KR101373003B1 - Tension adjusting apparatus for wire - Google Patents

Abstract

The present invention relates to a wire tension control device, a bar-shaped support body, a pair of rotating bodies which are rotatably installed at both ends of the support, the distance between one end is adjusted by the rotation, and one side is the tension adjustment target A socket that is connected to a wire or a bracket for supporting the wire, the other side of which is located between the rotating body, the one end of the rotating body, and the other side of the binding unit being bound, and the socket by rotation A turnbuckle unit having a turnbuckle body for tensioning wires to adjust the separation distance therebetween, coupled to the binding unit between the rotating body and the socket, moved to the turnbuckle unit by being pushed by the rotating body, and applying a pretension to the wire; It is connected to the other end of the rotating body, the rotation adjusting device for rotating the rotating body by the elastic deformation of the length; characterized in that it comprises a.

Description

Wire tension adjuster {TENSION ADJUSTING APPARATUS FOR WIRE}

The present invention relates to a wire tension control device, and more particularly, to a wire tension control device capable of applying a high load tension to a wire.

Recently, as the buildings are getting higher, curtain walls are used to construct the outer walls of the buildings.

Curtain wall refers to non-bearing partition walls that do not support loads.The panel can be manufactured in the factory by mass-producing panels of the same size, which can reduce the load on the building and shorten the air. There is this.

The curtain wall is used a lot of glass curtain wall fixing the glass panel to the frame, but there is a limit to secure the view and openness due to the frame fixing the glass panel.

Accordingly, a frameless method of installing wires in a building structure and supporting glass panels with wires has been tried in various ways.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 1005596 (2010.12.27. Registered, the name of the invention: wire module and glass panel support structure).

In constructing the wire for supporting the glass panel in the building structure, pre-tension should be given to the wire in advance in consideration of the tension of the wire, and the pretension is 2ton to 15tonf. Have

In general, when the pretension is less than 5tonf, the target tension can be exerted only by the attraction of the turnbuckle (Turnbuckle), but in the case of heavy loads of 5tonf or more, it is difficult to exert the intended tension on the wire.

Therefore, when high tension pretension is required for the wire, a separate equipment is used, but after fixing the equipment to the building structure, the wire is connected to the end of the wire, and the wire and the building structure have to go through a cumbersome process. Construction efficiency is lowered.

An object of the present invention is to provide a wire tension control device capable of stably exerting a high load tension on a wire by a simple operation.

Wire tension control device according to an aspect of the present invention, the bar-shaped support; A pair of pivoting bodies which are rotatably installed at both ends of the support and whose distance between one end is adjusted by the pivoting; A binding unit having one side connected to a wire to be tension-adjusted or a bracket supporting the wire, and the other side positioned between the pivoting bodies; A turnbuckle unit positioned between one end of the rotating body and having a socket to which the other side of the binding unit is bound, and a turnbuckle body for adjusting the separation distance between the sockets by rotation and applying tension to the wire; A transmission port coupled to the binding unit between the rotating body and the socket and being pushed by the rotating body to the turnbuckle unit and applying pretension to the wire; And a rotation adjusting device connected to the other end of the rotating body and rotating the rotating body by elastic deformation of the length.

In the present invention, the support, the rotatable body is rotatably connected, the female threaded portion formed support; And a support shaft having both ends of the male screw coupled to the female screw, connected to the support, and adjusting the separation distance between the support sections by rotation.

In the present invention, the binding unit, one side is connected to the wire or the bracket, the other side is located in the socket, the connection bar is moved with the transfer port; And a locking hole coupled to the other side of the connection bar, moving inside the socket together with the connection bar, and caught by a locking jaw portion of the socket to restrict movement to the outside of the turnbuckle unit.

In the present invention, the rotating body, the intermediate portion is rotatably connected to the support, the connecting bar is formed through the connecting bar through the slit, the rotating table formed with a groove on the contact portion in contact with the transmission port; And a separation piece installed across the slit between the pivot table and the transmission port, fitted to the groove portion, and assembled to be separated from each other with the connection bar interposed therebetween.

In the present invention, the socket, the hollow hollow is formed through the diameter through which the engaging opening, the expansion hollow portion is formed in the inner circumferential portion of the internal threaded portion bolted to the end of the turnbuckle body; And a through-hole formed by the hollow having a smaller diameter than the locking hole to form the locking jaw portion at the connection portion with the expansion hollow portion, and through which the connection bar penetrates.

In the present invention, the locking jaw portion, characterized in that a curved shape corresponding to the locking hole having a spherical outer surface portion.

The rotation adjusting device in the present invention, the hydraulic cylinder portion rotatably connected to one side of the rotating body; And a piston part rotatably connected to the other side of the rotating body and moved outside the hydraulic cylinder part by the hydraulic pressure formed inside the hydraulic cylinder part.

According to the present invention, the tension of a high load can be stably applied to the wire by a simple operation of extending and driving the rotation adjusting device and rotating the turnbuckle body.

In addition, by using the slits formed on the rotating table and the separating piece assembled around the binding unit, the rotating body can be easily bound to or separated from the binding unit connected to the wire, thereby improving the construction efficiency.

1 is a perspective view showing a wire tensioning device according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the binding unit and the turnbuckle unit separated from the rotating body of the wire tension control device according to an embodiment of the present invention.
3 is an exploded perspective view showing the binding unit and the turnbuckle unit of the wire tension control device according to an embodiment of the present invention.
Figure 4 is a front perspective view of the main portion showing a wire tensioning device according to an embodiment of the present invention.
FIG. 5 is a partial cross-sectional view of portion A of FIG. 4.
6 is an operating state diagram illustrating an example of applying pretension to a wire by using a wire tension control device according to an embodiment of the present invention.
7 is an operating state diagram showing a state in which the rotation adjusting device is extended in FIG.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a wire tensioning device according to the present invention.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view showing a wire tension control device according to an embodiment of the present invention, Figure 2 is a state in which the binding unit and the turnbuckle unit separated from the rotating body of the wire tension control device according to an embodiment of the present invention It is a perspective view shown.

Figure 3 is an exploded perspective view showing the binding unit and the turnbuckle unit of the wire tension control device according to an embodiment of the present invention, Figure 4 is a front perspective view of the main portion showing a wire tension control device according to an embodiment of the present invention. 5 is a partial cross-sectional view showing portion A of FIG. 4.

FIG. 6 is an operating state diagram illustrating an example of applying pretension to a wire by using a wire tension adjusting device according to an embodiment of the present invention. FIG. 7 is a view illustrating an extended state of the rotation adjusting device in FIG. 6. This is a working state diagram.

1 and 4, the wire tension control device 300 according to an embodiment of the present invention, the support 310, the rotating body 320, the binding unit 330, the turnbuckle unit 340, the transmission port 350, a rotation adjusting device 360.

The support 310 has a bar shape and is positioned in parallel with the extending direction of the wire 10 to be tension-adjusted, and the rotating body 320 is pivotally coupled at both ends thereof.

The support 310 according to the embodiment of the present invention includes a pair of supports 311 and a support shaft 315.

The support 311 is provided with female thread portions 311a and 311b (see FIG. 4) and is connected to both ends of the support shaft 315, and the pair of support bodies 311 each have a pair of rotating bodies 320. This is rotatably axially coupled.

The female screw portion 311a formed at one side of the pair of supports 311 has a form in which a right screw formed to be inclined in a clockwise direction (right side) can be fastened.

The female screw portion 311b formed on the other side of the support 311 has a form in which a left screw formed to be inclined in a counterclockwise direction (left) is fastened.

The support shaft 315 has male threads 315a and 315b coupled to the female threads 311a and 311b of the support 311 at both ends thereof and is connected to the support 311.

The male screw portion 315a formed at one end of the support shaft 315 is fastened to the female screw portion 311a in the form of a right hand thread, and the male screw portion 315b formed at the other end of the support shaft 315 is in the form of a left screw. It is fastened to the female screw portion 311b.

When the support shaft 315 is rotated counterclockwise, the support 311 is gradually moved toward the end side of the support shaft 315, that is, the separation interval between the pair of supports 311 is extended, The length becomes gradually longer.

When the support shaft 315 is rotated in the clockwise direction, the support 311 is gradually moved toward the middle portion of the support shaft 315, that is, the support gap 310 is reduced while the separation interval between the pair of supports 311 is reduced. ) Is gradually shorter.

That is, according to the support 310 having the above configuration, the length of the support 310 can be freely adjusted while adjusting the separation distance between the support holes 311 by the rotation of the support shaft 315.

Accordingly, when it is necessary to adjust the length of the support 310 in accordance with the specifications (length, etc.) of the turnbuckle unit 340, the wrench without having to replace the support 310 having a different length or other wire tension control device 300, The length of the support body 310 can be easily expanded and contracted while the support shaft 315 is rotated.

The rotating body 320 is provided with a pair rotatably installed at each of both ends of the support 310, one end is connected to the binding unit 330 and the turnbuckle unit 340, the other end is a rotation adjustment device 360 ) Is connected.

The rotating body 320 is rotated based on the shaft coupling portion with the support 310, and the separation distance between one end of the binding unit 330 and the turnbuckle unit 340 is adjusted.

2, the rotating body 320 according to the embodiment of the present invention includes a rotating table 321 and a separating piece 325.

The pivot 321 has an extension length in a direction perpendicular to the extending direction of the wire 10 and the intermediate part is rotatably connected to the support 310.

One end of the rotating table 321 is formed with a slit 322 through which the connecting bar 331 of the binding unit 330 is penetrated, and the separating piece 325 may be fitted on the contact portion that contacts the transfer hole 350. Groove portion 323 is formed.

Separation piece 325 is installed across the slit 322 between the rotating table 321 and the transmission port 350, as shown in Figure 1, fitted in the groove 323, as shown in Figure 2 Likewise, the connecting bar 331 is interposed therebetween.

Separation piece 325 is provided with a pair of interconnected by screwing, the semi-circular groove portion through which the connecting bar 331 is formed on the opposing contact portion is formed.

When the interval between one end of the rotating table 321 is reduced, the separating piece 325 in the state of being fitted into the groove 323 is moved to the turnbuckle unit 340 side with the same displacement as the one end of the rotating table 321 and the transfer port ( 350) is pushed out (see FIG. 7).

The binding unit 330 and the turnbuckle unit 340 in an interconnected state are assembled by assembling a pair of separating pieces 325 to each other around the connecting bar 331 and inserting them into the groove 323 of the pivot table 321. It can be bound to the rotating body 320 through the slit 322 of the rotating table (321).

The pair of separating pieces 325 connected to each other form a panel shape penetrating through the connecting bar 331, and a transmission port coupled to the connecting bar 331 to protrude radially the pressing force applied from the pivoting plate 321. It can be stably delivered to 350.

The binding unit 330 is provided with a pair coupled to each of both ends of the turnbuckle unit 340, one side of each of the binding unit 330 is installed in the building structure to support the wire 10, or the wire (10) It is connected to the bracket 20.

3 to 5, the binding unit 330 according to an embodiment of the present invention includes a connection bar 331 and a locking hole 335.

The connection bar 331 has a bar shape that crosses the slit 322, one side of which is connected to the wire 10 or the bracket 20, and the other side of the connection bar 331 is located inside the socket 341.

The connecting bar 331 is formed around the male screw portion capable of screwing the transmission port 350 and the locking hole 335, and the transmission hole 350 in a state where the transmission hole 350 and the locking hole 335 are fastened around the transmission hole 350. By the pressing force applied to the) is moved together with the delivery port 350, the locking port 335. (See Fig. 7)

The locking hole 335 is screwed to the other side of the connection bar 331 located inside the socket 341, and is moved in the socket 341 together with the connection bar 331.

The locking hole 335 is caught by the locking jaw portion 343 of the socket 341 to constrain the movement to the outside of the turnbuckle unit 340 (see FIGS. 4 and 5).

The turnbuckle unit 340 includes a rotating body including a pair of sockets 341 to which each of the pair of binding units 330 is coupled, and a turnbuckle body 346 connected at both ends to the pair of sockets 341. Located between one end of 320).

4 and 5, the socket 341 according to the embodiment of the present invention includes an expansion hollow part 342 and a turnbuckle body 346.

The expansion hollow part 342 is hollowly formed with a diameter through which the locking hole 335 is penetrated, and internal thread parts 342a and 342b that are boltable to the end of the turnbuckle body 346 are formed at an inner circumference thereof.

The female screw portion 342a formed on one side of the pair of sockets 341 has a form in which a right screw formed to be inclined in a clockwise direction (right) can be fastened.

The female screw portion 342b formed on the other side of the socket 341 has a form in which the left screw is formed to be inclined counterclockwise (left).

The turnbuckle body 346 has male threads 346a and 346b corresponding to female threads 342a and 342b of the socket 341 at both ends thereof and is connected to the socket 341.

The male screw portion 346a formed at one end of the turnbuckle body 346 is fastened to the female screw portion 342a in the form of a right screw, and the male screw portion 346b formed at the other end of the turnbuckle body 346 is in the form of a left screw. It is fastened to the female screw portion 342b.

When the turnbuckle body 346 is rotated in a clockwise direction, the socket 341 is gradually moved toward the middle portion of the turnbuckle body 346, that is, the spacing between the pair of turnbuckle bodies 346 is reduced, thereby reducing the turnbuckle unit 340. The length becomes shorter gradually.

That is, according to the turnbuckle unit 340 having the above configuration, the tension is applied to the wire 10 connected to the binding unit 330 while reducing the separation distance between the sockets 341 by the rotation of the turnbuckle body 346. You can.

The through part 344 is hollowed to a diameter smaller than the locking hole 335 to form the locking step 343 in the connection portion with the expansion hollow 342, the connection bar 331 is formed to a size that can penetrate.

In one embodiment of the present invention, the locking hole 335 has a spherical outer surface portion, and the locking jaw portion 343 is formed in a curved shape corresponding to the locking hole 335 and is in stable surface contact with the locking hole 335.

As the locking hole 335 and the locking jaw portion 343 have a curved shape as described above, the locking mouth 335 and the locking jaw portion 343 may be contacted over an extended contact area as compared with the case of contact between the planes. Accordingly can be contacted continuously.

In addition, even if the locking hole 335 of the binding unit 330 connected to the wire 10 has a relative angle with the socket 341 instantaneously during the installation of the wire 10, the surface of the locking unit 343 is stable. Can be contacted.

The transmission port 350 has a ring shape and is coupled around the connection bar 331 of the binding unit 330, and is positioned between the pivot 320 and the socket 341.

The inner circumferential portion of the transmission port 350 is formed with a female screw that can be fastened around the connection bar 331, is screwed around the connection bar 331, and forms a radially protruding shape around the connection bar 331.

The rotation adjusting device 360 is connected to the other end of the rotating body 320, and rotates the rotating body 320 by the elastic deformation of the length.

Referring to FIG. 1, the rotation adjusting device 360 according to an embodiment of the present invention includes a hydraulic cylinder part 361 and a piston part 365.

The hydraulic cylinder part 361 is rotatably connected to one side of the rotating body 320.

The piston part 365 is rotatably connected to the other side of the rotating body 320, is moved into and out of the hydraulic cylinder part 361 according to the hydraulic pressure formed in the hydraulic cylinder part 361, the rotation adjusting device 360 Adjust the length of the stretch.

Next, referring to Figures 4, 6, 7, using a wire tension control device 300 according to an embodiment of the present invention having the configuration as described above of the high load (load of 5tonf or more) to the wire 10 A method of applying pretension will be described.

In the state as shown in FIG. 6, when the rotation adjusting device 360 is driven as shown in FIG. 7, the piston part 365 is driven by the hydraulic pressure formed in the hydraulic cylinder part 361. ) Is moved to the outside and the length of the rotation adjusting device 360 is extended.

At this time, one end of the rotating body 320 is rotated to the turnbuckle unit 340 side, as shown in Figure 7 on the basis of the shaft coupling portion with the support 310, and pushes the transmission port 350 toward the turnbuckle unit 340 side. .

The connecting bar 331 and the locking hole 335 of the binding unit 330 connected to the transfer hole 350 are moved in the same displacement as the transfer hole 350, and the wire 10 has a free load as much as the desired load. Tension will work.

The narrower the distance between one end of the rotating body 320, the narrower the distance between the binding unit 330 can pull the wire 10 more toward the turnbuckle body 346, the tension of the high load on the wire 10 Can act.

In the state shown in FIG. 7, no load acts on the turnbuckle unit 340, and the operator can easily rotate the turnbuckle body 346 in a state in which no load acts on the turnbuckle unit 340. .

As shown in FIG. 4, when the turnbuckle body 346 is rotated until the locking jaw portion 343 contacts the locking hole 335, the operation of the rotation adjusting device 360 is stopped, and as shown in FIG. 2. Likewise, even if the pivoting body 320 is separated from the binding unit 330, the pretension of the desired load acts on the wire 10.

The wire tension control device 300 according to the embodiment of the present invention, as described above, the extension of the rotation adjustment device 360, the high load on the wire 10 by a simple operation of rotating the turnbuckle body 346 Tension can be operated stably.

In addition, by using the slit 322 and the separating piece 325 formed on the rotating table 321, the rotating body 320 can be easily bound to or separated from the binding unit 330 connected to the wire 10. The construction efficiency can be further improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

10: wire 20: bracket
300: wire tension control device 310: support
311: Supporting tools 311a, 311b, 342a, 342b: Female thread part
315: support shaft 315a, 315b, 346a, 346b: male thread part
320: the meeting body 321: the meeting room
322 slit 323 groove
325: separation piece 330: binding unit
331: connecting bar 335: hook
340: turnbuckle unit 341: socket
342: expansion hollow part 343: locking jaw
344: penetrating portion 346: turnbuckle body
350: transmission port 360: rotation control device
361: hydraulic cylinder 365: piston

Claims (7)

Bar-shaped support;
A pair of pivoting bodies which are rotatably installed at both ends of the support and whose distance between one end is adjusted by the pivoting;
A binding unit having one side connected to a wire to be tension-adjusted or a bracket supporting the wire, and the other side positioned between the pivoting bodies;
A turnbuckle unit positioned between one end of the rotating body and having a socket to which the other side of the binding unit is bound, and a turnbuckle body for adjusting the separation distance between the sockets by rotation and applying tension to the wire;
A transmission port coupled to the binding unit between the rotating body and the socket and being pushed by the rotating body to the turnbuckle unit and applying pretension to the wire; And
And a rotation adjusting device connected to the other end of the rotating body and rotating the rotating body by expansion and contraction of length.
Wherein the support comprises:
A support tool to which the pivot is rotatably connected and having a female thread portion; And
A support shaft having both ends coupled to the female screw portion at both ends thereof, the support shaft being connected to the support and adjusting the separation distance of the support section by rotation;
Wire tension control device comprising a.
delete The method of claim 1,
The binding unit,
A connection bar having one side connected to the wire or the bracket and the other side located inside the socket and moving together with the transfer port; And
A locking hole which is coupled to the other side of the connection bar, is moved in the socket together with the connection bar, and is caught in the locking jaw of the socket to restrict movement of the turnbuckle unit to the outside;
Wire tension control device comprising a.
The method of claim 3,
The rotating body,
A pivot table having an intermediate portion rotatably connected to the support, a slit through which the connecting bar penetrates at one end thereof, and a groove formed on a contact portion in contact with the transfer hole; And
A separation piece installed across the slit between the pivot table and the transmission port, fitted to the groove part, and assembled to be separated from each other with the connection bar interposed therebetween;
Wire tension control device comprising a.
The method of claim 3,
The socket includes:
An expansion hollow part hollowly formed with a diameter through which the locking hole is penetrated, and having an internal threaded part capable of bolting an end of the turnbuckle body to an inner circumference thereof; And
A hollow part formed to have a diameter smaller than that of the locking hole to form the locking jaw portion at the connection portion with the expansion hollow portion, and a through portion through which the connection bar penetrates;
Wire tension control device comprising a.
The method according to claim 3 or 5,
The locking jaw portion,
Wire tension adjusting device, characterized in that to form a curved shape corresponding to the engaging opening having a spherical outer surface.
The method of claim 1,
The rotation adjusting device,
A hydraulic cylinder portion rotatably connected to one side of the rotating body; And
A piston part rotatably connected to the other side of the rotating body and moved outside the hydraulic cylinder part by oil pressure formed inside the hydraulic cylinder part;
Wire tension control device comprising a.

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