KR101365085B1 - Turnbuckle - Google Patents

Abstract

The present invention relates to a turnbuckle including: a rotating nut member, which has an inner space, which is formed with a nut unit having mutually different shapes on both lengthwise sides, and of which width and length are respectively compressed and stressed when a lengthwise tensile load is applied; a pair of screw rods which can be mutually adjoined to or separated from the rotating nut member; and a load measuring instrument prepared on the rotating nut member to measure the tensile load, based on the levels of compression and the stress.

Description

Turnbuckle {TURNBUCKLE}

The present invention relates to a turnbuckle, and more particularly, to a turnbuckle that can easily identify the tensile load applied to the turnbuckle.

Turnbuckle is a fastening mechanism used to pull ropes or wires, and is used for fastening and fastening cargoes in the field of cargo transportation, including the use of structures and structures in construction sites. It is widely used in industrial sites.

As shown in FIG. 1, a general conventional turnbuckle 101 includes a rotating nut member 115 and a pair of screw rods 110 fastened by screwing to both sides of the rotating nut member 115. have.

Of these, the rotating nut member 115 has a moving space in which both screw rods 110 are approached and spaced apart from each other, and both threaded rods 110 have right-handed threaded rods 111 each having threads formed in different directions. And a left hand threaded rod 113 are rotatably fastened to both sides of the rotation nut member 115 in the longitudinal direction. And at the free end of both screw rods 110 is formed a connection portion 117 for connecting a rope or wire.

In the conventional turnbuckle 101 having such a configuration, when the operator rotates the rotary nut member 115 in one direction, the screw rods 110 on both sides approach each other inwardly of the rotary nut member 115, thereby causing a binding action. Is executed. On the other hand, when the operator rotates the rotary nut member 115 in the other direction, the screw rods 110 on both sides are spaced apart from each other in the outward direction of the rotary nut member 115, the binding release action is performed.

However, such a conventional turnbuckle has only a function of binding or releasing a binding object by mutually approaching and spaced apart from each other in the longitudinal direction according to the rotation of the rotating nut member, and there is a problem in that the binding object cannot be measured. .

As a result, when the rotary nut member is excessively rotated in the binding direction, that is, when an excessive tensile load is applied to the turnbarl, problems such as breakage of the turnbuckle or breaking of the rope or wire occur.

Accordingly, if the tensile load acting on the turnbuckle can be simply confirmed, proper binding of the binding object using the turnbuckle may be possible, thereby preventing breakage of the turnbuckle and damage of the rope or wire.

Therefore, it is an object of the present invention to provide a turnbuckle capable of easily confirming the tensile load to bind the binding object with an appropriate binding force.

According to the present invention, according to the present invention, in the turnbuckle, the internal thread of the mutually different screw direction is formed on both sides in the longitudinal direction, the width is compressively deformed and the length is tensilely deformed when a tensile load is applied in the longitudinal direction. Rotating nut member; A pair of threaded rods having male threads corresponding to both female threaded portions so as to be mutually accessible and spaced apart from the rotary nut; It is achieved by a turnbuckle comprising a; load measuring means provided on the rotating nut member for measuring the tensile load based on the degree of compression deformation or tensile deformation.

Here, the rotating nut member is preferably provided with a metal material capable of plastic deformation.

At this time, the rotating nut member may be a rhombus shape, circular or oval.

And the load measuring means has a pair of measuring pieces extending from both sides in the width direction of the rotating nut member to the inner space to cross each other according to the compressive deformation; It is effective that any one of the measurement pieces is provided with numerical patterns indicating the tensile load based on the compressive deformation amount, and the other measurement piece is formed with an instruction pattern directed toward the numerical pattern.

Furthermore, it is more preferable to include the stopper which limits the crossing range of the said both measurement pieces in the crossing position corresponding to the preset maximum allowable tension load.

At this time, the both measuring pieces have a stepped structure that is mutually shape-fitted at the maximum allowable value of the tensile load, and the stopper is more effective that the stepped structure.

Alternatively, the load measuring means has a pair of measuring pieces extending from both sides in the longitudinal direction of the rotating nut member to the inner space and intersecting with each other, and the mutual cross position varies according to the tensile deformation; It is preferable that any one of the measurement pieces is provided with a numerical pattern indicating the tensile load based on the tensile strain, and the other measurement piece is formed with an instruction pattern directed toward the numerical pattern.

And it is effective to include the stopper which limits the crossing range of the said both measurement pieces in the crossing position corresponding to the preset maximum allowable tension load.

At this time, it is preferable that both the measurement pieces have a stepped structure that is mutually shape-fitted at the maximum allowable value of the tensile load, and the stopper is the stepped structure.

Alternatively, the load measuring means has a measuring piece extending from one of the two sides in the width direction of the rotary nut member toward the other side; It is effective that the measurement piece is provided with numerical patterns indicating the tensile load based on the compressive deformation amount, and an indication pattern directed toward the numerical pattern is formed on the other side in the width direction of the rotary nut member.

And a stopper for limiting the crossing range of the measurement piece at the crossing position corresponding to the preset maximum allowable tension load.

At this time, the measurement piece has a stepped structure that is extended to the other side in the width direction of the rotary nut member at the maximum allowable value of the tensile load, the stopper is preferably the stepped structure.

Alternatively, the load measuring means has a measuring piece extending from one of the two sides in the longitudinal direction of the rotary nut member toward the other side; It is effective that the measurement piece is provided with a numerical pattern indicating the tensile load based on the tensile deformation amount, and an indication pattern toward the numerical pattern is formed on the other side in the longitudinal direction of the rotary nut member.

And a stopper for limiting the crossing range of the measurement piece at the crossing position corresponding to the preset maximum allowable tension load.

At this time, the measurement piece has a stepped structure that is applied to the other side in the longitudinal direction of the rotary nut member at the maximum allowable value of the tensile load, and the stopper is effective that the stepped structure.

According to the present invention, it is possible to easily check the tensile load to provide a turnbuckle capable of binding the binding object with an appropriate binding force.

1 is a front view of a conventional turnbuckle,
2 is a front view of a turnbuckle according to an embodiment of the present invention;
3 to 6 is a clear view of the turnbuckle according to another embodiment of the present invention,
Figure 7 is a perspective view showing an example of the use of the turn buckle according to the present invention.

As shown in FIG. 2, the turnbuckle 1 according to the present invention includes a pair of screw rods 20 fastened in different thread directions to both sides of the rotation nut member 10 and the longitudinal direction of the rotation nut member 10. And a load measuring means 30 for measuring a tensile load applied to the rotating nut member 10.

The rotating nut member 10 has a rhombus shape having an inner space, and has a structure in which female screw portions (not shown) in mutually different screw directions are formed on both sides in the longitudinal direction.

The rotary nut member 10 is formed by a tensile load applied in a process in which a pair of screw rods 20 fastened to both female thread portions (not shown) approach each other as the rotary nut member 10 rotates. It is made of plastically deformable metal so that the width is compressive and the length is tensile.

At this time, the rotation nut member 10 may be a rhombus shape that can be made smoothly the compression deformation of the width and the tensile deformation of the length as described above, in some cases circular or oval shape, as shown in FIG. Can have

Both threaded rods 20 are provided with right-handed rods 21 and left-handed threaded rods 23 having male threaded portions in different directions, similar to general turnbuckles 1, and both female threaded portions (not shown) in the longitudinal direction of the rotary nut member 10 (not shown). Are rotated relative to each other.

And at the free end of these two screw rods 20, a connection portion 25 for connecting the rope (B) and the like is formed. The connecting portion 25 may be annular or, in some cases, may be a hole.

Here, although not shown, an anti-separation nut for preventing the threaded rod 20 from being separated from the rotary nut member 10 in the end region of the two threaded rod 20 located in the inner space of the rotary nut member 10 May be provided.

On the other hand, the load measuring means 30 is a pair of measuring pieces 31 provided in a symmetrical structure on both sides in the width direction of the rotary nut member 10, as shown in Figs. It may be provided as a numerical pattern 33 and the instruction pattern 35 formed in the (31).

Both measuring pieces 31 extend from both sides in the width direction of the rotary nut member 10 to be symmetrical to the inner space of the rotary nut member 10, and at least the free end region according to the compression deformation of the rotary nut member 10. Some sections of intersect parallel to each other.

The numerical pattern 33 and the instruction pattern 35 are for indicating the compression deformation or the tensile deformation degree of the rotation nut member 10 due to the tensile load applied to the rotation nut member 10. The tensile load based on the compressive deformation amount of the rotary nut member 10 is calculated in advance, and is formed in a pattern such as a scale on the measurement piece 31 on one side of both measurement pieces 31, and the instruction pattern 35 is formed on both measurement pieces ( 31 is indicated on the measurement piece 31 on the other side to indicate the numerical pattern 33 corresponding to the tensile load according to the amount of compression deformation of the rotary nut member 10.

At this time, both measuring pieces 31 may be formed integrally with the rotary nut member 10, it may be provided as a separate component coupled to both sides of the width direction of the rotary nut member 10.

Both measuring pieces 31 are provided on the outer side of the rotating nut member 10 so as not to interfere with both of the screw rods 20.

It is preferable that both of these measuring pieces 31 include a stopper 37 for limiting the crossing range of both measuring pieces 31 at the crossing position corresponding to the maximum allowable value of the preset tensile load. This stopper 37 may be formed by a stepped structure in which both measurement pieces 31 are mutually shape-fitted at the maximum allowable value of the tensile load. Of course, the stopper 37 may be in the form of a separate component coupled to both measuring pieces (31).

Here, the load measuring means 30 is a single measuring piece 31 extending so as to cross from one side of the width direction of the rotary nut member 10 toward the other side, as shown in FIG. Numerical patterns 33 formed in the longitudinal direction on the measurement piece 31 to indicate the tensile load based on the amount of compression deformation of the rotation nut member 10 and the rotation nut member 10 at which the measurement piece 31 intersects. It may be provided as an instruction pattern 35 formed on the other side in the width direction.

At this time, the stopper 37 may be provided as a stepped structure or a separate part on the measurement piece 31 to be caught on the other side in the width direction of the rotary nut member 10 at the crossing position corresponding to the maximum allowable value of the predetermined tensile load. .

On the other hand, the load measuring means 30, as shown in Figure 5, a pair of measuring pieces 31 provided in a symmetrical structure on both sides in the longitudinal direction of the rotary nut member 10, and these measuring pieces 31 It may be provided as a numerical pattern 33 and the instruction pattern 35 formed in the.

In this case, the two measuring pieces 31 extend from both sides in the longitudinal direction of the rotary nut member 10 to the inner space of the rotary nut member 10 so as to cross in parallel with each other, according to the tensile deformation of the rotary nut member 10. The crossing position is variable.

In addition, one of the two measuring pieces 31 is provided with a numerical pattern 33 for displaying a tensile load based on the tensile strain of the rotary nut member 10, and the other measuring piece 31 has a numerical pattern ( An instruction pattern 35 facing 33 is formed.

In addition, these two measuring pieces 31 also have a stepped structure or a separate part in which the stoppers 37 for limiting the crossing range of both measuring pieces 31 are mutually shape-fitted at the crossing positions corresponding to the maximum allowable values of the predetermined tensile load. Can be prepared.

At this time, both measuring pieces 31 are provided on the outer side of the rotating nut member 10 spaced in parallel with both screw rods 20 so as not to interfere with both screw rods 20.

Here, the load measuring means 30 is a single measuring piece 31 extending so as to cross from one side of the longitudinal direction of the rotary nut member 10 to the other side, as shown in FIG. Numerical patterns 33 formed in the longitudinal direction on the measuring piece 31 to display the tensile load based on the tensile strain of the rotating nut member 10 and the rotating nut member 10 intersecting the measuring piece 31. It may be provided as an instruction pattern 35 formed on the other side in the width direction.

At this time, the stopper 37 may be provided as a stepped structure or a separate part on the measurement piece 31 to be caught on the other side in the width direction of the rotary nut member 10 at the crossing position corresponding to the maximum allowable value of the predetermined tensile load. .

In the turnbuckle 1 according to the present invention having the above configuration, for example, as shown in FIG. 7, the rotating nut member 10 is rotated in the binding direction in the process of binding the object and the binding object A by using a wire. When both screw rods 20 approach each other, a tensile load is applied to both screw rods 20 and the rotating nut member 10.

At this time, the operator may apply the tensile load according to the position where the instruction pattern 35 of the load measuring means 30 provided in the rotary nut member 10 of the turnbuckle 1 instructs the numerical pattern 33 of the measurement piece 31. The degree of binding of the formwork can be adjusted simply and easily.

On the other hand, when the load applied to the turnbuckle (1) is a predetermined maximum tensile load, both the screw rod 20 in the state that the compression or tensile deformation of the rotary nut member 10 can no longer proceed by the stopper 37 The rotation of the rotating nut member 10 does not proceed by approaching each other.

Thereby, breakage of the turnbuckle 1, the rope B, etc. by excessive tensile load, etc. can be prevented, and a binding object can be bound with an appropriate binding force.

Thus, according to the present invention, it is possible to easily check the tensile load is provided a turnbuckle that can bind the binding object with an appropriate binding force.

1: Turnbuckle 10: Rotating Nut Member
20: screw rod 30: load measuring means
31: Measurement piece 33: Numerical pattern
35: instruction pattern 37: stopper

Claims (16)

delete delete delete delete In a turnbuckle,
It is made of a plastic material that can be plastically deformed, and is formed in a rhombus or circular or ellipse shape having an inner space, and female threads in different screw directions are formed on both sides in the longitudinal direction. Rotating nut member is tensilely deformed;
A pair of threaded rods having male threads corresponding to both female threaded portions so as to be mutually accessible and spaced apart from the rotary nut;
It includes a load measuring means provided on the rotary nut member for measuring the tensile load based on the degree of compression deformation or tensile deformation;
The load measuring means
A pair of measuring pieces extending from both sides in the width direction of the rotating nut member to the inner space and intersecting with each other according to the compressive deformation;
Numerical patterns for indicating the tensile load based on the compressive deformation amount are formed on one of the measurement pieces, and the other measurement piece is formed with an instruction pattern facing the numerical pattern. Turnbuckle. The method of claim 5,
And a stopper for limiting the crossing range of the two measurement pieces at an intersection position corresponding to a predetermined maximum allowable tension load. The method according to claim 6,
Both measuring pieces have a stepped structure that is mutually shape-fitted at the maximum allowable value of the tensile load, and the stopper is the stepped buckle, characterized in that the stepped structure. In a turnbuckle,
It is made of a plastic material that can be plastically deformed, and is formed in a rhombus or circular or ellipse shape having an inner space, and female threads in different screw directions are formed on both sides in the longitudinal direction. Rotating nut member is tensilely deformed;
A pair of threaded rods having male threads corresponding to both female threaded portions so as to be mutually accessible and spaced apart from the rotary nut;
It includes a load measuring means provided on the rotary nut member for measuring the tensile load based on the degree of compression deformation or tensile deformation;
The load measuring means
A pair of measuring pieces extending from the both sides in the longitudinal direction of the rotary nut member to the inner space and intersecting with each other, the mutually crossing position being varied according to the tensile deformation;
Numerical patterns for indicating the tensile load based on the tensile deformation amount are formed on one of the measurement pieces, and the other measurement piece is formed with an instruction pattern facing the numerical pattern. Turnbuckle. 9. The method of claim 8,
And a stopper for limiting the crossing range of the two measurement pieces at an intersection position corresponding to a predetermined maximum allowable tension load. 10. The method of claim 9,
Both measuring pieces have a stepped structure that is mutually shape-fitted at the maximum allowable value of the tensile load, and the stopper is the stepped buckle, characterized in that the stepped structure. In a turnbuckle,
It is made of a plastic material that can be plastically deformed, and is formed in a rhombus or circular or ellipse shape having an inner space, and female threads in different screw directions are formed on both sides in the longitudinal direction. Rotating nut member is tensilely deformed;
A pair of threaded rods having male threads corresponding to both female threaded portions so as to be mutually accessible and spaced apart from the rotary nut;
It includes a load measuring means provided on the rotary nut member for measuring the tensile load based on the degree of compression deformation or tensile deformation;
The load measuring means
A measuring piece extending from one of the two sides in the width direction of the rotary nut member toward the other side;
And a numerical pattern for indicating the tensile load based on the compressive deformation amount on the measurement piece, and an instruction pattern facing the numerical pattern on the other side in the width direction of the rotary nut member. 12. The method of claim 11,
And a stopper for limiting the crossing range of the measurement piece at an intersection position corresponding to a preset maximum allowable tension load. The method of claim 12,
The measuring piece has a stepped structure that extends from the maximum allowable value of the tensile load to the other side in the width direction of the rotary nut member, and the stopper is the stepped structure. In a turnbuckle,
It is made of a plastic material that can be plastically deformed, and is formed in a rhombus or circular or ellipse shape having an inner space, and female threads in different screw directions are formed on both sides in the longitudinal direction. Rotating nut member is tensilely deformed;
A pair of threaded rods having male threads corresponding to both female threaded portions so as to be mutually accessible and spaced apart from the rotary nut;
It includes a load measuring means provided on the rotary nut member for measuring the tensile load based on the degree of compression deformation or tensile deformation;
The load measuring means
A measuring piece extending from one of both sides in the longitudinal direction of the rotary nut member toward the other side;
The measurement piece is formed with a numerical pattern for displaying the tensile load based on the tensile deformation amount, the turnbuckle is formed on the other side in the longitudinal direction of the rotary nut member toward the numerical pattern. 15. The method of claim 14,
And a stopper for limiting the crossing range of the measurement piece at an intersection position corresponding to a preset maximum allowable tension load. 16. The method of claim 15,
The measurement piece has a stepped structure that is extended from the maximum allowable value of the tensile load to the other side in the longitudinal direction of the rotary nut member, the stopper is characterized in that the stepped structure.

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