KR20190063901A - Tension Measurement Device for Lashing - Google Patents

Abstract

The present invention relates to a tension measurement device for lashing. The tension measurement device, which is installed on a lashing band for lashing cargo to a vehicle to measure tension, includes: a metal deformation measurement part placed on one side of the lashing band, connected to receive the tension of the lashing band to be deformed by the action of the tension, and restored to its original state after the deformation; a deformation sensor part placed on the deformation position of the deformation measurement part, and sensing the deformation of the deformation measurement part; a connecting part connected to deliver the tension to both sides of the deformation measurement part and the lashing band; and a wireless communication part electrically connected to the deformation sensor part, and converting the deformation measured through the deformation sensor part into tension to deliver the tension through wireless communication.

Description

[0001] Tension Measurement Device for Lashing [0002]

More particularly, the present invention relates to a tension measuring device for high tension, and more particularly, to a tension measuring device for high tension, and more particularly, to a tension measuring device for a cargo, a vessel, an aircraft, It is installed so as to transmit tensile force to the sieve and measures the amount of deformation in which the deformation measuring object is deformed by the action of tension. The physical deformation amount is converted into the tensile force and transmitted in real time to simplify the configuration according to the tension measurement. The present invention relates to a tensile tension measuring device for a high tension steel sheet, which is capable of detecting a change and preventing the securing device from being loosened or loosened by loosening to improve stability.

In general, lashing refers to the fixing of various types of cargo in the case of large ships, including passenger ships, including transportation means, and inland lorries, in such a way as to prevent the flow of cargo from the shipment to the shipped position.

In this way, the securing apparatus for securing the cargo to the transportation means

When the container is shipped to the dock, it is not necessary to fix it because the container is stored along the cell guide. However, when the container is decked or the general goods are placed in the dock, Be careful not to collapse. When loading cargo into a container, the lashing band or lashing band should be secured to the lashing eye or lashing ring on the side or bottom of the container.

In order to prevent detachment of the cargo in the state where the cargo is shipped, it is easy to install and disassemble when fixed, and the fixing force can be adjusted by adjusting the tension, Since the retaining force is maintained, the band-shaped high band is used as the damage of the cargo is minimized.

In this case, the fastening band is provided with a tension adjusting device for adjusting the tension in a state where the fastening band is fixed at a fixed position in a state where the cargo is hooked to the loading position at which the cargo is installed, and a fixing force is generated by adjusting the tension. And is installed to hold the cargo by the device.

However, the securing band is installed in the transportation means on which the cargo is moved, so that when the moving band is concentrated on the tension adjusting device which maintains the fixing force, the band is loosened or loosened and the cargo is released Or fall outside.

In other words, there are considerable fluctuations or vibrations due to maritime conditions, aircraft changes in air flow, inland road curvature, or road damage, resulting in unstable band loosening or loosening, There have been various problems such as property loss caused by collision with the surrounding cargoes or serious problem of stability in the transportation method of the car, resulting in damage to the person.

Therefore, the worker in charge of the cargo should periodically check the tension of the retained band, but it is difficult for the operator to visually check whether the tension of the retained band is loose or loosened, There is a problem in that it is difficult to confirm the state of securing in whole.

Therefore, when the operator actually operates the transportation means without confirming the state where the securing band is loosened by the naked eye, the flow due to the movement is transmitted to the securing band, and the secured state of the cargo is released, Or the collision with the transportation means by the departure of the cargo causes a serious problem in the safety of the transportation means itself and further the collision of the cargo with the person causes the damage of the person there was.

Recently, as shown in Patent Registration No. 10-516352, an automatic control device is attached to a belt fixing a cargo loaded on a freight vehicle loading box, and an automatic control device And was used to securely fix it on the freight vehicle.

However, since the construction of the automatic control device used for fixing the cargo loaded in the freight vehicle loading box is complicated, it is difficult to manufacture the automatic control device, thereby increasing the manufacturing process and increasing the manufacturing cost, There is a problem in that the purchase cost for purchasing the product is increased.

In addition, since the automatic regulating device is connected to the belt for fixing the cargo without directly fixing the cargo, the fixing force of the cargo is transmitted through the belt without being transmitted to the automatic regulating device at once, There is a problem in that the cargo can not be completely fixed because it is not delivered to the device.

In addition, the automatic control device measures only one place of the loading box of the freight vehicle, so that the fixing force of the freight can not be measured properly if the size or type of the loading freight is not constant.

In addition, since the sensor measuring the tension of the securing band is directly connected to the securing band and directly transmitted at the time of measuring the tension, the tension is continuously measured by the fluctuation caused by the operation of the ship or the flow caused by the weather change, There is a problem that the impact is transmitted immediately and causes breakdown or breakage.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a retractable device for retracting a cargo by using a transportation means such as a lorry, The sensor measures the amount of deformation in which the deformation measuring object is deformed due to the action of the tensile force. The physical deformation amount is converted into the tensile force and transmitted in real time to simplify the configuration according to the tension measurement. And the stability is improved by preventing the securing device from being loosened due to the change in tension or by preventing the detachment of the cargo by loosening.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

In order to achieve the above object, the tension measuring device for a high tension according to an embodiment of the present invention is a tension measuring device installed on a fastening band for holding a cargo in a transportation means and measuring a tension, A deformation measuring unit comprising a metal material deformed by the action of the tensile force transmitted and transmitted to transmit the tensile strength of the securing band and restored to its original state after deformation; A deformation sensor disposed at a deformation position of the deformation measuring unit and sensing a deformation amount of the deformation measuring unit; A connecting portion connected to transmit tension to both the securing band and the deformation measuring portion; And a wireless communication unit that is electrically connected to the deformation sensor unit, converts the amount of deformation measured by the deformation sensor unit into a tensile force, and transmits the tensile force through wireless communication.

Further, the deformation measuring unit is disposed on one side of the securing band, and is connected to the securing band in such a manner that tension acts on both sides of the securing band, and the lower surface is opened inside and the both sides and the upper surface are closed, A deformation measuring body having a measurement deformation space deformed by a tensile force at the time of the deformation and being restored to its original state when deformed by a tensile force; And a tension transmission connector disposed on both sides of the deformation measuring body and connected to transmit the tensile force to the securing band through the connecting portion.

The deformation sensor unit may be installed at a central upper position where a tensile deformation of the measurement deformation space formed in the measurement deformation space occurs during tensile action to sense a deformation amount deformed by the action of a tensile force, Sensor.

In addition, the deformation measuring unit is disposed at one side of the securing band, and is connected to the securing band in such a manner that tension acts on both sides, and a round portion protruding upward in the center in the form of a bar- And a tension transmitting force fixing hole which is made of a metal material that is compressed to the upper side when tensioned on both sides and is deformed to be tensioned downward and restored to its original state when it is deformed by tension, Deformation measurement bracket; And a fixture disposed on both sides of the deformation measurement bracket and fixing the deformation measurement bracket to the deformation measurement bracket while being inserted into the tensile force transmission fixing hole so as to transmit tensile force to the deformation measurement bracket through the connection portion. . ≪ / RTI >

In addition, the deformation sensor unit may be provided as a tensile strain sensor that is installed at the center of the lower surface of the lower portion of the round portion protruding from the center of the deformation measuring bracket and that is deformed by the action of the tensile force, and transmits the sensing amount to the wireless communication unit .

Further, the deformation sensor unit may be provided as a compression deformation sensor installed at the center of the top surface of the rounded portion protruding from the center of the deformation measuring bracket to be deformed by the action of tensile force, and transmitting the sensed deformation amount to the wireless communication unit .

The connection unit may include a connecting band disposed on both sides of the deformation measuring unit and having a band shape for interconnecting the deformation measuring unit and the securing band, And connection rings disposed at both ends of the connection band and hooked to the connection band in a ring shape depending on the connection state of the high band.

In addition, the wireless communication unit may include a tension signal calculator that is electrically connected to the deformation sensor unit, receives the deformation amount sensed by the deformation sensor unit, and converts the deformation amount of the shape into a tension signal corresponding to a change in tension, ; A wireless communication module that is electrically connected to the tension signal operation unit and receives a tension signal calculated by the tension signal operation unit and transmits a tension signal to the user through a tension signal transmission unit in a wireless manner so that the wireless signal can be displaced in real time; And an antenna disposed on one side of the wireless communication module and extending a band for transmitting a wireless signal generated by the wireless communication module and transmitted from the tension signal transmitter to a user.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. It is provided to fully inform the owner of the scope of the invention.

According to one of the means for solving the problems of the present invention described above, the tension measuring device for high tension according to the embodiment of the present invention restores to a securing device for securing a cargo when a cargo is transported by using a transportation means such as a vans, Possible deformation of metal material into deformable shape Measured amount of deformation of deformable measuring object is measured by sensor by the action of tensile force, and physical strain is converted into tensile force and transmitted in real time. The present invention provides an effect of improving the stability by preventing the detachment of the cargo due to loosening of the securing device or loosening by sensing the change of the tension in real time.

1 is a perspective view showing a state in which a tension measuring device for a high tension according to the first embodiment of the present invention is installed.
Fig. 2 is a front view of the state of use in which the tension measuring device for high tension of Fig. 1 is installed. Fig.
3 is a plan view showing a state in which a tension measuring device for high tension is installed in Fig.
4 is an operational state diagram showing the operation state of the strain sensor unit and the wireless communication unit in the tension measuring apparatus for high tension in Fig.
5 is a perspective view showing a state in which a tension measuring device for high tension according to a second embodiment of the present invention is installed.
Fig. 6 is a front view of the state of use in which the tension measuring device for high tension of Fig. 5 is installed. Fig.
7 is a perspective view showing a state in which a tension measuring device for a high tension according to a third embodiment of the present invention is installed.
Fig. 8 is a front view of the state of use in which the tension measuring device for high tension of Fig. 7 is installed. Fig.
9 is an operational state view showing the operation state of the strain sensor unit and the wireless communication unit in the tension measuring apparatus for high tension in Fig.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, numerals (e.g., first, second, etc.) used in the description of the present invention are merely an identifier for distinguishing one component from another.

Also, in this specification, when an element is referred to as being "connected" or "connected" with another element, the element may be directly connected or directly connected to the other element, It should be understood that, unless an opposite description is present, it may be connected or connected via another element in the middle.

The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role. Further, in order to clearly explain the present invention, parts not related to the description are omitted in the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals refer to like elements throughout the specification.

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

FIG. 1 is a perspective view showing a state in which a tension measuring device for a high tension according to the first embodiment of the present invention is installed, FIG. 2 is a front view of a used state showing a state where the tension measuring device for high tension is installed in FIG. 1, FIG. 4 is an operational state diagram showing the operation state of the strain sensor unit and the wireless communication unit in the tension measuring apparatus for high tension in FIG. 1; FIG.

Referring to FIGS. 1 to 4, the tension measuring apparatus 100 for a high tension according to the first embodiment of the present invention is a device for measuring the tension of a cargo, a ship, an airplane, etc., And is installed in the retention band 10 to measure the tension in real time and receives the measured tension signal to confirm the retention status in real time, thereby improving the stability.

The tensile tension measuring apparatus 100 for high tension comprises a deformation measuring unit 110, a deformation sensor unit 120, a connecting unit 130 and a wireless communication unit 130. The deformation measuring unit 110 is connected to the securing band 10 to transmit a tensile force, (140).

The deformation measuring unit 110 is disposed on one side of the retention band 10 and is deformed by the action of the tensile force that is connected to the retention band 10 so as to transmit the tensile force, Respectively.

The deformation measuring unit 110 includes a deformation measuring body 111 and a tension transmission link 113 which are connected to the retention band 10 and are deformed in shape.

The deformation measuring body 111 is disposed on one side of the retention band 10 and is connected to the retention band 10 so that the tension acts on each side of the retention band 10 and the lower side is opened and both sides and the upper side are closed And has a measuring deformation space 112 which is deformed by tension during tensioning on both sides and is made of a metal material which is restored to its original state when deformed by a tensile force. The measurement deformation space 112 may be provided in a round shape such that the deformation amount is concentrated at the center of the closed upper surface when the tensile force acts on both sides in a state where the lower portion is opened.

Here, the deformation measuring body 111 is preferably formed of a duralumin material, which is an aluminum alloy having excellent restoring force to restore a circular shape in accordance with a shape change.

The tension transmission connectors 113 are disposed on both sides of the deformation measuring body 111 and are connected to transmit the tensile force to the retention band 10 through the connection portions. The tension transmission link 113 is fixed to both sides of the strain measurement body 111 made of a metal and is connected to the retention band 10 through the connection part 130.

The deformation sensor unit 120 is disposed at a deformation position of the deformation measuring unit 110 and is configured to sense a deformation amount of the deformation measuring body 111.

The deformation sensor unit 120 is installed at a central upper position where the measurement deformation space 112 formed inside the measurement deformation space 112 is subjected to tensile deformation at the time of tensile action to sense a deformation amount deformed by the action of the tension, 140 to the tensile strain sensor 121.

As described above, when the tensile force acts on both sides of the deformation measuring body 111 having the measurement deformation space 112 opened to the inside by the securing band 10 connected to the deformation measuring body 111, A tensile force is generated in which the center of the upper surface of the space 112 is pulled. When the tensile force is generated, the center of the upper surface of the measurement deformation space 112 is deformed, and the deformed deformation amount is sensed by the tensile strain sensor 121 and is transmitted to the wireless communication unit 140.

The connection part 130 is provided to be connected to transmit tension to both the fastening band 10 and the strain measuring part 110.

The connecting portion 130 includes the connecting band 131 and the connecting ring 132. [

The connection bands 131 are disposed on both sides of the deformation measuring body 111 and are provided in the form of a band connecting the tension transmission link 113 and the retention band 10 to each other.

The connection rings 132 are disposed at both ends of the connection band 131 and are engaged with the connection band 131 in a ring shape according to the connection state of the secure band 10.

Here, the connecting band 131 and the connecting loop 132 are provided according to the mounting type of the securing band 10, and in order to integrally provide the securing band 10, the connecting band 131 is connected to the securing band The hooks of the fastening band 10 and the fastening bands 132 may be coupled with each other in order to install the fastening band 10 on a conventional annular band 10.

The wireless communication unit 140 is electrically connected to the deformation sensor unit 120 and converts the deformation amount measured by the deformation sensor unit 120 into a tensile force and transmits the tensile force through wireless communication.

The wireless communication unit 140 includes a tension signal operation unit 141, a wireless communication module 142, and an antenna 144 that convert the deformation amount of the tension deformation sensor 121 into a tension signal.

The tension signal calculator 141 is electrically connected to the tensile strain sensor 121 and receives the amount of deformation sensed by the tensile deformation sensor 121 to convert the deformation amount of the shape into a tension signal according to the change in tension .

The wireless communication module 142 is electrically connected to the tension signal calculator 141 and receives a tension signal calculated by the tension signal calculator 141 to receive a tension signal In the tension signal transmission unit 143. [

The antenna 144 is disposed on one side of the wireless communication module 142 and is provided to extend the band for transmitting the wireless signal generated by the wireless communication module 142 and transmitted from the tension signal transmitter 143 to the user .

That is, the strain amount sensor 141 receives the amount of deformation sensed through the tension deformation sensor 121, converts the shape deformation amount into a tension change amount, converts the amount of shape deformation into a tension change signal corresponding to the converted tension amount, The user can check the tension change remotely in real time as it is transmitted to the device that can be checked by the user wirelessly.

FIG. 5 is a perspective view showing a state in which a tension measuring apparatus for a high tension according to a second embodiment of the present invention is installed, and FIG. 6 is a front view showing a state in which the tension measuring apparatus for high tension is installed.

5 and 6, a tension measuring apparatus 100 for a high tension according to a second embodiment of the present invention includes a strain measuring unit 110, a strain sensor unit 120, a connecting unit 130, 140). The connection part 130 and the wireless communication part 140 have the same configuration as the tension measuring device 100 for high tension shown in FIG. 1 to FIG. 4, and the strain measuring part 110 and the strain sensor part 120 ) Will be described as follows.

The deformation measuring unit 110 includes a deformation measuring bracket 114 which is connected to the retention band 10 and deforms its shape, and a fixing body 117.

The deformation measuring bracket 114 is disposed on one side of the retention band 10 and is connected to the retention band 10 so that tension acts on both sides of the retention band 10, And is connected to the connection part 130 at both ends of the round part 115. The connection part 130 is connected to the connection part 130 at both ends of the round part 115, And a tension transmission hole 116 through which tension is transmitted.

The fixing member 117 is disposed on both sides of the deformation measuring bracket 114 and is connected to the tension transmission fixing hole 116 so as to transmit the tensile force to the deicing band 10 through the connection portion 130 And fixes the connecting portion 130 to the deformation measuring bracket 114 while being inserted.

The deformation sensor unit 120 is installed at the center of the lower surface of the lower portion of the deformation-deformed round portion 115 protruding from the center of the deformation measurement bracket 114 and senses the deformation amount deformed by the action of the tension, And a tensile strain sensor 121 for transmitting the tensile strain.

7 is a perspective view showing a state in which a tension measuring device for a high tension according to a third embodiment of the present invention is installed, FIG. 8 is a front view of a used state showing a state in which the tension measuring device for high tension in FIG. 7 is installed, 7 is an operating state diagram showing the operation state of the deformation sensor unit and the wireless communication unit in the tension measuring apparatus for high tension.

7 to 9, a tension measuring apparatus 100 for a high tension according to a third embodiment of the present invention includes a strain measuring unit 110, a strain sensor unit 120, a connecting unit 130, 140). Here, the configuration of the connection part 130 is the same as that of the tension measuring device 100 for a high tension shown in FIG. 1 to FIG. 4, and the strain measuring part 110, the strain sensor part 120, 140) will be described as follows.

The deformation measuring unit 110 includes a deformation measuring bracket 114 which is connected to the retention band 10 and deforms its shape, and a fixing body 117.

The deformation measuring bracket 114 is disposed on one side of the retention band 10 and is connected to the retention band 10 so that tension acts on both sides of the retention band 10, And is connected to the connection part 130 at both ends of the round part 115. The connection part 130 is connected to the connection part 130 at both ends of the round part 115, And a tension transmission hole 116 through which tension is transmitted.

The fixing member 117 is disposed on both sides of the deformation measuring bracket 114 and is connected to the tension transmission fixing hole 116 so as to transmit the tensile force to the deicing band 10 through the connection portion 130 And fixes the connecting portion 130 to the deformation measuring bracket 114 while being inserted.

The deformation sensor unit 120 is installed at the center of the top surface of the deformation measuring bracket 114 which is formed by the compression of the round portion 115 protruding from the center of the deformation measuring bracket 114 and senses the deformation amount deformed by the action of the tensile force, And a compressive strain sensor 122 for transmitting the strain.

The wireless communication unit 140 includes a tension signal computing unit 141, a wireless communication module 142, and an antenna 144 that convert the deformation amount of the compression deformation sensor 122 into a tension signal.

The tension signal computing unit 141 is electrically connected to the compression deformation sensor 122 and receives the deformation amount sensed by the compression deformation sensor 122 to convert the deformation amount of the shape into a tension signal corresponding to the change in tension .

The wireless communication module 142 is electrically connected to the tension signal calculator 141 and receives a tension signal calculated by the tension signal calculator 141 to receive a tension signal In the tension signal transmission unit 143. [

The antenna 144 is disposed on one side of the wireless communication module 142 and is provided to extend the band for transmitting the wireless signal generated by the wireless communication module 142 and transmitted from the tension signal transmitter 143 to the user .

That is, the amount of deformation sensed through the compression deformation sensor 122 is transmitted from the tension signal calculator 141, and the shape deformation amount is converted into a tension change amount, converted into a tension change signal corresponding to the converted tension change amount, The user can check the tension change remotely in real time as it is transmitted to the device which can be confirmed by the user.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Description of the Related Art
100: tension measuring device 110: strain measuring part
111: Deformation measurement body 112: Measurement deformation space
113: tension transmission connector 114: deformation measuring bracket
115: Round section 116: Tension transmission fixing hole
117: Fixing body 120:
121: tensile strain sensor 122: compressive strain sensor
130: connection part 131: connection band
132: connection link 140: wireless communication unit
141: tension signal operation unit 142: wireless communication module
143: tension signal transmitter 144: antenna

Claims (8)

Claims [1] A tension measuring device for measuring a tension applied to a fastening band for holding a cargo in a transportation means,
A deformation measuring unit disposed on one side of the securing band and being formed of a metal material deformed by the action of the tensile force transmitted and transmitted to transmit the tensile strength of the securing band and restored to its original state after deformation;
A deformation sensor disposed at a deformation position of the deformation measuring unit and sensing a deformation amount of the deformation measuring unit;
A connecting portion connected to transmit tension to both the securing band and the deformation measuring portion; And
And a wireless communication unit that is electrically connected to the deformation sensor unit and converts the deformation amount measured by the deformation sensor unit into a tensile force and transmits the tensile force through wireless communication
Tension measuring device for high tension.
The method according to claim 1,
Wherein the deformation measuring unit comprises:
And the tensioned bands are connected to each other so that the tension acts on the two side surfaces. The lower surface is opened to the inside and the both sides and the upper surface are closed to be deformed by tension during the tension action on both sides A deformation measuring body having a measurement deformation space and made of a metal material that is restored to its original state when deformed by a tensile force; And
And a tension transmission link disposed on both sides of the deformation measuring body and connected to transmit the tensile force to the securing band through the connecting portion,
Tension measuring device for high tension.
3. The method of claim 2,
The deformation sensor unit is installed at a central upper position where a tensile deformation of the measurement deformation space formed in the measurement deformation space occurs during tensile action, and senses an amount of deformation that is deformed by the action of a tensile force and transmits the sensing deformation sensor to the wireless communication unit In addition,
Tension measuring device for high tension.
The method according to claim 1,
Wherein the deformation measuring unit comprises:
And a round part protruding in a round shape at an upper portion in the form of a bar-shaped bracket is formed in the secured band so that tension is applied to the secured band on both sides of the secured band, A deformation measuring bracket having a tensile force transmission fixing hole which is formed of a metal material which is deformed to be tensioned downward and is restored to its original state when deformed by a tensile force and is connected to the connection portion at both ends to transmit tension; And
And a fixture disposed on both sides of the deformation measuring bracket and fixing the deformation measuring bracket to the deformation measuring bracket while being inserted into the tensile force transmitting fixing hole so as to transmit tensile force to the deformation measuring bracket through the connecting portion; Included
Tension measuring device for high tension.
5. The method of claim 4,
Wherein the deformation sensor unit comprises a tensile strain sensor that is installed at a center of a lower surface of the lower portion of the round portion protruding from the center of the deformation measuring bracket and tensile deformation of the round portion due to the action of tensile force and transmits the sensed amount of deformation to the wireless communication unit,
Tension measuring device for high tension.
5. The method of claim 4,
Wherein the deformation sensor unit comprises a compression deformation sensor installed at a center of a top surface of the round portion protruded and formed at the center of the deformation measurement bracket to sense a deformation amount deformed by the action of tension,
Tension measuring device for high tension.
The method according to claim 1,
The connecting portion
A connecting band disposed on both sides of the deformation measuring unit and having a band shape for interconnecting the deformation measuring unit and the securing band; And
And connection loops disposed at both ends of the connection band and engaged with the connection band in the form of a ring in accordance with the connection state of the high band,
Tension measuring device for high tension.
The method according to claim 1,
The wireless communication unit includes:
A tension signal operation unit electrically connected to the deformation sensor unit and adapted to receive the deformation amount sensed by the deformation sensor unit and convert the deformation amount of the shape into a tension signal according to a change in tension by calculation;
A wireless communication module that is electrically connected to the tension signal operation unit and receives a tension signal calculated by the tension signal operation unit and transmits a tension signal to the user through a tension signal transmission unit in a wireless manner so that the wireless signal can be displaced in real time; And
And an antenna disposed at one side of the wireless communication module and extending a band for transmitting a wireless signal generated by the wireless communication module and transmitted from the tension signal transmitter to a user,
Tension measuring device for high tension.

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