KR101894525B1 - Method of construction a helicopter transmission using pulley for auto-inserting overrhead transmission line - Google Patents

Abstract

The present invention relates to a helicopter cable connection method using an automatic cable insertion pulley for an overhead transmission line. The present invention directly connects a power line to a load line of a helicopter from a drum site without applying a conventional cable connection machine provided in a reel drum type on an end of a load line to hoist the power line by the helicopter to allow cable connection work to an end of a cable connection section at once by single helicopter mounting when performing cable connection work to form an overhead transmission line. Accordingly, a worker does not climb each steel tower during conventional helicopter cable connection to reduce labor costs and to ensure worker safety by the downward wind of the helicopter. The power line for forming an overhead transmission line hoisted by the helicopter is naturally hung. An automatic cable insertion pulley automatically winds to prevent a hung power line from escaping is applied to hang the power line hoisted by the helicopter to automatically lock the power line to maximize worker safety without requiring a tower climbing worker for each steel tower to hang the power line directly hoisted by the helicopter in comparison to a conventional technique. Moreover, a weight for transverse vibration prevention is mounted on the end of the load line of the helicopter to stably prevent accidents by wind resistance or an abnormal operation of a cable connection machine and allow a helicopter captain to stably and easily insert the power line into the pulley by efficiently performing cable connection work by the helicopter.

Description

TECHNICAL FIELD [0001] The present invention relates to a helical twisted pair transmission using an automatic wire insertion pulley for a working transmission line,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a helicopter twisting method using an automatic wire insertion pulley for a working transmission line and more particularly to a helicopter twisting method in which a power line is directly supplied to a helicopter The wire rope is connected to the load line of the helicopter so that the wire rope can be lifted through the helicopter to form the transmission line. The worker does not take a wake-up tower, so that the labor cost can be reduced and the safety of the worker can be ensured by the descent wind of the helicopter while the power line for forming the working power transmission line is naturally caught by the helicopter, Automatic wire insertion pulley automatically locked to prevent enemy The power line lifted by the helicopter is automatically locked by adjusting the helicopter so that the safety of the work can be maximized without requiring a tower tower worker for every steel tower to hang the power line lifted by the direct helicopter, In addition, by attaching the anti-lateral weight to the end of the load line of the helicopter, it is possible to stably prevent the occurrence of safety accidents caused by wind resistance or abnormal operation of the twisting machine, and the helicopter can stably insert the power line into the pulley, The present invention relates to a helical twisting method using an automatic wire insertion pulley for a working transmission line.

Generally, twisted-pair works to form the transmission line in the construction of the transmission transmission line to connect the transmission transmission line to a number of steel towers is the work of connecting the power line between each tower and the tower.

This kind of twisted-pair construction is usually followed by assembly work, followed by a cutting line and a power line to a steel tower.

The above-mentioned twisting work can be roughly classified into a wire, a ground wire, and a twisted wire work that forms a line for a power line.

Meanwhile, in the twisting method for the twisting work as described above, there are usually two methods of twisting a manpower and a helicopter, and helicopter twisting is mainly used in consideration of work efficiency, safety, and forest protection.

As applied to the twisting method as described above, a pulley installed on a steel tower for twisting a power line or a wire for forming a working transmission line is disclosed in Patent Document 1 (Korean Patent Laid-Open Publication No. 2011-0064512 published on June 15, 2011). A groove 4 is formed so as to be rotatable around the central axis 2 and to pass a power line R to an edge of the guide 1, And a wheel (5).

In the pulley 9 having such a configuration, one side of an anchor chain (not shown) is inserted into a hole 6 formed in the upper portion of the guide 1 at the time of twisting to form the transmission line, and the other side of the anchor chain So that the power line R can be held by being fixed to the steel tower.

When the power line is supported on the pulley as described above, the power line is pulled from the side of the drum pulley 7 to the side of the engine pulley 8, where the pulley 5 of the pulley rotates and the power line is pulled smoothly .

On the other hand, the twisting method as described in Patent Document 2 (Japanese Patent Laid-Open Publication No. 2011-0064513, published on June 15, 2011), which is a twisting method using the pulley as described above, is a helical twisting method using a helicopter. There is a very dangerous problem in the work because the work of han-kei power line is done by the person.

In other words, in order to wire a power line to a fixed pulley, a person is raised for each pylon where the pulley is installed, and if the helicopter lifts the power line, the person must directly hold the power line and hang it on the pulley. There was a problem.

In addition, since the conventional twisting method using a pulley connects a twisting machine provided as a reel drum type to the end of a road line of a helicopter, a safety accident caused by wind resistance or abnormal operation of the twisting machine Accordingly, there has been a problem in that the twisting operation through the helicopter can not be performed smoothly.

In addition, when a power line or a wire wound on a twisted wire connected to the helicopter's load line is exhausted, it is necessary to return to the twisted wire attachment station to wind the power line or wire to the twisted wire, And there is a problem that the twisting operation through the helicopter can not be smoothly performed.

Therefore, it is required to research and develop the helicopter twisting method using a pulley that can reduce the operating cost of the helicopter, maximize the safety of the work by preventing various safety accidents, and make the twisting work smooth. to be.

Korean Patent Publication No. 2011-0064512 Published Jun. 15, 2011. Republic of Korea Open Patent No. 2011-0064513 Published Jun. 15, 2011. Korean Patent Publication No. 2017-0067983 207.06.19. Korea Registered Patent No. 0392351 2003.07.09 Registered.

In order to solve the above-mentioned problems, the present invention is directed to a method of connecting a power line to a load line of a helicopter by directly connecting a power line in a drum to a load line of a helicopter without applying a twisted- In this way, it is possible to perform the twisting operation to the end of the twisted section through a single helicopter installation during the twisting work for forming the transmission line, thereby reducing labor costs and reducing the helicopter And to provide a helicopter twisting method using an automatic wire insertion pulley for a working transmission line so as to secure worker's safety by wind.

Another object of the present invention is to provide an automatic wire insertion pulley which is automatically locked so that a power line for forming a working transmission line to be lifted by a helicopter is naturally caught, The power line lifted by the helicopter is automatically locked through the adjustment of the helicopter without requiring a tower tower worker for each steel tower to hang the power line which is directly lifted by the helicopter so that the safety of the work can be maximized.

Furthermore, another object of the present invention is to prevent the occurrence of safety accidents due to wind resistance or abnormal operation of the twisting machine by attaching a weight to the end of the load line of the helicopter, Thereby facilitating the insertion of the pulley into the pulley in a stable manner so that the stranding operation through the helicopter can be carried out more smoothly.

The present invention for achieving the above-mentioned objects is as follows. That is, in the helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention, an automatic wire insertion pulley for a working transmission line is installed on a plurality of steel towers for forming a working transmission line by applying a twisting method, And preparing a twisted pair by conducting a survey flight; A tensioner provided on one side of the drum for winding a power line applied to form a machined transmission line and a tensioner for loosening tension of the power line to be loosened from the drum and a guide pulley mounted on one side of the tensioner A helicopter power line connecting step of connecting an end of the power line from the drum section to a load line end of the helicopter through the guide pulley; A step of installing a power line towel through which a power line is unrolled through a helicopter control to sequentially pass power lines to a plurality of towers; The end of the power line is taken over to the ground while the temporary fixture is connected to the end of the power line while the end of the power line is connected to the end of the power line via the helicopter control, Temporarily fixing the power line temporarily; And connecting the end of the power line temporarily fixed in the ground through the power line temporary fixing step to the power line engine field connecting the winch of the engine field provided for the winch to the winch of the engine.

In the connecting of the helicopter power line, the end of the power line is connected to the end of the load line of the helicopter, the upper end of the lateral weight is connected to the end of the load line of the helicopter, And a step of connecting the first electrode and the second electrode.

The plurality of steel towers are for forming a transmission line by applying a twisted wire method. The plurality of steel towers include a twisted wire starting tower disposed at an initial position where twisted wires are started, and a middle tower having a plurality of twisted wires arranged at regular intervals from the twisted- And a stranded final pylon disposed at a final position where the strand is finally completed at a certain distance from the middle strand disposed at the end of the middle strand facing the strand starting strand.

Meanwhile, the automatic wire insertion pulley for the working transmission line applied in the strand preparing step is installed in the plurality of the steel towers for twisting the power line applied to form the working transmission line, A pulley in which a winding groove is formed to rotate; The pulley is installed at a height corresponding to the pulley 110 and the other frame is extended from the upper end of the one frame to the upper side, And the other frame is coupled through a shaft for mounting the pulley and a connecting hole at the lower end, a flange is formed on the upper and lower ends of the one frame, a bar stopper is formed through the upper end of the upper and lower flanges, A hanger having a hook for hanging on the tower; A fixed guard installed in front of and behind the elongated second frame of the hanger to guide the power line slid downward and to form a passage through which the power line passes between the flange upper end and the flange; And a hook for opening and closing the front of the insertion groove due to the elasticity of the spring in a state of being axially coupled to the fixture, the hook being provided on the other frame of the hanger and having an insertion groove formed therein; Wherein the hanger groove is formed on one side of the outer surface of the hanger so as to pass through the passage with the power line sandwiched therebetween, A rotary wheel formed with the rotary wheel; Wherein the bar stopper is axially coupled between the front and rear flanges of the hanger together with the rotary wheel so that rotation of the bar stopper in one direction is restricted by a predetermined angle and is connected to the slot through a connection pin, The power line slides downward and guides the power line to be seated in the recessed groove of the rotating wheel, and the rotating wheel rotates independently by the angle of the elongated hole so that the power line is positioned on the pulley A rotation guide bar formed to be vertically interlocked and locked by the automatic hook when the rotating wheel is rotated to lower the power line on the pulley; And the other end is supported by the rotation guide bar so that the recessed groove of the rotation wheel always rotates toward the rotation guide bar while being coupled with the rotation wheel and the shaft provided with the rotation guide bar, And a torsion spring.

Preferably, the hanger includes a separation protrusion formed on one side frame and an inner side surface of the other frame, respectively, for guiding the power line introduced through the slope to be seated in the winding groove of the pulley.

The rotation wheel is formed on the other side of the outer surface so as to limit the rotation angle in the outward direction by being hooked on the outer end of the front and rear flanges when the rotation wheel rotates in the outward direction, and to push the outer end of the rotation guide bar in rotation in the inward direction And a wheel stopper which is made of a resin.

Further, it is preferable that the rotation guide bar includes a weight attached to the upper end so as to maintain a state of being widened toward one direction.

At this time, the rotation guide bar is provided with a stop pin for preventing the weight from falling down toward the other side of the weight, and at the lower end of the weight, the rotation guide bar is vertically erected, It is preferable that a recessed groove corresponding to the recessed portion is formed.

The effect of the helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention is as follows.

First, without applying the twisted wire provided as a reel drum type to the end of the conventional road line, the power line is directly connected to the load line of the helicopter in the drum section to lift the power line through the helicopter, Through the installation of a single helicopter at a time, it is possible to perform a twisting operation to the end of the twisted section at once. Through this, the operator can avoid the wake-up tower for each pylon when the conventional helicopter is twisted to reduce labor costs and secure workers' have.

Second, by applying an automatic wire insertion pulley that is automatically locked to prevent a power line from being pulled out, while allowing a power line for forming a working transmission line to be lifted by a helicopter to be naturally caught, a power line lifted by a helicopter The power line lifted by the helicopter can be automatically locked by adjusting the helicopter without requiring a tower tower operator for each tower, so that the safety of the work can be maximized.

Third, by attaching a weight to the end of the load line of the helicopter, it prevents the occurrence of safety accidents caused by the wind resistance or abnormal operation of the twisting machine, and the helicopter is able to stably insert the power line into the pulley, So that the twisting operation can be performed more smoothly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing steps of a helicopter twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic transmission line for a transmission line, and more particularly,
3 is a front view showing an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.
4 is a side view showing an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.
5 is an explanatory view showing an automatic wire insertion pulley for a working transmission line applied to a helicopter twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.
6 to 8 are enlarged views of an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.
FIG. 9 is a front view showing a weight for preventing lateral spreading applied to a helicopter twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a preferred embodiment of a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing steps of a helicopter twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention. FIG. 2 is a flowchart illustrating a helicopter twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention. Fig. 2 is an illustration showing an example of installation of a machining power transmission line to be installed; Fig.

FIG. 3 is a front view showing an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention, FIG. 4 is a front view showing an automatic wire insertion for a working transmission line according to the present invention, Fig. 8 is a side view showing an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using a pulley.

5 is an explanatory view illustrating an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.

6 to 8 are enlarged views of an automatic wire insertion pulley for a working transmission line applied to a helical twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.

9 is a front view showing a weight for preventing lateral spreading applied to a helicopter twisting method using an automatic wire insertion pulley for a working transmission line according to the present invention.

As shown in FIGS. 1 to 9, the helical twinning method using an automatic wire insertion pulley for a working transmission line according to a preferred embodiment of the present invention includes a helicopter for forming a working transmission line so that power lines are continuously installed over a plurality of steel towers, As a twisted pair method, it can be broadly classified into two types including a strand preparation step S110, a helicopter power line connection step S120, a power line pylon installation step S130, a power line temporary fixing step S140 and a power line engine connection step S150 .

In the twisting preparation step S110, an automatic wire insertion pulley 100 for a working transmission line is installed in a plurality of steel towers 10a, 10b, and 10c for forming a working transmission line by applying a twisting method, And conducting a survey flight to prepare for a twisted pair.

The plurality of steel towers 10a, 10b, and 10c are for forming a transmission line by applying a twisted wire method. The plurality of steel towers 10a, 10b, and 10c include a twisted wire starting pylon 10a disposed at an initial position where the twisted wire starts, A middle steel tow 10b arranged at a predetermined distance from the middle steel tow 10a and a middle steel tow 10b disposed at the end of the middle steel tow 10b in a direction opposite to the twisting start steel tow 10a, And a twisted wire end tower 10c disposed at a final position where the wire end finishing is completed.

The helicopter power line connection step S120 includes a drum 1a on which a power line 20 applied to form a machined transmission line is wound to a predetermined length and a drum 1a on one side of the drum 1a, A tensioner 1b for releasing the tension of the power line 20 released from the power line 20 and a guide pulley 1c provided at one side of the tensioner 1b, And connecting to the end of the load line of the helicopter via the guide pulley 1c.

In other words, the power line 20 in the helicopter power line connection step S120 is released from the drum 1a and sequentially passes through the tensioner 1b and the guide pulley 1c, and then the end thereof is connected to the end of the load line of the helicopter It is connected.

The step of installing the power line towers (S130) is a process of lifting the unrolled end of the power line 20 through helicopter control and sequentially passing power lines 20 to the plurality of towers 10a, 10b, and 10c .

The temporary fixing of the power line S140 may be performed after passing through the last steel tower 10c, which is the last steel tower among the plurality of steel towers 10a, 10b, and 10c through the helicopter control, And temporarily fixing the end of the power line 20 to the ground by connecting the temporary fixture 2 to the end of the power line 20 while taking the end of the power line 20 to the ground.

In the power line engine field connection step S150, the end of the power line 20 temporarily fixed in the ground through the power line temporary fixing step S140 is connected to the winch of the engine field 3 provided with the winch- And the process of raising it.

In the helicopter twisting method using the automatic wire insertion pulley for a working transmission line according to the present invention as described above, the helicopter power line connecting step (S120) connects the end of the power line 20 to the load line end of the helicopter , Connecting the upper end of the lateral weight (5) as shown in FIG. 9 to the end of the load line of the helicopter, and then connecting the untwisted end of the power line (20) to the lower end of the lateral weight More preferable.

In other words, by applying the weight 5 for preventing the lateral overhang as described above, a twisted pair provided as a reel drum type is connected to the end of the road line of the conventional helicopter, and the safety resistance caused by the wind resistance or abnormal operation of the twisted- So that the helicopter can smoothly insert the power line into the pulley so as to more smoothly provide the twisting work through the helicopter.

Meanwhile, the automatic wire insertion pulley 100 for the working transmission line applied to the twisting preparation step (S110) in the helical twisting method using the automatic wire insertion pulley for the working transmission line according to the present invention as described above, 10, 10b and 10c for twisting the power line 20 applied to form the machined transmission line. Referring to FIGS.

The automatic wire insertion pulley 100 for the working transmission line applied in the strand preparing preparation step S110 includes a pulley 110 rotating in a state where the power line 20 is applied to form a working transmission line, A hanger 120 installed on the hanger 120 in a state where the pulley 110 is axially coupled to the hanger 120, a fixed guard 130 installed on one side of the hanger 130 and an automatic hanger 140 installed on the other side of the hanger 120 A rotation wheel 150 axially coupled to an upper end of the hanger 120 and a rotation guide bar 160 axially coupled to an upper end of the hanger 120 together with the rotation wheel 150; And a torsion spring 170 coupled to the shaft provided with the rotation wheel 150 and the rotation guide bar 160 and having one end supported by the rotation wheel 150 and the other end supported by the rotation guide bar 160 .

Specifically, the pulley 110 is formed to rotate while lifting the power line 20, and a winding groove 111 is formed so that the power line can be safely held without being separated.

The hanger 120 is for suspending the pulley 110 in a state where the pulley 110 is axially coupled to the pivot 110. The pulley 110 is disposed between one frame 120a and the other frame 120b, The one frame 120a is formed at a height corresponding to the pulley 110 and the other frame 120b is extended from the upper end of the one frame 120a to the upper side, And the other frame 120b are coupled through a shaft 121 for mounting the pulley 110 and a connecting hole 122 at the lower end.

At this time, a flange 123 is formed in front of and behind the upper end of the one frame 120a, a bar stopper 124 is formed through the upper end of the upper and lower flanges 123, A hook 125 for hanging on the steel tower 10 is formed.

The hanger 120 may be formed on the inner surface of the one frame 120a and the other frame 120b so that the power line 20 introduced through the inclined surface may contact the winding groove of the pulley 110 111) for guiding the abutment of the abutting member

That is, the separation preventing jaw 126 prevents the power line 20 from being caught in the gap between the pulley 110 and the one frame 120a or the other frame 120b of the hanger 120.

The fixed guard 130 is installed before and after the extended frame 120b of the hanger 120 so as to guide the power line 20 downward while slidably supporting the power line 20 between the upper end of the flange 123 and the fixed guard 130. [ The passage 131 is formed so that the passage 20 passes therethrough.

That is, the fixed guard 130 guides the power line 20 introduced therebetween together with the rotation guide bar 160, which will be described later, to be caught by the pulley 110, 20) is prevented from being easily released.

The automatic hanger 140 may be installed on the other frame 120b of the hanger 120 and may include a lock 141 formed with an insertion groove 141a and a spring 141 coupled to the lock 141, 143 for opening and closing the front of the insertion groove.

Accordingly, when the rotation guide bar 160, which will be described later, is lifted up, the latch pin 162 pushes the latch 142 Since the latch 142 is not opened by the spring 140 in the state where the latching pin 162 of the rotation guide bar 160 is fitted in the latching bar 160, Thereby providing a stable structure that does not fall out.

The rotation wheel 150 blocks the passage 131 while being axially coupled between the front and rear flanges 123 of the hanger 120. The power wheel 20 is inserted into one side of the outer wheel, A slot 151 is formed so as to pass through the passage 131, and a slot 152 having a certain angle range is formed through the slot.

That is, the rotary wheel 150 is rotated only through the recessed groove 151 in a state where the passage 131 between the front and rear flanges 123 formed on the upper end of the one frame 120a and the fixed guard 130 is cut off, (20), and freely rotates separately from the rotation guide bar (160) within an angle range of the long hole (152).

The rotation wheel 150 as described above is formed on the other side of the outer surface as an example, and when rotated in the outward direction, it is caught by the outer end of the front and rear flange 123 to limit the rotation angle in the outward direction, And a wheel stopper 153 for pushing the outer end of the rotation guide bar 160 up.

That is, the rotation stopper 153 restricts excessive rotation of the wheel stopper 153 unnecessarily, while supporting the rotation guide bar 160 vertically.

The rotation guide bar 160 is axially coupled to the front and rear flanges 123 of the hanger 120 together with the rotation wheel 150 so that the rotation guide bar 160 is rotated by a predetermined angle or more in one direction And is connected to the elongated hole 152 through the connecting pin 161.

In addition, the rotation guide bar 160 is slid downward at a predetermined angle toward the one side by forming the latching pin 162 so as to be locked in correspondence with the automatic hook 140, When the power wheel 20 is positioned on the pulley 110 by the rotation of the rotation wheel 150 by the angle of the elongated hole 152 so as to be seated in the recess groove 151 of the rotation wheel 150, In the process of rotating the rotating wheel 150 in order to lower the power line 20 on the pulley 110, the rotating wheel 150 is vertically interlocked and is locked to the automatic hook 140 so as to be locked.

That is, the rotation guide bar 160 is extended in one direction so that the power line 20 can be easily lowered thereon and easily hooked on the pulley 110. After the power line 20 is attached to the pulley 110 And is locked by the automatic hook 140 while being raised.

As described above, the rotation guide bar 160 as described above includes a weight 163 axially coupled to the upper end thereof so as to maintain a state widened toward one side.

That is, the weight 163 prevents the rotation guide bar 160 from being closed due to the influence of the shaking or the wind in the state where the rotation guide bar 160 is opened.

In addition, the rotation guide bar 160 may be provided with a stop pin 164 for blocking the weight 163 from falling down in the other direction, A recess 163a corresponding to the stop pin 164 is formed so that the weight 163 is vertically erected while the guide bar 160 is vertically erected.

The torsion spring 170 is coupled to the shaft provided with the rotation wheel 150 and the rotation guide bar 160 so that one end is supported by the rotation wheel 150 and the other end is supported by the rotation guide bar 160 So that the recessed groove 151 of the rotary wheel 150 is always maintained in a state of rotating toward the rotation guide bar 160.

4 and 7, when the rotation guide bar 160 is opened, the torsion spring 170 rotates the groove 151 of the rotation wheel 150 upward, So that the power line 20 is returned to the original position after being caught by the pulley 110. In this case,

5 shows the operation of the automatic wire insertion pulley 100 for the working transmission line applied to the strand preparing preparation step (S110) in the helical twisting method using the automatic wire insertion pulley for the working transmission line according to the present invention as described above The pulley 125 formed on the upper end of the hanger 120 is used to hook the pulley 100 to the iron tower 10 and the rotation guide bar 160 is left in an open state .

The rotation guide bar 160 thus opened is not closed by the weight 163 without being widened beyond a certain angle by the bar stopper 124. As the rotation guide bar 160 is opened, The concave groove 151 of the rotary wheel 150 is opened upward by the action of the spring 170. [

In this state, when the helicopter lifts the power line 20 and places it between the fixed guard 130 and the rotation guide bar 160, the power line 20 is lowered by its own weight, Since the weight of the power line 20 is larger than the elastic force of the torsion spring 170 in this case, the rotation wheel 150 rotates naturally and the power line 20 flows through the passageway 131 And is wound down on the winding groove 111 of the rear pulley 110.

The rotation guide bar 160 is rotated by the slot 152 of the rotary wheel 150 until the power line 20 is introduced through the passage 131 between the fixed guard 130 and the hanger 120 The rotation guide bar 160 is rotated together with the rotation wheel 150 in a process of releasing the power line 20 from the recessed groove 151 and hanging it in the winding groove 111 of the pulley 110 And the hooking pin 162 of the rotation guide bar 160 is inserted into the automatic hook 140 in the course of the rotation so as to be locked.

Finally, after the rotation guide bar 160 is locked by the automatic hook 140, the rotation wheel 150 is rotated by the torsion spring 170 to conceal the groove 151.

According to the helical twisting method using the automatic wire insertion pulley for the working transmission line according to the present invention, in which the automatic wire insertion pulley 100 for the working transmission line as described above is applied, the twisting of the power line applied to form the working transmission line A power line lifted by a helicopter is naturally caught in a state where it is installed on a steel tower for work, and then the power line is automatically locked so as not to be pulled out.

Moreover, the power line applied to form the working transmission line as described above is applied to form the working transmission line, and may be applied particularly as a wire.

According to the helical twinning method using the automatic wire insertion pulley for working transmission line according to the present invention as described above, the power line can be directly fed from the drum to the helicopter without directly applying the reel- The wire rope is connected to the load line of the helicopter so that the wire rope can be lifted through the helicopter to form the transmission line. It is possible to reduce the labor cost and secure the safety of the operator due to the descent of the helicopter.

In addition, by applying an automatic wire insertion pulley which is automatically locked so that a power line for forming a working transmission line to be lifted by a helicopter is naturally caught and a power line is not pulled out, a power line The power line lifted by the helicopter can be automatically locked by adjusting the helicopter without requiring a tower tower operator for each tower, so that the safety of the work can be maximized.

Furthermore, by attaching a weight to the end of the load line of the helicopter, it is possible to stably prevent the occurrence of safety accidents caused by wind resistance or abnormal operation of the twisting machine, and the helicopter can stably insert the power line into the pulley, It is possible to smoothly perform the twisted work through the above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

1: Drum sheet
1a: drum 1b: tensioner
1c: Guide pulley
2: temporary fixture 3: engine compartment
5:
10a, 10b, 10c: steel tower 20: power line
100: Pulley
110: pulley 111: winding groove
120: hangers 120a: one side frame
120b: the other frame 121: shaft
122: End connection 123: Flange
124: Bar Stopper 125: Ring
126:
130: fixed guard 131: passage
140: automatic hook 141: latch
141a: insertion groove 142: latch
143: spring
150: rotating wheel 151: recessed groove
152: Slot 153: Wheel stopper
160: rotation guide bar 161: connecting pin
162: engaging pin 163: weight
163a: entry groove 164: stop pin
170: Torsion spring

Claims (8)

An automatic wire insertion pulley 100 for a working transmission line is installed on a plurality of steel towers 10a, 10b and 10c for forming a transmission transmission line by applying a twisting method, Strand preparation (S110); A power supply line 20 applied to form a working power transmission line is provided with a drum 1a having a certain length wound thereon and a power supply line 20 provided at one side of the drum 1a to adjust the tension of the power line 20 to be unwound from the drum 1a The end of the power line 20 from which the power line 20 is unwound from the drum chamber 1 composed of the tensioner 1b which is released and the guide pulley 1c which is installed on the side of the tensioner 1b is passed through the guide pulley 1c, A helicopter power line connecting step (S120) for connecting to a line end; A step of installing a power line towel (S130) for lifting an end of the power line (20) through a helicopter control and passing the power line (20) sequentially through a plurality of the steel towers (10a, 10b, 10c); After passing through the stranded steel tower 10c which is the last steel tower among the plurality of steel towers 10a, 10b and 10c through helicopter control through the installation of the steel tower jam (S130), the end of the power line 20 is grounded Temporarily securing the end of the power line (20) to the ground by connecting the temporary fixture (2) to the end of the power line (20) while taking over the power line (20); And connecting the end of the power line 20 temporarily fixed in the ground through the power line provisional fixing step S140 to the power line engine field connection step S150 for lifting the end of the power line 20 to a winch of the engine site 3 provided with the winch, The method comprising the steps of: (a)
The automatic wire insertion pulley 100 for the working transmission line applied to the strand preparation step S110 is connected to the plurality of the steel towers 10a, 10b, 10c for twisting the power line 20 applied to form the working transmission line, (110) having a winding groove (111) formed therein for rotating the power line (20) in a raised state; The pulley 110 is installed between one frame 120a and the other frame 120b and the one frame 120a is formed to have a height corresponding to the pulley 110 and the other frame 120b The one frame 120a and the other frame 120b are provided with a shaft 121 for mounting the pulley 110 and a connecting hole 122 at the lower end in a state in which the one frame 120a and the other frame 120b are extended from the upper end of the upper frame 120a. A flange 123 is formed in front of and behind the upper end of the one frame 120a and a bar stopper 124 is formed through an upper end of the upper end of the front and rear flanges 123, A hanger 120 having a ring 125 for hanging on the steel tower 10; The hanger 120 is installed before and after the extended frame 120b of the hanger 120 so that the power line 20 slides downward and the power line 20 passes between the upper end of the flange 123 and the passageway A fixed guard (130) for forming a magnetic shield (131); The hanger 120 is fixed to the other end of the hanger 120 by means of the elasticity of the spring 143 in a state of being inserted into the insertion hole 141a formed on the other side frame 120b of the hanger 120, (140) comprising a latch (142) for opening and closing the front of the seat (141a); The hanger 120 is configured to block the passage 131 while being axially coupled between the front and rear flanges 123 of the hanger 120 so that the electric wire 20 can pass through the passage 131 A rotation wheel 150 in which a recessed groove 151 is formed and an elongated hole 152 passing through the inside of the recessed groove 152 is formed; The flange 123 of the hanger 120 is axially coupled with the rotary wheel 150 so that rotation of the bar stopper 124 by a predetermined angle or more is restricted by the bar stopper 124, The power line 20 is slid downward in a state in which the latch pin 162 is formed so as to be locked in correspondence with the automatic hook 140, When the power wheel 20 is positioned on the pulley 110 by the rotation of the rotation wheel 150 by the angle of the elongated hole 152 so as to be seated in the recess groove 151 of the rotation wheel 150, And a rotation guide bar 160 formed so as to be locked vertically and interlocked with the automatic hanger 140 while interlocking with the rotation wheel 150 in order to lower the power line 20 on the pulley 110, ); One end of which is supported by the rotation wheel 150 and the other end is supported by the rotation guide bar 160 so that the rotation wheel 150 and the rotation guide bar 160 are coupled to each other, And a torsion spring (170) configured to maintain a state in which the recessed groove (151) of the rotation guide bar (160) always rotates toward the rotation guide bar (160)
The rotation wheel 150 is formed on the other side of the outer surface to limit the rotation angle in the outward direction by being hooked on the outer end of the front and rear flanges 123 when the rotation wheel 150 rotates in the outward direction, And a wheel stopper (153) for pushing the outer end of the helicopter by pushing the outer end of the helicopter.
The method according to claim 1,
The helicopter power line connecting step S120 connects the end of the power line 20 to the load line end of the helicopter,
(5) is connected to the end of the load line of the helicopter, and then the end of the power line (20) is connected to the lower end of the weight (5) for preventing lateral overhang Helical twisting method using automatic wire insertion pulley.
The method according to claim 1,
The plurality of steel towers 10a, 10b, and 10c are for forming a transmission line by applying a twisted wire method,
A twisted wire starting pylon 10a disposed at the initial position where the twisted wire starts,
A middle steel tower 10b arranged at a predetermined interval from the twisted-wire starting steel tower 10a,
And a stranded final steel tower 10c disposed at a final position where a strand is finally completed at a certain distance from the middle steel tower 10b disposed at the end of the middle steel tower 10b in the direction opposite to the stranded starting steel tower 10a Wherein the helically twisted wire method is used with an automatic wire insertion pulley for a working transmission line.
delete The method according to claim 1,
The hanger 120 is formed on the inner surfaces of the one frame 120a and the other frame 120b so as to guide the power line 20 introduced through the inclined surfaces to the winding groove 111 of the pulley 110 And a separation preventing jaw (126). The helical twisting method using an automatic wire insertion pulley for a working transmission line.
delete The method according to claim 1,
Wherein the rotation guide bar (160) comprises a weight (163) which is axially coupled to the upper end so as to maintain a state of being widened toward one direction.
8. The method of claim 7,
A stop pin 164 is formed in the rotation guide bar 160 to prevent the weight 163 from falling in the other direction,
A recess 163a corresponding to the stop pin 164 is formed at a lower end of the weight 163 so that the weight 163 is vertically erected while the rotation guide bar 160 is vertically erected A helical twisted pair method using automatic wire insertion pulley for machined transmission line.

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