KR101223346B1 - A partition type winding device for cable tension measure sensor - Google Patents

Abstract

PURPOSE: A split winding device for manufacturing a cable tension measuring sensor is provided to improve work efficiency by efficiently performing a wire winding task for installing a tension measuring sensor in a cable for a bridge. CONSTITUTION: A split winding device for manufacturing a cable tension measuring sensor comprises a body housing(10), a plurality of pressing-coupling ports, a controlling handle(30), a coupling ring(40), a driven gear(50), a driving gear(60), and a driving motor(70). The body housing is formed into a hollow cylindrical shape of a split assembled structure which is split into several pieces. The pressing-coupling ports are arranged in the inside of the body housing and have fixed curvature to be pressed-coupled with the cable. A handle shaft of the controlling handle is coupled to the body housing with a screw in order to control a pressing force of the pressing-coupling ports and penetrated-coupled. The coupling ring is joined to one side of the body housing and has a structure which is split into several pieces. The driven gear is fitted into the coupling ring to be rotatable and forms a structure which is spilt into several pieces. The driving gear is engaged in one side of the driven gear in order to transmit a driving force to the driven gear. The driving motor transmits the driving force to the driving motor.

Description

Split Winding Device for Cable Tension Measurement Sensors {A PARTITION TYPE WINDING DEVICE FOR CABLE TENSION MEASURE SENSOR}

The present invention relates to a split type winding device for fabricating a tension measuring sensor, and more particularly, to form a split structure so that a coil winding operation of a sensor for measuring a tension of a cable installed for supporting a bridge can be easily performed. Relates to a device structure.

In general, large bridges, such as cable-stayed bridges and suspension bridges, are constructed in poor environments, which are likely to cause damage to the structure due to excessive displacement of bridges due to wind loads or corrosion of bridges by sea water. Cables are commonly used as support structures.

That is, in a long bridge using a cable, the tension of the cable is not only an important factor for the entire bridge structure, but also changes most sensitively by the change of the bridge structure system. Therefore, the cable tension can be used as an important indicator for the soundness of the bridge, and the tensions due to changes in geometrical shape and temperature can be compared to the tension at the time of construction. Check for changes and damage to cables.

Therefore, in recent years, an EM (Electro Magnetic) sensor using a physical property that the magnetic permeability changes when tension is applied to the metal wire is mounted on the bridge cable to measure the tension change of the cable due to load or temperature.

However, the EM sensor for tension measurement needs to form a coil by winding a wire around the cable. For this purpose, the EM sensor must be installed in the cable before the cable is connected to the bridge.

Therefore, there is a problem in that the sensor installation work is difficult because the wire winding work for the sensor installation can not be performed in the existing bridge facilities already connected to the bridge cable.

The present invention has been proposed to improve the above problems in the prior art, and provides a coil winding device that forms a split type structure that enables the production and installation of a tension measuring sensor in the field even when a cable is already connected to a bridge. By doing so, the purpose of the sensor can be more easily installed in the cable of the existing bridge as well as the new bridge.

Winding device of the present invention for achieving the above object, and the main body housing to form a hollow cylindrical shape, divided into a plurality of divided assembly structure; A plurality of pressure fasteners configured in the main body housing and configured to perform pressure fastening with the cable; A control handle screwed to the main body housing for adjusting the pressing force of each of the pressure fasteners and penetrated therethrough; A coupling ring coupled to one side of the body housing and forming a plurality of divided structures; A driven gear rotatably fitted to the coupling ring and constituting a plurality of divided structures; A drive gear provided at one side with a gear to transfer power to the driven gear; Characterized in that the configuration comprises a drive motor coupled to the outer side of the main body housing for transmitting a driving force to the drive gear.

The winding device of the present invention, the wire winding work for the installation of the tension measuring sensor in the bridge cable can be made effectively can improve the work efficiency.

In particular, the cylindrical structures constituting the winding device each have a split structure, which shows the advantage that the installation and dismantling of existing bridge cables can be easily performed.

1 is an exploded view of a winding apparatus according to an embodiment of the present invention.
Figure 2 is an external perspective view of the winding apparatus of the present invention.
Figure 3 is a cross-sectional view of the main body housing of the winding apparatus of the present invention.
Figure 4 is a cross-sectional view of the main body housing of the present invention winding device.
Figure 5 shows the front structure of the driven gear in the present invention,
5a is a coupling degree.
5b is the separation.
Figure 6 is a side structure diagram of the winding device of the present invention.
7 is a state diagram used in the present invention winding device.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, referring to the structure of a split coil winding device according to an embodiment of the present invention, the main body housing 10 having a cylindrical shape with an empty inside is a divided type of the first housing 11 and the second housing 12 as a metal material. Structure, the main body housing 10 was provided with a plurality of pressure fasteners 20 to form a predetermined curvature so that the pressure fastening with the cable (1) is provided in a radial shape, the pressure adjustment of each pressure fastener (20) The adjusting handle 30 for the handle shaft 31 is screwed to the main body housing 10 and fastened through, and one side of the main body housing 10, the coupling ring of plastic material constituting a divided structure (two) ) Is coupled, the coupling ring 40 is also provided with a driven gear (50) rotatably fitted to form a structure divided into two as a plastic material, in order to transmit power for rotating the driven gear (50) Drive gear (60) It is configured in a match state, and a drive motor 70 for transmitting a driving force to the drive gear 60 is installed in the lower outer portion of the main housing 10.

On the other hand, for assembly and disassembly of the main body housing 10 forming a split structure, the fastening rod 13 is rotatably configured by the hinge 14 on both sides of the first housing 11, the fastening rod ( 13, the fastening nut 15 is coupled, and the second housing 12 has a support (17) formed with a fastening groove 16 having one side open at a position corresponding to the fastening rod (13). You can check it.

In addition, the driven gear 50 has a through hole 51 formed at portions corresponding to both sides of the divided gear, and a fastening bolt 52 is fastened to the through hole 51.

In addition, the front end of the handle shaft 31 of the adjusting handle 30 is provided with a pressing plate 32 forming a curved shape of a certain curvature so as to transmit a uniform pressing force to the pressing fastener 20.

In addition, a plurality of piece holes 53 are formed in the driven gear 50 for coupling the winding holder in which the wire is wound.

In the figure, reference numeral 41 denotes a stepped portion protruding to support the coupling position with the main body housing 10.

The effect of the installation and use of the coil winding device of the present invention constituting such a structure will be described.

First, in order to install the winding device of the present invention on the bridge cable 1, the main body housing 10 is detached and mounted on the bridge cable 1, and then the first housing 11 and the second housing 12 The coupling rod 13 rotates the hinge 14 to the shaft for insertion, and then is inserted into the coupling groove 16. Then, the installation of the body housing 10 is completed by tightening the coupling nut 15.

At this time, the operator to achieve a stable coupling state with the cable 1 by tightening the pressure fastener 20 by turning the adjustment handle (30).

Subsequently, the coupling ring 40 divided into two parts is fitted to one side of the main body housing 10, and the driven gear 50 is coupled to the coupling ring 40 so that the driving gear 60 and the gear mesh with each other. do.

That is, in this case, the driven gear 50 in two divided states is combined to form a wrap around the cable 1 and to form an integrated structure by using the fastening bolt 52.

When the cable 1 installation of the present invention winding device is completed through such a process, the coil winding bobbin bracket 2 is coupled to the driven gear 50 as shown in FIG. 7, in which case the driven gear 50 By coupling the fastening piece (not shown) to the piece hole 53 formed in the mutual coupling is made.

Thereafter, the rotational force of the drive gear 60 is transmitted to the driven gear 50 by the drive of the drive motor 70, so that the driven gear 50 is stably guided by the main body housing 10 and the coupling ring 40. The rotation is made in the middle, so that the bobbin bracket (2) is rotated together, it can be seen that the coil supplied from one side is wound.

On the other hand, if the coil winding operation is made, by disassembling the winding device of the present invention in the reverse order as described above, by configuring the temperature sensor in the form of wrapping the coil wound continuously, the installation of the tension measuring sensor can be completed.

Therefore, the coil winding device of the present invention can be installed and dismantled for the cable that is already installed in the bridge by forming a split structure so that the coil winding work for installing the sensor for measuring cable tension can be made more easily. Able to know.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the structure of the coil winding apparatus of the present invention may be variously modified and implemented by those skilled in the art.

It should be understood, however, that such modified embodiments are not to be understood individually from the spirit and scope of the invention, and such modified embodiments are intended to be included within the scope of the appended claims.

10: main body housing 11: first housing
12: second housing 13: fastening rod
14: hinge 15: tightening nut
16: fastening groove 17: support
20: pressure fastener 30: adjustment handle
31: handle shaft 32: pressure plate
40: coupling ring 41: stepped portion
50: driven gear 51: through hole
52: fastening bolt 53: piece ball
60: drive gear 70: drive motor

Claims (5)

A main body housing 10 constituting a hollow cylindrical shape and constituting a divided assembly structure divided into a plurality;
A plurality of pressure fasteners 20 formed inside the main body housing 10 and forming a predetermined curvature so that pressure fastening with the cable 1 is made;
An adjustment handle 30 through which the handle shaft 31 is screwed to the main body housing for adjusting the pressing force of the pressing fasteners 20;
A coupling ring 40 coupled to one side of the body housing 10 to form a plurality of divided structures;
A driven gear 50 rotatably fitted to the coupling ring 40 to form a plurality of divided structures;
A drive gear 60 provided with a tooth at one side to transmit power to the driven gear 50;
A drive motor 70 configured to be coupled to the outside of the main body housing 10 to transmit a driving force to the drive gear 60;
Split-type winding device for producing a cable tension measurement sensor, characterized in that the configuration comprising a.

The method according to claim 1,
The main body housing 10 has a split structure of the first housing 11 and the second housing 12, but the coupling rod 13 is rotated by the hinge 14 on both sides of the first housing 11. The fastening nut 15 is coupled to the fastening rod 13, and the fastening groove 16 having one side open at a position corresponding to the fastening rod 13 in the second housing 12. Split type winding device for producing a cable tension measurement sensor, characterized in that the formed support (17) is configured.
The method according to claim 1,
The driven gear 50 constituting a plurality of divided structures has a through hole 51 formed at a portion corresponding to each of the divided sides, and a fastening bolt 52 is fastened to the through hole 51. Split winding device for cable tension sensor production.
The method according to claim 1,
Cable tension measurement, characterized in that the pressing plate 32 to form a curved surface of a predetermined curvature so that the front end of the handle shaft 31 of the control handle 30 to transmit a uniform pressing force to the pressure fastener 20 Split winding device for sensor manufacturing. The method according to claim 1,
The driven gear 50 is a split type winding device for producing a cable tension measuring sensor, characterized in that a plurality of piece holes (53) for coupling the winding holder in which the wire is wound.

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