KR100831736B1 - A cable-hanger and its installation method - Google Patents

Abstract

In the cable hatch comprising the inverted portion of the right and left helix, which was created to solve the problem of the conventional one-way helix, the cable detachment problem in the inverted portion is solved, and it is relatively easy to attach and inexpensive. The purpose is to provide a step.

The present invention consists of a series of high-tension lines, alternately along an axis through a long projection consisting of a straight or approximate arc of curvature with a straight or approximate radius of curvature between the S and Z helixes having the same number of turns. The cable hanger characterized by being continuously formed, Preferably, the number of helices of the spiral of the S helix and the Z helix is at least one rotation, and the height of the protrusion is at least the radius of the helix and the height of the helix, and is assumed from the helix. Cable hangers with a horizontal gap between the cylindrical part and the projected part more than twice the radius of the helix.

Cable, helix, high tension, axis, radius of curvature, protrusion, cylinder

Description

Cable hanger and installation method {A CABLE-HANGER AND ITS INSTALLATION METHOD}

1 is a partial front view of an example of a cable hanger of the present invention.

2 is a partial plan view of FIG. 1;

3 is a side view of FIG. 1;

4 is a partial front view of another example of the cable hanger of the present invention.

5 is a partial plan view of FIG. 4.

6 is a side view of FIG. 4.

Fig. 7 is a partial perspective view of the use state of an example of the cable hanger of the present invention (when the protrusion is formed in a straight line).

Fig. 8 is a partial perspective view of the use state of another example of the cable hanger of the present invention (when an arc-shaped curved portion having a large radius of curvature approximating a straight line) is used.

<Description of the code>

10: cable hanger 11: S spiral

12: Z helix 13a: middle

13a-1: middle part 13b-1: middle part

13a-2: middle part 13b-2: middle part

2: center line in the longitudinal direction of the cable hanger

3: cylindrical part (circle which a spiral part makes)

C: cable W: messenger wire

S: horizontal spacing

The present invention is mainly attached to the messenger wire hypothesized between the poles, etc., and relates to a cable hanger for installing various cables such as optical fiber cable, communication cable, power cable and the like, along with the messenger wire, in particular, It can be easily attached to the wire, and the cable can be easily and securely attached thereto.

Recently, when various cables such as optical fiber cables, communication cables, power cables, etc. are installed in sections between electric poles using cable hangers such as cable hangers, messenger wires are laid in the sections, and the cable hangers This cable is constructed by attaching the cable to be installed on the cable hook.

Until now, cable hangers have been intermittently attached to messenger wires using a ring hanger, but recently, a spiral body made of high tensile tension wire, called a spiral rod, is thermoplastic plastic, if necessary. Was used, and the messenger wire was stretched and hung in the section where the cable was to be laid, and the spiral rod was wound together with the cable to be laid on the messenger wire.

In general, one spiral rod is shortened by about 1 m to 2 m, and the messenger wire is tightly tightened in the section where the cable is to be laid, and the spiral rod is wound around the messenger wire one by one according to the length of the section. While the ends of adjacent spiral rods were connected to each other using a connecting member or a jig to form an integral spiral rod, they were attached together with the cable to be installed.

The operator of such a cable installation hangs the messenger wire in a predetermined section, and then carries a spiral rod, a connecting member, or a jig used therein, and wraps the spiral rod on the messenger wire and attaches it. Since the work to be connected to the adjacent spiral rods had to be performed at a high place by moving the length of the spiral rods, it required a lot of time and labor as well as skill.

In connection with such a spiral rod, the burden of an operator is reduced by providing the joint member which male and female fit, for example, so that it may be easily connected to the end of a spiral rod. Providing the joint member increases the cost and inevitably requires careful handling thereof so as not to damage the joint member (for example, Patent Document 1).

As a spiral support that can be installed without the use of a connector, such as the above-described support line, the spiral support in which the spiral portion on the left side and the spiral portion on the right side are alternately continued along the axis through a semicircular arc (U-shaped) inversion portion (Patent Document 2).

Patent Document 1: Japanese Patent Registration No. 3182531

Patent Document 2: Japanese Patent Application Laid-Open No. 2005-168284

When the spiral support having the left and right alternate spirals is used, the semicircular arc (U-shaped) inverting portion reverses the spiral winding direction so that the messenger wire does not need to be inserted inward from one end in order as in the prior art. By installing the semicircular arc inverting part, the spiral wire messenger wire can be put into practical operation quickly. Furthermore, when the semicircular arc inverting part is opened, it can be hypothesized without stretching. In the aspect, it has been explained that it is difficult to turn the outer side of the inverted portion even when the cable is greatly shaken by the influence of the wind pressure by protruding the inverted portion above the circumference formed by the left and right alternate spiral portions.

On the other hand, in the conventional spiral rod method, when it is necessary to add a new cable to the already-installed spiral rod over the cable in this way, the spiral rod already installed is integrally connected by forming a spiral in one direction. It was difficult to add additional cables as it was, and after removing the spiral rods already installed from the messenger wires, it was necessary to wind the new spiral rods around the messenger wires and the cables to be added together. .

In addition, when a spiral rod is attached to a messenger wire and another wire is connected for branching or supporting the messenger wire, the spiral rod is formed in a continuous spiral. There is a problem that the operation is difficult because it operates to terminate between and again.

In the latching holes in which the right-hand spiral and the left-hand spiral described in Japanese Patent Laid-Open No. 2005-168284 are alternately provided through the inverting portion, the operation of attaching the spiral portion to the messenger wire is simplified due to the presence of the inverting portion. Since the additional semi-cylindrical type (U-shape), it is easy to deviate the cable from the interlock due to the influence of the wind caused by the abnormal weather, and to prevent it, it is described that the inverting part is projected on the arc of the spiral. However, there is anxiety on the one hand, and the appearance of excellent cable hooks is required separately.

An object of the present invention is to provide a cable hanger and a method of laying a cable hanger that solves the above-mentioned problems.

More specifically, while utilizing the characteristics of the cable hook having a right helix and a left helix and an inverting portion therebetween, the time and labor required for the construction work can be reduced more than before. The corresponding part is composed of a straight line or a middle part having a long protrusion formed by an arc-shaped curve having a large radius of curvature approximating the same, and the messenger wire that hangs tightly in the section where the cable is to be laid, even if the spiral is not opened and extended. It is an object of the present invention to provide a cable hanger that can be easily attached to the cable and easily hang the cable to be installed, and also provides a cable hanger that does not easily cause the cable to fall out under intense vibration or wind pressure. For the purpose of

In addition, when a cable brace is attached to a messenger wire and a single or plural cable is installed, a part or all of the cables already installed can be removed as needed without removing the cable brace from the messenger wire. In addition, an object of the already installed cable is to be added to the other cable and other cable already installed without removing the cable hook from the messenger wire.

In addition, the cable hook according to the present invention is more necessary than the cable hook having a conventional inverted part by providing an intermediate portion having a long protrusion formed of an arc-shaped curve having a small spiral portion and a large radius of curvature approximating the straight line or the like. It aims at being able to shorten the length of the high tension wire.

It is also an object of the present invention to facilitate the operation when connecting other wires in order to branch or support the messenger wire even when attached to the messenger wire.

The present invention has been made as a result of earnest examination to achieve the above object,

The invention of claim 1 consists of a series of high-tension lines and an axis through an intermediate portion having an elongate protrusion consisting of a straight arc or an arc-shaped curve with a large curvature radius approximating the S helix and the Z helix which have the same number of turns. The cable hanger is characterized in that it is configured to be alternately continuous along.

The invention according to claim 2 is characterized in that the length of the elongated protrusion formed by a straight line or an arc-shaped curve having a large radius of curvature approximating it is at least twice the length of the winding width of the spiral. It is a cable hanger.

The invention according to claim 3 is a cable hanger according to claim 1 or 2, wherein the number of turns of the spiral of the S helix and the Z helix is at least one rotation as the same number of turns.

In the aspect of Claim 1 or 2, in the side surface seen from the axis line, this elongate protrusion part protrudes in this cylinder part in the outer side of the cylinder part assumed in the axial direction by this spiral part, The helix has a height that is equal to or greater than the height of the center point of the arc that the helix constitutes, and is equal to or less than the height of the arc that the helix constitutes. It is a cable hanger characterized in that more than twice the radius of the arc.

In the aspect of Claim 1 or 2, in the side surface which looked at the axial line, in the direction of an outer side from the lowest point of this cylindrical part to the outer side of the cylindrical part where this long protrusion is assumed to be axially by this spiral part. It is a cable hanger characterized in that the protruding and installed in a curved or L-shape.

The invention according to claim 6, wherein the intermediate portion between the S spiral portion and the Z spiral portion and the intermediate portion between the Z spiral portion and the S spiral portion are the same shape, and the left and right alternates with respect to the axis. The cable hanger characterized in that it is installed as possible.

The invention according to claim 7 is a method for installing the cable latch of claim 1 or 2 on a messenger wire. It proceeds while rotating along a spiral, and it repeats the operation which progresses while rotating along a spiral again through an intermediate part, and this messenger wire is inserted into the inside of a cable hanger, The hypothesis of the cable hanger method.

According to the eighth aspect of the present invention, the intermediate part having the elongated protrusions in the same direction, which are arranged on the same line, having the cable latch of claim 1 or 2 along the axis line, is inserted in the messenger wire already installed, in order. It is a hypothesis of cable hangers, characterized in that the messenger wire is inserted into the inside while rotating along the helix in the direction of plugging in as soon as the flower is completed.

According to the cable hanger of the present invention, a long protrusion having an arc-shaped curve having a large curvature radius approximating a straight line or an approximate spiral between the S spiral portion and the Z spiral portion (also called a right-side spiral portion and a left-side spiral portion) is provided. The middle part prevents deviation from the cable hanger due to abnormal weather, and improves the efficiency of attaching the messenger wire and the cable hanger. In particular, the straight line or the radius of curvature of the main part of the middle part is increased. The height of the intermediate portion having the elongated protruding portion formed by the large arc-shaped curve is set to any arbitrary range to ensure the effect of preventing deviation from the cable slit, or the elongated protruding portion is formed at a specific position, that is, the spiral. By specifying the separation distance from the arc to be specified, It is possible to prevent deviation of the bedding out.

That is, it is isolated from this cylindrical part in the outer position of the cylindrical part assumed by the axial direction of this spiral part, for example, even if it is open in a plate shape, the long protrusion part which consists of a straight line or an arc-shaped curve approximating it prevents deviation of a cable. You can achieve the effect that you can. On the other hand, it was found that by specifying the height of this protrusion, the effect of preventing the deviation of the cable is ensured.

On the other hand, the helix of the S helix and the Z helix may be one rotation, so the efficiency of attachment to the messenger wire is good. However, when the helix is rotated by hand, the pitch of the helix may be increased. The number of turns) can be limited to a minimum, thereby increasing the attaching efficiency to the messenger wire.

In addition, the intermediate portion having a long protrusion formed of a straight line or an arc-shaped curve having a large radius of curvature approximated therefrom is opened upwardly from the side viewed from the axis and spaced apart from the outside of the cylindrical portion assumed in the axial direction by the spiral portion. Protrudes, that is, the height of the protrusion is greater than or equal to the height of the center line of the spiral and is less than the height of the spiral, and is arc-shaped or L-shaped at a wide angle approximately obliquely upward from the lowest of the hook, that is, the lowest of the spiral. As a result, the arc of the cylindrical portion assumed in the axial direction by the spiral portion and the protruding portion of the long portion are largely spaced apart. As a result, the cable installed in the cable hanger jumps or swings due to abnormal strong wind or abnormal vibration. In addition, the risk of crossing over the long overhang is very small.

The present invention overcomes the conventional concept, i.e., the idea that the cable wraps round or the inverted portion of the S spiral portion and the Z spiral portion is larger than the circumference formed by the spiral portion, and that the cable brace does not deviate from abnormal vibration or abnormal wind. It can be provided.

According to the present invention, the cable hooks configured as described above have a structure that is used with a constant length irrespective of the stretching of the spiral, and has a length along the messenger wire that is tightly stretched in the section where the cable is to be laid. Since it is provided, there are few spiral parts as a whole, but the inside and the outside of a latching part do not communicate. In addition, it can be easily attached to the messenger wire which is tightened in the section to which the cable is to be laid, and since the intermediate | middle opening of this invention is provided so that the intermediate part which has a long protruding part may be the same shape, and will be shifted left and right with respect to an axis line. In addition, it is possible to easily hang the cable to be installed here, and it is possible to reduce the time and labor required for attaching the hanger to the messenger wire and laying the cable.

In addition, the cable hooks constructed as described above can be attached to the messenger wire, can easily hang a single cable or a plurality of cables, and after the cable is connected, the cable hooks are not removed from the messenger wire. Some or all of the spanned cable can be dismantled as needed, and the cable and other cables that are already spanned can be removed using an intermediate portion having a long protrusion without removing the cable catch from the messenger wire like a conventional cable hanger. There is an advantage that can be easily added by adding new.

In addition, the cable hooks constructed as described above have the lengths of the wire rods necessary for forming the unit length of the cable hooks as described in Japanese Patent Laid-Open No. 2005-168284, that is, the spiral part, the inverting part, the spiral part and the continuous part. Compared to the conventional inverted portion designed in consideration of the reversal action, the conventional one has a large number of spiral parts and a large amount of wire rod. Since the intermediate part which has the long protrusion part which consists of an arc-shaped curve with a large radius of curvature approximating this is provided, the wire length used as a whole may be short and the intermediate part which has the long protrusion part may be attached, and the attachment work to a messenger wire is prevented. As simple as the helix is, as well as the middle part in the outward direction of the helix Even if the cable hangers and the fluctuation of the cable are caused by abnormal vibrations such as abnormal strong winds or earthquakes, the ends of the long protrusions may be moved even if the cable fluctuates radially and vertically in the middle between the spirals of the helix. Since it is separated from the cylindrical portion which is assumed to be a spiral, there is no fear that the cable may overtake the long overhang and escape outward.

In other words, it is not necessary to attach the cable deviation preventing part to the top of the long projection, and by setting the long projection to an appropriate length, the present object can be achieved, and a snag state in which the straddling cable is flickering by its own weight can be generated. There is no concern.

In addition, the cable hooks configured as described above can be easily attached to the messenger wire, and the cable can be easily branched by using an intermediate portion having a long projecting portion even after the cable is covered.

BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the cable hanger according to the present invention will be described in detail with reference to the drawings.

1 is a partial front view in the longitudinal direction of an example of a cable hanger according to the present invention (when the linear protrusion is the highest height), FIG. 2 is a partial plan view in the longitudinal direction of FIG. 1, and FIG. 3 is a side view of FIG. 4 is a partial front view in the longitudinal direction of another example of the cable hanger of the present invention (when the linear protrusion is at the lowest height), FIG. 5 is a partial plan view in the longitudinal direction of FIG. 4, and FIG. 4 is a side view.

1 through 3, the latch 10 has a long protrusion formed by a straight line between the S helix 11, the Z helix 12, the S helix 11 and the Z helix 12. The intermediate part 13a which has, and the intermediate part 13b which has the elongate protrusion part which consists of a straight line between the Z spiral part 12 and the S spiral part 11 is sequentially formed, As is evident from FIG. The intermediate portions 13a and 13b having the long protrusions project in an arc shape in the outward direction of the cylindrical portion 3 assumed to be the spiral portion, and the height h of the protrusions is twice the radius r of the spiral portion. That is, it is equal to the height h of the spiral, and the horizontal spacing S between the elongated protrusion and the cylinder assumed by the arc of the spiral is 2r or more. On the other hand, the angle projecting in the outward direction of the protrusion is the same as the winding angle of the spiral portion. 2 has shown the center line of the longitudinal direction of the circular arc of the spiral part of a cable hanger.

In Experiment 1, a 10 mm-thick high tension tension line was used for the one shown in Fig. 1, and the radius (r) of the spiral (r) was 35 cm, the width of the spiral (a = 12 cm), and the length of the long protrusion (straight line) of the middle part ( b = 100cm), the height of the long protrusion (straight line) of the middle part (h = 7cm), and the horizontal distance (S = 7cm) of the cylindrical and long protrusion (straight line part) assumed to be a spiral part, Using this configuration, the cable was attached to the messenger wire struck between the poles, and the cable was attached to it, and the strong vibration and the strong wind experiment by the fan were performed, but the cable did not deviate beyond the long protrusion. In addition, in a 10-month long mounting test, an earthquake of magnitude 4 was experienced for a wind speed of 25m, but there was no danger of the cable deviating from the overhang.

On the other hand, in FIGS. 1-3, although the elongate protrusion part was a straight line, it confirmed that the same effect is acquired even if a curvature radius is large and similar to a straight line.

4 to 6 shows the long protrusions formed of straight lines between the S helix section 11, the Z helix section 12, the S helix section 11, and the Z helix section 12. The intermediate part 13a which has, and the intermediate part 13b which has the elongate protrusion part which consists of a straight line between the Z spiral part 12 and the S spiral part 11 is sequentially formed, As is evident from FIG. The intermediate portions 13a and 13b having the long protrusions project in this direction of the cylindrical portion 3 assumed to be the spiral portion, and the height h is the radius r of the spiral portion, that is, the height of the center of the spiral portion ( h / 2), and the horizontal spacing S between the middle part of a long picture and the cylinder assumed by this arc is 2r.

In Experiment 2, the helix radius (r = 3.5cm), the width of the spiral portion (a = 12cm), and the length of the long protruding portion (straight portion) of the middle portion (b = 100cm) were used using a high-tension tension line having a thickness of 20 mm. And a stepped piece made of the height (h = 3.5 cm) of the long elongated part (straight line) of the middle part and the distance (S = 7 cm) of the cylindrical and long elongated protruding part (straight part) assumed to be a spiral part, Using a hook, it was attached to a messenger wire struck between poles, and a cable was attached to it, and a strong vibration and a strong wind experiment by a fan were performed, and the cable did not deviate beyond the long protrusion (straight line). In addition, in a 10-month long installation experiment, an earthquake of magnitude 4 was experienced for a wind speed of 25 m, but there was no danger of the cable deviating from the overhang.

On the other hand, in Figs. 4 to 6, although the long elongated portion is a straight line, it was confirmed that the same effect is obtained even when the radius of curvature is large and similar to the straight line.

It is difficult to make the height of the long protrusion (straight line) in Experiment 1 higher than the height of the diameter (h) of the spiral to increase the center of gravity, make it unstable, use the material unnecessarily, and have no special effect. In addition, lowering the height of the long protrusion (straight line) in Experiment 2 than the radius of the spiral showed that the cable may deviate to the outside due to abnormal vibration or abnormal wind pressure.

Also, in the side view seen from the axis, the horizontal spacing between the elongated protrusion (straight line) and the cylindrical portion assumed is not less than twice the radius of the spiral, so that there is less room for one layer deviation with respect to the rotation of the cable. Although it was confirmed that the cable did not deviate due to an earthquake or the like, it was observed that the cable may deviate in an abnormal weather at a horizontal interval less than twice the radius of the spiral, for example, the radius.

In addition, a long protrusion (straight line) may be an arc-shaped curve with a large radius of curvature approximating a straight line, and this can also be efficiently manufactured. However, in the case where the extreme bends are provided at both ends of the straight portion, there is no inversion function in this portion, but it is effective for preventing the twist in structure.

On the other hand, the protrusion of the long protrusion (straight line) may be an arc-shaped curve having a large radius of curvature as shown in Figs. 3 and 6, but the portion that is changed from the helix may be an L-shape with a large bottom surface side. good.

In addition, Figure 7 is a hanger 10 of the present invention, when attached to the messenger wire (W) using a hanger using a middle portion having a long elongated portion (straight line) made of a straight line, and across the cable (C) 8 is a perspective view of an example of the present invention, and FIG. 8 is a hanger using an intermediate part having a long protrusion formed by an arc having a very large radius of curvature and having an arc-like curve approximating a straight line. It is a perspective view of an example in the case where it is attached to the messenger wire W and the cable C is crossed.

7, 8, the same code | symbol is attached | subjected to the same part as FIG. However, in FIG. 7, 13a-1 and 13b-1 were referred to, and in FIG. 8, 13a-2 and 13b-2. W denotes a messenger wire and C denotes an extended cable.

To attach the cable hanger 10 of the present invention to the messenger wire W, one end of the cable hanger 10 is inserted into the messenger wire W as a first method, for example, rotated along an S spiral. The messenger wire can be inserted inside the cable claw by repeating the operation of advancing while repeating the process, while progressing while rotating along the Z spiral again, for example, through the middle of the long section. After doing this, the cable C can be hung by usual means.

Further, as a second method, a half number of intermediate parts of the cable hanger 10 described in any one of claims 1 to 6 are inserted into the messenger wire W in the messenger wire already installed, and in one direction along the spiral. By rotating, the messenger wire can be inserted inside by one operation. After doing this, the cable C can be hung by usual means.

As the cable hook 10 according to the present invention, a high tension tension line such as a steel wire or a wire rod formed by coating high density polyethylene thereon is used. This is the S spiral 11, the intermediate portion 13a having a long projection, the Z spiral 12, the intermediate portion 13b having a long projection, the S spiral 11, the middle having a long projection. The portion 13a and the Z spiral portion 12 are formed by repeated molding, and the S spiral portion 11 and the Z spiral portion 12 have the same number of windings at the same pitch so that no twist occurs. In addition, the elongated protrusion is very long compared to the width of the spiral because the length of the spiral is a straight line or a curvature of a large radius of curvature of more than twice the winding width of the spiral, after all the cable hook 10 as a whole S simple spiral Since the middle portion of the and Z spiral portions is simply inverted, the spiral portion is at least smaller than that of the conventional one, and the intermediate portion, which is replaced with the inverted portion, has a long protrusion formed by a straight line or a circular arc having a large radius of curvature. The length of the high tensile strength line is at least, and it is easy to attach the messenger wire to the messenger wire, and the hooking of the cable is facilitated, and the branching of the stretched cable can be easily carried out by using the middle part of the long, which is the non-helix part.

With the cable latch of the structure as described above of the present invention, the height h of the projection at the middle portion having a long projection, which includes a straight line or only a circular arc curve having a large radius of curvature, In the present aspect, the vertical movement of the cable in the middle part is mainly performed by forming the spiral at or above the center point of the arc, extending at a wide angle from the spiral, and below the height of the arc formed by the spiral. Withstands fluctuations and can approximately prevent cable deviations. On the other hand, the length of this long overhang is more than twice the winding width of the lowest spiral to effectively prevent the cable from deviating due to the swinging needle. Too long the overhang of the messenger wire is too long. As it becomes small, it is moderately designed so that it may not be so.

In addition, the horizontal spacing between the elongated protrusion and the cylindrical portion is not less than twice the radius of the circular arc that the helix constitutes, thereby preventing the cable from deviating from the hooks due to the vibrations in the right and left width directions of the cable. This point has been experimentally confirmed. The spread in the width direction is naturally limited in consideration of the interval between actual poles. Moreover, when the said horizontal space | interval was made less than the radius of this spiral part, it was confirmed that the effect is inferior to the prevention of cable deviation in abnormal weather etc. slightly.

In addition, the length of the entire cable brace is used without elongating the spiral, and is determined according to the length of the section where the cable (C) is to be laid, and in the section where one cable (C) is to be laid, It is preferable that the length of attaching one cable hook 10 to the messenger wire (W).

On the other hand, in each of the drawings, only some of them are shown in the drawings, but in reality, as described below, S in the direction of the center line 2 in the longitudinal direction of the cable hanger 10 (also referred to simply as the longitudinal direction) is shown in the drawings. The spiral portion, the intermediate portion, and the Z spiral portion are configured so that the protrusions of the intermediate portion are alternately alternately opposite, and are repeated continuously.

That is, the cable hanger 10 according to the present invention has an S spiral portion 11 and a Z spiral portion 12 as shown in Figs. 1 to 6, and these spiral portions 11 and 12 are particularly As shown in FIG. 3, FIG. 6, the shape seen from the side of the cable hanger 10 in the longitudinal direction is arrange | positioned so that it may become substantially circular and it will be symmetrical alternately left and right. Both sides before and after the intermediate part with the long protrusion are spiral in which the winding directions are opposite to each other.

In Figs. 7 and 8, intermediate portions 13a-1, 13b-1 or 13a-2, 13b-2 having projections of circular arcs having a large radius of curvature similar to straight lines or straight lines are in the axial direction as described above. As viewed from the side, the spirals of the S and Z spirals open outwardly to the outside of the spiral, and the upper edges of the spirals of the S spiral and the Z spiral are protruded. 3 and 6, when viewed from the side of the axis, the height (h) of the protruding portion is greater than the height of the center point of the arc formed by the spiral portion, is wider than the helix portion, and is the angle of the circular arc formed by the spiral portion. It is effective to regulate the vertical movement of the cable below the height, and it is preferable because the cable does not have to be detached even under the influence of wind pressure, other vibration, and tensile force. This is an unexpected effect in the conventional simple inverting section, that is, the step of the left and right alternate spirals having the U-shaped inverting section.

That is, the intermediate portion 13a is protruded in a continuous curve with the spiral of the S spiral and the spiral of the Z spiral at both ends thereof, and the central portion is formed of a straight or circular arc curve having a large radius of curvature. It protrudes. Similarly, the intermediate portion 13b also protrudes in a continuous curve with the spirals of the Z spiral portion and the S spiral of the S spiral portion at both ends thereof, and the central portion is formed into a straight or circular arc curve having a large radius of curvature. .

The difference between the two lies on the opposite side from side to side with the center line of the arc-shaped curve.

The number of windings of the S-helical part 11 and the Z-helical part 12 of the cable hanger 10 is not particularly limited, but at least one in consideration of the attachment to the messenger wire W and the hanging of the cable C. More than rotation is preferred, but not too much is advantageous in terms of manufacturing costs and the span of messenger wires and cables.

And the length of the long protrusion part which consists of a large curved part of big curvature radius similar to the straight line of the intermediate part between these S spiral part 11 and Z spiral part 12 is 2 times or more of the winding width of a spiral part, and it is a messenger wire In the case of less than 2 times the winding width of the spiral part, it is close to the conventionally known inverting part, so that the effect of preventing the cable from being expected to be in the middle part of the long part is likely to be insufficient. In addition, the number of spirals of the S spiral portion 11 and the Z spiral portion 12 increases as a whole of the cable hanger 10, and a lot of products are required to tighten the messenger wire W, and the cable hanger ( 10) The wire rods of the material used in 10) increase.

In addition, if the length of the long protrusion (which eventually becomes the middle of the long) is too long, it is easy to attach the messenger wire, but the hanging force of the messenger wire decreases and the holding force of the cable decreases, which may cause practical problems. There is. That is, the number of the S-helical part 11 and the Z-helical part 12 decreases as a whole in the cable hanger 10, and the overhanging cable C is subjected to an excessive load on the cable hanger 10 under the influence of the load. Together, sagging due to self-weight occurs in the spanning cable C, which is undesirable because the cable may be wheely.

It is shown in FIG. 7 that the beginning and the end of the straight portion 11 constituting the above-described protrusions are formed as smooth corners in FIG. However, this corner portion may be formed by providing a sharp bending point. On the other hand, as shown in FIG. 8, it can be understood that the long protrusion similar to the straight line achieves the same effect even when formed by a large arc having a large radius of curvature without requiring detailed description.

In addition, after making it easy to hook the cable C to the cable hanger 10, both sides of the S or the wire 11 and the Z spiral 12 as described above is the intermediate portion (13a) as shown in FIG. , 13b is projected outward from the circle formed by the spiral portions 11 and 12, and has a shape that spreads in the outward direction of the axis line. Accordingly, since the messenger wire constitutes a long middle portion or an arc-shaped curve having a large radius of curvature that approximates it, falls away from the arc of the spiral portion, the cable is removed from the cable hanger 10 even when wind pressure or vibration is applied to the cable. It was confirmed experimentally that there is little fear of departure.

In addition, in the cable slit of the conventional SZ alternating spiral, even if the inverting part is provided close to the top of the cylinder assumed to be the spiral, the cable C extending as close as it is in such an abnormal weather or the like is moved beyond this top to the outside. Although there was a risk of falling off, in the present invention, the cable cannot be protruded to protrude outward due to the effect of the elongation of the hook, thereby preventing the cable C from falling off.

In addition, since the cable hanger of the conventional SZ alternating spiral has a U-shaped short inverting portion, the inverting portion having only the inverting action of the SZ alternating spiral is provided as a U-shaped short inverting portion, so that the cable has a low portion of the inverting portion adjacent from the top of the inverting portion. This will cause the tally problem. In order to solve this problem, it is conceivable to attach a detachment preventing member separately, but it is cumbersome.

In the present invention, the middle portion of the SZ alternating spiral is provided in the middle of the long portion rather than the inverting portion required for the natural reversal action, rather, it is dish-shaped when viewed from the upper surface in the longitudinal direction, that is, its height is equal to or less than the height of the spiral portion, and the height of the center of the spiral portion. As described above, it is possible to open at a wider angle in the opening direction than the helix so as to move away from the cylinder formed by the helix, so that even if there is some movement by the vibration in the lateral direction of the cable and vibration in the up and down direction, it does not reach separation. It has been found that breakaway from cable hangers can be prevented.

By constructing as described above, the cable hook 10 according to the present invention is attached to the messenger wire W, which is tightened in the section where the cable C is to be laid, and the cable C is connected to the cable hook 10. In order to install the inside of the cable), the cable can be put on the temporary cable hook 10 by using a traction wire of the cable.

That is, in the state where the cable hook 10 is attached to the messenger wire W that is stretched tightly in the section where the cable C is to be installed, the cable hook 10 in the direction of arrow H in the drawing is shown. In this way, the cable C can be constructed, and especially, the branch C can be easily branched, added, or removed using the long middle portion.

In order to install the cable hanger of the present invention, the inverted parts of the same direction are arranged sequentially along the axis of the cable hanger on the messenger wire already installed, and after the completion of the flower insertion, the whole plug is inserted in the direction as it is. Rotate the messenger wire into the spiral while rotating along the helix.

The cable can be constructed by first inserting the traction wire into the cable latch supported by the messenger wire, and pulling the cable connected to the rear end from the reel according to the winding of the traction wire.

The present invention can omit much of the trouble and material according to the construction of the cable by the cable hook compared with the conventional spiral rod, and furthermore, the conventional alternating spiral having a simple inverted portion in the right spiral and the left spiral Compared to the support of the present invention, in the present invention, since the long intermediate part having the reversal function as well as the cable fall prevention function is installed, the cable separation prevention function is excellent, and since the spiral part is small, the attachment work of the messenger wire is efficient and the cost is low. It is to provide a cable hanger and a hooking method that is effective.

Claims (8)

S- and Z-helical parts with the same number of windings of spirals alternate along the axis, with an intermediate part with a long projection consisting of a series of high-tension lines and a straight or approximating curvature radius. Cable hanger, characterized in that the continuous configuration. The cable hanger according to claim 1, wherein the length of the elongated protrusion formed by a straight line or an arc-shaped curve having a large radius of curvature approximating it is at least two times the winding width of the spiral. The cable hanger according to claim 1 or 2, wherein the number of turns of the spirals of the S helix and the Z helix is at least one rotation with the same number of turns. The side surface seen from an axis line WHEREIN: This long protrusion part isolates and protrudes this cylindrical part to the outer side of the cylindrical part assumed in the axial direction by this spiral part, The height is this spiral part. It has a height that is equal to or greater than the height of the center point of the constituting arc, and has a height that is equal to or less than the height of the circumference of the helical part, and the horizontal spacing between the long protrusion and the cylindrical part is twice the radius of the arc constituting the helical part. The cable hanger characterized by the above. The side surface viewed from the axis, wherein the elongate protrusions are curved or L-shaped outward from the lowest point of the cylindrical portion on the outer side of the cylindrical portion assumed in the axial direction by the spiral portion. Cable hanger characterized in that the protruded and installed. The intermediate portion between the S spiral portion and the Z spiral portion, and the intermediate portion between the Z spiral portion and the S spiral portion, respectively, have the same shape and are provided so as to alternate left and right with respect to the axis. Cable hangers made. As a method of installing the cable latch of claim 1 or 2 on a messenger wire, In the construction, the end of the cable hanger is inserted into the messenger wire already installed, and the messenger wire is repeatedly rotated along the spiral in the direction of flower insertion, and the operation is repeated while rotating along the spiral again through the middle part. The cable hanger hypothesis method characterized in that it is inserted into the inside of the cable hanger. After inserting the cable hanger according to claim 1 or 2 along the axis to the messenger wire already installed, inserting the intermediate part having the elongated protrusions of the same direction provided on the same line in sequence, and completing the insertion A method of installing a cable hanger as described above, wherein the messenger wire is inserted into the inside while rotating along the spiral in the direction in which the entire cable hanger is inserted.

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