structure 31 toward the second arm 20, and the bent portion is used for catching the bottom end of the spiral segment. As shown in fig. 1 and 2, it can be seen that the elastic line segment of the second arm 20 is bent in the node structure 31, i.e. the inner core segment 25 is bent in the direction of the first arm 10, the concave portion is used for winding the spiral segment of the first arm 10, and the upper and lower bent portions of the concave portion are used for abutting against the upper and lower turns of the spiral segment, so as to prevent the spiral segment from sliding or loosening on the elastic line segment of the second arm 20, thereby preventing the structure thereof from being unstable.

In some embodiments, as shown in fig. 2, the body hook 30 is integrally in an arc-shaped or irregular arc-shaped structure, and includes an arc-shaped section 32 and a tail end 33, the tail end 33 of the body hook 30 is tilted upward vertically, and the tail end 33 of the body hook 30 is substantially flush with the node structure 31. The width of the hook part 30 of the main body can be gradually widened from the node structure 31 to the tail end 33, the tail end 33 which is tilted upwards is beneficial to keeping the rigidity of the tail end structure, and the hook part can also be used as a bending stress point in the manufacturing process so as to facilitate production.

Preferably, the width of the double-row line of the hook part 30 of the main body is 7-18 mm, so that the contact area of the hook part and the optical cable is enlarged, the optical cable is prevented from being cut, and the stable bearing is facilitated. In addition, a steel wire or an iron wire of the whole optical cable hanging protection hook is bent to form, the main body hook part 30 uses double-row wires, widening pieces do not need to be additionally arranged, the production cost is greatly reduced, manual assembly is not needed, the optical cable hanging protection hook is particularly suitable for automatic production, and resource waste is reduced.

According to another aspect of the utility model, also provide an attach hanger that is used for optical cable to hang protective hook. Fig. 9 shows a hanger according to the first embodiment, and fig. 10 shows a hanger according to the second embodiment, which are different in structure but identical in principle.

In some embodiments, the pendant includes a strut 120 and an operating head 110 located on top of the strut 120; be equipped with on the operating head 110 and be used for installing the optical cable and hang the holding frame of protecting the hook, be equipped with a main part couple groove 111 and be located the limit structure 113 in main part couple groove 111 the place ahead on the holding frame, main part couple groove 111 is used for the optical cable to hang the protecting hook at the optical cable on the width direction of the main part couple of protecting the hook, limit structure 113 is used for radially upwards chucking optical cable at the main part couple and hangs the protecting hook. In some embodiments, the top of the receptacle of the hanger is also provided with at least one support structure 112 that abuts one arm of the cable suspension hook.

The embodiment of the utility model provides an attach the ware, should attach the ware and can hang the optical cable in advance and protect hook chucking on operating head 110, will attach the ware afterwards and lift up, add earlier and hang above-mentioned optical cable and hang first support arm 10 that protects the hook, twist again and hang second support arm 20, can hang the optical cable and protect the hook and fix on steel strand wires, saved constructor's physical power and time greatly, also avoided appearing the dangerous condition.

As shown in fig. 9, in the first embodiment, the accommodating frame is a hollow cylindrical main structure, the main hook groove 111 is located at the front end of the cylindrical main structure of the accommodating frame, and the supporting structure 112 is two grooves located at two sides of the accommodating frame, and are respectively used for clamping two support arms of the cable suspension hook. The cylindrical main body structure can be a cylinder with the same diameter and can also be a cone with variable diameter. It is understood that the main body hook groove 111 is located at the front end of the cylindrical main body structure of the accommodating frame, and the main body hook can also be used as a front direction of the protection hook according to the optical cable hanging. The slot width of the main body hook slot 111 is smaller than the width of the main body hook.

As shown in fig. 9, in the first embodiment, the diameter of the cylindrical main body structure of the containing frame is smaller than the maximum diameter of the main body hook of the hanger, so as to save materials and weight. The limiting structure 113 is a triangular support arranged on the outer side of the containing frame, and the distance from the middle of the triangle to the farthest inner wall of the cylindrical main body structure of the containing frame is smaller than the maximum diameter of a main body hook of the optical cable hanging protection hook so as to clamp the optical cable hanging protection hook in the radial direction of the main body hook. The triangular support described herein is not limited to one, and two or more may be provided one above the other. In other embodiments, a pair of clamping pieces may be symmetrically disposed on the outer periphery of the cylindrical main body structure corresponding to the main body hook groove 111, that is, on two sides of the main body hook groove 111, so as to increase the contact area and clamping force of the main body hook for hanging the protection hook on the optical cable.

In the first embodiment, as shown in fig. 9, the top end of the cylindrical main body structure of the housing rack has a downward concave portion 114. The recessed portion 114 may be a straight section or may be a smooth arcuate section 32. The undercut 114 is primarily used to pick up the cable for construction and later maintenance.

In the first embodiment, the operating head 110 of the attachment can be formed by directly bending after a steel plate stamping process.

As shown in fig. 10, in the second embodiment, the accommodating frame is an empty bin disc structure, the main body hook groove 111 is an inner cavity structure of the empty bin disc of the accommodating frame, and the top end of the empty bin disc is provided with a slot for the main body hook of the optical cable hanging protection hook to enter and exit.

As shown in fig. 10, in the second embodiment, the thickness of the empty bin disc of the accommodating frame is smaller than the hyperbolic width of the main hook of the cable hanging protection hook, the maximum diameter of the empty bin disc of the accommodating frame is smaller than the maximum diameter of the main hook of the cable hanging protection hook, and the limiting structure 113 of the accommodating frame is a closed wall portion arranged at the front end of the empty bin disc so as to clamp the cable hanging protection hook in the radial direction of the main hook of the cable hanging protection hook.

In the second embodiment, as shown in fig. 10, the support structure 112 of the housing rack is a Y-shaped plate located at the back of the tray, the structure of the Y-shaped plate corresponds to the two top hooks of the cable suspension protective hook to support the top hooks when the cable suspension protective hook is installed, and the middle of the Y-shaped plate is provided with a lower concave part 114. Similarly, the recessed portion 114 is primarily used to pick up the cable for construction and later maintenance.

As shown in fig. 13, in the second embodiment, a thickened piece 1121 may be additionally provided on the support structure 112 of the Y-shaped plate corresponding to the second arm 20 to increase the support distance for the second arm 20, so as to adapt to the process of twisting installation of the cable suspension hook, and reduce the labor intensity of the constructor.

In the second embodiment, the Y-shaped plate, the empty bin disc and the stay bar 120 can be connected by welding.

In some embodiments, the brace 120 is connected to the action head by a welded, threaded or snap-fit connection or by a screw, rivet or pin connection.

Preferably, as shown in fig. 14, the stay 120 is a telescopic rod or an assembled rod formed by connecting a plurality of unit rods in series, so as to adjust the effective length thereof to accommodate cable steel strands of different heights; and is also beneficial to carrying and conveying the attaching device. For example, during carrying and transportation, the stay of the visible hanger is extended to a portable length, or each unit bar is detached and assembled for use, and preferably, for convenience of use, the bottom of the stay may also be provided with a handle or a structure for easily applying torque, such as a protrusion perpendicular to the stay, to serve as a handle for rotating the stay.

Use the utility model discloses attach the ware, constructor can hang the protection hook with the optical cable subaerial convenient and fast and install on the steel strand wires in the air, need not high altitude construction, erects the in-process that the project needs a large amount of installation optical cables to hang the protection hook at the optical cable, has simplified the work progress greatly and has improved the security.

According to another aspect of the present invention, there is also provided a method for hanging the above-mentioned optical cable hanging hook, the method comprising the steps of:

the method comprises the following steps: installing the optical cable hanging protection hook on the attaching hook, so that a main hook of the optical cable hanging protection hook is tightly clamped in the width direction and the radial direction;

step two: the auxiliary hook is controlled to additionally hang a first top hook of the optical cable hanging protection hook on the steel strand from the rear of the steel strand, then the auxiliary hook is controlled to twist the optical cable hanging protection hook, so that a second top hook is twisted to the front of the steel strand from the rear of the steel strand, and the second top hook of the optical cable hanging protection hook is additionally hung on the steel strand;

step three: and pulling the attaching hook downwards to enable the optical cable hanging protective hook to be separated from the attaching hook and fixed on the steel strand.

As shown in fig. 8, after the optical cable hanging protection hook is installed, the state of the optical cable hanging protection hook hanging on the steel strand is as follows: the first top hook connecting section 14 of the first support arm 10 of the optical cable hanging protection hook is positioned behind the steel strand, and the first top hook downward-folding section 11 of the first top hook is positioned in front of the steel strand; the second top hook connecting section 24 of the second support arm 20 of the optical cable hanging protection hook is located in front of the steel strand, and the second top hook downward-folding section 21 of the second top hook is located behind the steel strand.

To describe the hanging method of the cable hanging hook in further detail, the following describes the installation steps of the cable hanging hook in detail with reference to the hanger in the second embodiment, and the same applies to the hanger in the first embodiment.

In the second step, as shown in fig. 11, the constructor operates the attachment to wind around the steel strand from the rear of the steel strand, and additionally hangs the first top hook of the optical cable hanging protection hook on the steel strand, that is, the first top hook is installed from back to front; as shown in fig. 12, the attachment is then manipulated to twist the cable suspension protection hook, so that the second top hook is twisted from the rear of the steel strand to the front of the steel strand, and the second top hook of the cable suspension protection hook is additionally hung on the steel strand, that is, the second top hook is installed from the front to the rear, where the front and the rear refer to the front and the rear of the steel strand. After the installation is completed, due to the structures of the first top hook of the first support arm 10 and the second top hook of the second support arm 20 and the elasticity of the staggered installation between the first top hook and the second top hook, the optical cable hanging protection hook can be firmly fixed on a steel strand, and the hanging state is stable.

In the third step, as shown in fig. 13, since the cable hanging protection hook is merely clamped in the accommodating frame and the installation direction thereof is in the up-down direction into the main body hook groove 111, the constructor pulls the hanger downward, so that the cable hanging protection hook is separated from the hanger and fixed on the steel strand.

In the above steps, if the first support arm 10 is installed from front to back and the second support arm 20 is installed from back to front, the optical cable hanging protection hook cannot be installed; if the second support arm 20 is installed first and then the first support arm 10 is installed, the cable suspension protection hook cannot be installed.

According to the hanging method of the optical cable hanging protection hook, constructors can conveniently and quickly install the optical cable hanging protection hook on the steel strand in the air without high-altitude operation on the ground, and the construction process is greatly simplified and the safety is improved in the process that a large number of optical cable hanging protection hooks are needed to be installed in an optical cable erection project.

According to the utility model discloses a attach ware that is used for optical cable to hang protection hook, obtainable beneficial effect includes at least:

use the utility model discloses attach the ware of hanging, constructor can hang the optical cable and protect the hook subaerial convenient and fast! The cable hanging protective hook is arranged on a steel stranded wire in the air, high-altitude operation is not needed, and the construction process is greatly simplified and the safety is improved in the process that a large number of cable hanging protective hooks are required to be arranged in an optical cable erection project. *

Features that are described and/or illustrated with respect to one embodiment may be used in the same way or in a similar way in one or more other embodiments and/or in combination with or instead of the features of the other embodiments.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and it will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An attaching device for an optical cable hanging protection hook is used for hanging the optical cable hanging protection hook on a steel strand, the optical cable hanging protection hook comprises two support arms formed by two ends of an elastic wire and a main body hook part of a double-wire hook bent from the middle part of the elastic wire, and the two support arms are of a V-shaped structure;

the operating head is provided with a containing frame for installing an optical cable to hang a protection hook, the containing frame is provided with a main body hook groove and a limiting structure located in the front of the main body hook groove, the main body hook groove is used for hanging the protection hook on the optical cable in a clamping mode in the width direction of the main body hook, and the limiting structure is used for hanging the protection hook on the main body hook in a clamping mode in the radial direction of the main body hook.

2. An attachment for a cable suspension grommet according to claim 1, wherein the top of the receptacle of the attachment is further provided with at least one support structure for abutting against an arm of the cable suspension grommet.

3. The attachment device of claim 2, wherein the receiving frame is a hollow cylindrical main structure, the main hook slot is located at a front end of the hollow cylindrical main structure, and the support structure is two grooves located at two sides of the receiving frame for respectively locking two arms of the cable suspension hook.

4. The attachment for a cable suspension hook according to claim 3, wherein the diameter of the cylindrical main body structure of the housing is smaller than the maximum diameter of the main body hook of the attachment, the limiting structure is a triangular bracket disposed at the outer side of the housing, and the distance between the triangles and the farthest inner wall of the cylindrical main body structure of the housing is smaller than the maximum diameter of the main body hook of the cable suspension hook to clamp the main body hook of the attachment.

5. An attachment for a cable suspension grommet according to claim 3, wherein the top end of the cylindrical body structure of the receptacle has a downwardly concave lower portion.

6. The attachment device for an optical cable suspension hook according to claim 2, wherein the accommodating frame is of a hollow disc structure, the main hook groove is of an inner cavity structure of the hollow disc of the accommodating frame, and the top end of the hollow disc is provided with a groove for the main hook of the attachment device to enter and exit.

7. The attachment for a cable suspension hook according to claim 6, wherein the thickness of the empty magazine disk of the housing frame is smaller than the hyperbolic width of the main hook of the cable suspension hook, the maximum diameter of the empty magazine disk of the housing frame is smaller than the maximum diameter of the main hook of the cable suspension hook, and the position restricting structure of the housing frame is a closed wall portion disposed at the front end of the empty magazine disk to clamp the cable suspension hook in the radial direction of the main hook of the cable suspension hook.

8. The attachment for a cable suspension grommet according to claim 7, wherein the support structure of the housing shelf is a Y-shaped plate located at the back of the tray, the Y-shaped plate corresponding in structure to the two top hooks of the cable suspension grommet so as to support the top hooks when the Y-shaped plate is installed, the Y-shaped plate having a recessed portion in the middle.

9. An attachment for a cable suspension hook according to any of claims 1 to 8, wherein the stay is connected to the action head by a welded, threaded or snap-fit connection or by a screw, rivet or pin connection.

10. An attachment for a cable suspension hook according to any of claims 1 to 8, wherein the stay is a telescopic rod or an assembled rod of a plurality of unit rods connected in series.

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