KR101571841B1 - Blind bolt - Google Patents

Abstract

A blind bolt according to an aspect of the present invention is a blind bolt inserted through a through hole formed in the members for joining members having a closed end face to join the members, the blind bolt being inserted into the through hole, A bolt body having a spiral portion at a lower portion thereof; A head portion formed at one end of the bolt body and having an extended cross section than the bolt body; A ring-shaped counter ring integrally protruded from the bolt body at a predetermined distance from the head portion; A nut inserted into the spiral portion of the bolt body; A bolt body inserted into the bolt body adjacent to the counter ring between the counter ring and the nut and buckled so that the central portion is expanded outward due to an axial force generated when the nut is fastened to the bolt body, A first sleeve defining an extension; And a first sleeve inserted in the bolt body between the first sleeve and the nut to transmit an axial force generated when the nut is fastened to the first sleeve, And a second sleeve which is supported on the head portion by pushing and transmits an axial force to form an upper portion of the first sleeve to form a second expanding portion for supporting the first expanding portion in close contact with the member.

Description

Blind Bolt {BLIND BOLT}

The present invention relates to a blind bolt, and more particularly, to a blind bolt used in joining a member having a closed end face that is allowed to approach only one side of a structure.

Generally, a blind bolt is provided to be fastened and joined by fastening in one direction when a closed end face allowing access only from one side of the structure or member is formed.

Such a blind bolt forms a hole passing through a side surface of a structure or a workpiece, a blind head is formed on the other side when a nut is fastened at one side by inserting a blind bolt into the hole, do.

In a conventional blind bolt, a bolt body having a head formed at one end thereof, a sleeve tube inserted into the bolt body, and a shear washer and a nut inserted into the other side of the bolt body are sequentially engaged.

When the blind bolt is rotated with the nut held on one side of the bolt body, the sleeve tube coupled to the bolt body is deformed between the head and the front washer, and the structure or member is joined as the blind head is formed.

On the other hand, in forming the blind head, the sleeve tube forming the blind head is partially annealed so that deformation can easily occur between the head and the front washer.

However, since the conventional blind bolt is constituted by one sleeve tube and therefore only a part of the sleeve tube needs to be annealed, it is difficult to process the sleeve tube, the portion where the sleeve tube is deformed is not constant, The sleeve tube is deformed to form a blind head, so that the bolt may be fastened before the stable blind head is formed, or the portion of the bolt body grip, i.e., the portion caught by the bolt body may be broken. Structural improvement is required.

In addition, since a part of the sleeve tube is deformed to form a blind head, and then the portion where the sheath washer is in contact with the sleeve tube is cut to form a circular ring, the nut used in the conventional blind bolt has a space in the interior thereof, Shaped ring 'is accommodated.

Therefore, a space for accommodating the circular ring which has been sheared is indispensably required in the nut used in the conventional blind bolt. Accordingly, a work for forming a space in the nut is added, Mechanical processing is required to adjust the strength to occur, or adjustment of the thickness is required. Thus, conventional blind bolts are not only impossible to use standard nuts or standard washers, but also increase manufacturing costs due to the addition of mechanical machining.

Therefore, improvement of the fastening concept due to the production of the nuts and the cutting of the shear washer in the conventional blind bolts is required.

One embodiment of the present invention provides a blind bolt that is capable of specifying a portion where a blind head is formed through a mechanical processing process on a sleeve tube to improve the preparation and the workability and to stably form the blind head structure .

A blind bolt according to an aspect of the present invention is a blind bolt inserted through a through hole formed in the members for joining members having a closed end face to join the members, the blind bolt being inserted into the through hole, A bolt body having a spiral portion at a lower portion thereof; A head portion formed at one end of the bolt body and having an extended cross section than the bolt body; A ring-shaped counter ring integrally protruded from the bolt body at a predetermined distance from the head portion; A nut inserted into the spiral portion of the bolt body; A bolt body inserted into the bolt body adjacent to the counter ring between the counter ring and the nut and buckled so that the central portion is expanded outward due to an axial force generated when the nut is fastened to the bolt body, A first sleeve defining an extension; And a first sleeve inserted in the bolt body between the first sleeve and the nut to transmit an axial force generated when the nut is fastened to the first sleeve, And a second sleeve which is supported on the head portion by pushing and transmits an axial force to form an upper portion of the first sleeve to form a second expanding portion for supporting the first expanding portion in close contact with the member.

Here, the shearing strength of the counter ring is preferably greater than the buckling strength of the first sleeve and less than the buckling strength of the second sleeve.

The second sleeve may be stepped to be thicker than the first sleeve.

The outer diameter of the second sleeve may be the same as the outer diameter of the first sleeve, and the inner diameter of the second sleeve may be smaller than the inner diameter of the first sleeve.

The second sleeve may be formed of a material having a higher strength than that of the first sleeve.

delete

Also, the first sleeve may be at least partially annealed.

The first sleeve and the second sleeve may be separately formed.

The first sleeve and the second sleeve may be integrally formed.

In addition, the counter ring may be inclined so that a cross-sectional area of a portion connected to the bolt body becomes small.

In addition, the counter ring may include at least one slit groove formed on a front surface or a rear surface of a portion connected to the bolt body.

The apparatus may further include a washer inserted between the member and the nut.

According to an embodiment of the present invention, since the sleeve tube is formed to have a step so that the thinned portion of the object is first deformed and formed into a blind head, the portion where the blind head is formed can be specified, A separate heat treatment step is not required, so that the composition can be improved, the construction can be facilitated, and the blind head structure can be stably formed.

1 shows a blind bolt according to an embodiment of the invention;
2 is a cross-sectional view of a blind bolt inserted into a member according to an embodiment of the present invention;
3 to 8 are views showing a process of fastening a blind bolt to a member according to an embodiment of the present invention.
9 is a sectional view of a state in which a blind bolt is joined to a member according to an embodiment of the present invention;
10 is an enlarged cross-sectional view of a part of a blind bolt according to an embodiment of the present invention;
11 is an enlarged cross-sectional view of a part of a blind bolt according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

FIG. 1 is a view showing a blind bolt according to an embodiment of the present invention, and FIG. 2 is a sectional view of a blind bolt inserted into a member according to an embodiment of the present invention. FIGS. 3 to 8 are views showing a process of fastening a blind bolt to a member according to an embodiment of the present invention, and FIG. 8 is a cross-sectional view of a blind bolt according to an embodiment of the present invention, Sectional view.

1 to 8, the blind bolt 100 of the present embodiment is used to join members 10 and 20 having closed end faces, that is, members 10 and 20 having closed end faces which are allowed to approach only from one side The blind bolts 100 may be fastened in one direction of the members 10 and 20 to form bonding supports on the opposite sides of the members 10 and 20 and to join the members 10 and 20 together.

For this purpose, the through holes 12 and 22 may be formed in the members 10 and 20 to which the blind bolts 100 are coupled.

In addition, the blind bolt 100 may include a bolt body 110 inserted into the through holes 12 and 22.

The head portion 112 may be formed at an end portion of the bolt body 110 inserted into the through holes 12 and 22. [ The head portion 112 may have an enlarged cross-section than the bolt body 110.

The bolt body 110 is formed to be smaller than the diameter of the through holes 12 and 22 and the head portion 112 can be extended close to the inner diameter of the through holes 12 and 22, 112 may pass through the through holes 12, 22 and pass through to the closed end side of the members 10, 20.

A counter ring 114 integrally projected from the bolt body 110 may be formed at a position spaced a predetermined distance from the inside of the bolt body 110 in the head part 112. Here, the counter ring 114 is protruded to have a rectangular cross-section, and may be formed in a continuous shape on the outer peripheral surface of the bolt body 110 as a whole, that is, in a ring shape.

The outer diameter of the counter ring 114 may be formed to be smaller than or equal to the outer diameter of the head portion 112 so that the bolt body 110 can be passed through to the closed end side of the members 10, have.

In addition, a helical portion may be formed at the other end of the bolt body 110, that is, the opposite side of the head portion 112, and the nut 120 may be inserted into the helical portion.

The sleeve tube 130 may be inserted between the counter ring 114 and the nut 120 on the outside of the bolt body 110.

The sleeve tube 130 can be brought into close contact with the counter ring 114 by being pushed by the nut 120 by the axial force generated by the nut 120 being fastened to the bolt body 110, A portion of the sleeve tube 130 is deformed by the relative compressive force generated between the counter rings 114 as a result of the progress of the counter ring 114 and the joint support for joining the members 10 and 20 together with the counter ring 114 can be formed. The joint support portion formed on the closed end side of the members 10 and 20 is referred to as a blind head and the joint support portion is fixed to the opposite side of the members 10 and 20, The members 10 and 20 can be joined together with the support member 120.

The sleeve tube 130 in this embodiment includes a first sleeve 132 inserted between the counter ring and the nut adjacent to the counter ring in the bolt body 110 and a second sleeve 132 between the first sleeve 132 and the nut, And a second sleeve (143) inserted into the second sleeve (110).

The axial force generated as the nut 120 is fastened to the spiral portion of the bolt body 110 is transmitted through the second sleeve 134 so that a certain portion of the first sleeve 132 It can be buckled to expand outward.

As such, the first expanded portion P1, which is expanded and deformed outwardly in the first sleeve 132, forms the first extended portion P1 for supporting the members 10 and 20. [

Also, the second sleeve 134 can transmit the axial force generated when the nut 120 is fastened to the first sleeve 132.

The second sleeve 134 may transmit axial force to the first sleeve 132 formed with the first extension P1 as the nut 120 is fastened.

As the axial force is transmitted by the tightening of the nut 120 to the first sleeve 132 formed with the first extension P1, the force that the first sleeve 132 presses the counter ring 114 is transmitted to the counter- Lt; RTI ID = 0.0 > 114 < / RTI >

Thus, when the force of the first sleeve 132 pressing the counter ring 114 is greater than the shearing stress of the counter ring 114, the counter ring 114 separates from the bolt body 110 and separates, It can be pushed by the first sleeve 132 and moved close to the head portion 112.

When the nut 120 is continuously fastened to the bolt body 110, the axial force generated by the nut 120 can be transmitted to the first sleeve 132 through the second sleeve 134, The upper portion of the sleeve 132 may be deformed to form the second extended portion P2.

The second extension P2 supports the first extension P1 in close contact with the members 10 and 20 so that the first extension P1 is in intimate contact with the members 10 and 20, 10, 20).

In addition, the second sleeve 134 may be stepped to be thicker than the end surface of the first sleeve 132. For example, the outer diameter of the second sleeve 134 may be the same as the outer diameter of the first sleeve 132, and the inner diameter of the second sleeve 134 may be less than the inner diameter of the first sleeve 132 have.

Since the first sleeve 132 is thinner than the second sleeve 134 to be thinner than the second sleeve 134, the first sleeve 132 may be deformed earlier than the second sleeve 134, 114).

Thus, the first sleeve 132 may be deformed before the counter ring 114 is sheared.

On the other hand, the shearing stress of the counter ring 114 is formed to be smaller than the buckling strength of the second sleeve 134, so that, before the second sleeve 134 is deformed when the second sleeve 134 is pressed, May be sheared.

At this time, it is preferable that the first sleeve 132 and the second sleeve 134 are made of the same material.

Meanwhile, the first sleeve 132 and the second sleeve 134 may be formed of different materials. At this time, the second sleeve 134 may be formed of a material having a higher strength than the strength of the first sleeve 132.

Since the strength of the second sleeve 134 is higher than that of the first sleeve 132, the difference in thickness between the first sleeve 132 and the second sleeve 134 can be reduced, The thicknesses of the first sleeve 132 and the second sleeve 134, that is, the sizes of the outer diameter and the inner diameter may be the same according to the difference in strength between the first sleeve 132 and the second sleeve 134.

The first sleeve 132 and the second sleeve 134 may be formed separately from each other, but the shapes of the first sleeve 132 and the second sleeve 134 are not limited, 1 sleeve 132 and the second sleeve 134 may be integrally formed.

In addition, the first sleeve 132 may be at least partially annealed so that a change in plasticity with respect to an external force can easily occur.

The annealing process can increase the ductility of the first sleeve 132 and thus the first sleeve 132 can be easily buckled and deformed as the pressing force is transmitted to the first sleeve 132.

Meanwhile, although the first sleeve 132 is described as being annealed in the present embodiment, it is also possible that the first sleeve 132 is subjected to a mechanical machining process in order to facilitate the change in plasticity.

That is, the first sleeve 132 can be cut or polished such that the inner circumferential surface or a part of the outer circumferential surface is reduced in thickness. For example, concave grooves may be formed on the inner circumferential surface of the first sleeve 132, and deformation may be more easily caused as the thickness of the grooves is reduced.

In addition, in the present embodiment, a nut 120 to be pressed against the second sleeve 134 may be a standard nut. In addition, a nut 120 that is thicker than a standard nut may be used to increase the fastening force with the bolt body 110. [ May be used.

In addition, in the present embodiment, a washer 140 may be further inserted between the members 10 and 20 and the nut 120.

At this time, the washer 140 contacts the second sleeve 134 and transmits the pressing force. Such a washer 140 can be used with a higher strength than the standard washer. To this end, the washer 140 having a thickness of 1 to 2 times (140) may be used.

In this embodiment, the size and shape of the washer 140 are not limited. To improve performance, a washer 140 having various sizes and shapes in addition to the standard washers may be used.

Meanwhile, a grip portion 116 for gripping with a mounting tool may be provided on the lower portion of the bolt body 110.

In addition, a necking groove 118 having a reduced cross-section along the outer diameter may be provided at a predetermined position below the bolt body 110.

When the fastening force of the nut 120 and the bolt body 110 reaches the target fastening force and the coupling force between the nut 120 and the bolt body 110 becomes greater than the shearing force of the neck groove 118, The groove 118 is separated from the bolt body 110 and separated from the bolt body 110 so that the excessive compressive force acts to prevent the blind bolt 100 from being deformed.

At this time, it is preferable that the neck groove 118 is formed at a position where about three or four thread lines are left after the gripper 116 is separated from the bolt body 110.

The operation of the blind head constructed as described above will be described as follows.

2 to 9 are views showing a process of fastening a blind bolt to a member according to an embodiment of the present invention.

First, as shown in Figs. 2 and 3, the blind bolt 100 is inserted into the through holes 12, 14 formed in the members 10, 20 having closed end faces.

In the state where the grip portion 116 of the bolt body 110 is held, the bolt body 110 fastened to the spiral portion of the nut 120 is rotated.

The washer 140 may be inserted into the bolt body 110 before the nut 120 is tightened so that the axial force of the nut 120 can be substantially transmitted through the washer 140. [

The axial force generated when the nut 120 rotates is transmitted to the second sleeve 134, and the axial force is transmitted to the first sleeve 132 to be pressed.

As shown in FIG. 4, as the first sleeve 132 is pressed by the second sleeve 134, the central portion bulges outward to buckle and deform to form the first extension P1.

There is a constant distance C between the first extension P1 and the upper surfaces of the members 10 and 20 so that the first extension P1 and the members 10 and 20 are in direct contact with each other . At this time, the distance C between the first extension P1 and the upper surface of the members 10 and 20 is set so that the interference caused by the contact with the members 10 and 20 during the plastic deformation of the first extension P1 Which is the space required to form the joint support, i.e., the blind head, which joins the full form members 10, 20.

5, the second sleeve 134 may be inserted into the first sleeve 132 even after the first extension P1 of the first sleeve 132 is formed to a certain extent or more, as the nut 120 continues to be fastened. As shown in FIG.

The first sleeve 132 presses the counter ring 114 by the axial force transmitted from the second sleeve 134 so that the first sleeve 132 is deformed by about 90% When the axial force of the sleeve 132 is larger than the shearing stress of the counter ring 114, the counter ring 114 may be sheared and separated into a ring shape as shown in Fig. At this time, the buckling strength of the second sleeve 134 is greater than the shearing stress of the counter ring 114, so that the front end of the counter ring 114 can be generated before the second sleeve 134 is buckled and deformed.

The counter ring 114 may be separated from the bolt body 110 by a pressing force transmitted to the first sleeve 132 and may be pressed against the head portion 112 to be closely attached thereto.

At this time, the torque required to fasten the nut 120 may be instantaneously reduced, and the counter ring 114 is brought into close contact with the head portion 112 and then increases again.

6, since the axial force is constantly transmitted in the ecology where the first extension P1 is in contact with the counter ring 114 in close contact with the head 112, the first extension P1 And is brought into contact with the members (10, 20), and the members (10, 20) are joined by the tightening force generated by the torque applied to the nut (120).

7, the area above the first expansion part P1 of the first sleeve 132 is moved by the axial force continuously applied in the state where the first expansion part P1 is in contact with the members 10, And the second expanded portion P2 is formed. The second expanding portion P2 supports the first expanding portion P1 with a great force and comes into contact with the counter ring 114 so that the head of the first expanding portion P1 is stably formed, 10, 20), that is, a blind head.

8, when the nut 120 reaches the target fastening force, the nut 120 is rotated by a predetermined torque, and the torque is applied to the nut 120. When the second fastening portion P2 reaches the target fastening force, So that the neck portion 118 is sheared and the grip portion 116 can be separated from the bolt body 110. As a result,

As shown in FIG. 9, the blind bolt 100 of the present embodiment can join the member 10 or 20 having a closed end surface or a structure according to the progress of the process.

10 is an enlarged cross-sectional view of a part of a blind bolt according to an embodiment of the present invention.

The blind bolt 100 according to the present embodiment is formed such that the counter ring 114 protrudes in a circular shape from the bolt body 110 as shown in Figure 10 (a). However, in addition to this shape, Various morphological transformations can be made.

For example, as shown in FIG. 10 (b), the counter ring 114 may be formed to be inclined so that a cross-sectional area of a portion connected to the bolt body 110 becomes small.

At this time, the counter ring 114 may be formed to be inclined so that a surface contacting the first sleeve 132, for example, the front surface 114a, forms an acute angle with the bolt body 110.

10 (c), the counter ring 114 is formed so that the opposite side of the surface contacting the first sleeve 132, for example, the rear surface 114b, is inclined so as to form an acute angle with the bolt body 110 It is possible.

The shearing stress can be reduced as the cross-sectional area of the portion of the counter ring 114 that contacts the bolt body 110 by the inclined surface decreases.

Also, at least one slit groove may be formed on the front surface or the rear surface of the portion of the counter ring 114 connected to the bolt body 110.

For example, as shown in FIG. 7 (d), the counter ring 114 may have at least one slit groove 114c formed on a rear surface of a portion connected to the bolt body 110. [

7 (e), at least one slit groove 114d may be formed on the front surface of the portion of the counter ring 114 connected to the bolt body 110.

The slit grooves 114c and 114d formed in the counter ring 114 reduce the cross sectional area of the counter ring 114 and the bolt body 110 so that the shearing stress of the counter ring 114 can be reduced.

11 is an enlarged cross-sectional view of a part of a blind bolt according to another embodiment of the present invention.

11, the blind bolt 100 may be formed such that the inner surface 114a of the head portion 112 is inclined so that when the head portion 112 is engaged with the members 10 and 20, May be coupled to the counter ring 114 and the outer sleeve of the first sleeve 132 so as to surround the inner ring 112a.

In addition, although the first sleeve 132 is formed to be smaller than the thickness of the second sleeve 134, the buckling strength of the first sleeve 132 is lower than that of the second sleeve 134, It is also possible to use a material having a low ductility to form a low buckling strength. That is, when the first sleeve 132 and the second sleeve 134 are formed of the same material, the buckling strength can be determined by the difference in thickness between the first sleeve 132 and the second sleeve 134,

The buckling strength of the first sleeve 132 and the second sleeve 134 can be determined by using materials having different buckling strengths in addition to the thickness difference. It is also possible to adjust the buckling strength by using different materials for the first sleeve 132 and the second sleeve 134. The first sleeve 132 and the second sleeve 134 may be subjected to a heat treatment process such as annealing or to mechanically process the inner or outer portion of the first sleeve 132 to lower the buckling strength.

It will be understood by those skilled 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 and their equivalents. It will be clear to those who have knowledge.

100: blind bolt 110: bolt body
112: head part 114: counter ring
120: Nut 130: Sleeve tube
132: first sleeve 134: second sleeve
130: Nut 140: Washer

Claims (12)

A blind bolt inserted through a through hole formed in the members for joining members having closed end faces to join the members, wherein the blind bolt
A bolt body inserted into the through hole and having a spiral portion at a lower portion thereof;
A head portion formed at one end of the bolt body and having an extended cross section than the bolt body;
A ring-shaped counter ring integrally protruded from the bolt body at a predetermined distance from the head portion;
A nut inserted into the spiral portion of the bolt body;
A bolt body inserted into the bolt body adjacent to the counter ring between the counter ring and the nut and buckled so that the central portion is expanded outward due to an axial force generated when the nut is fastened to the bolt body, A first sleeve defining an extension; And
The counterweight is pushed forward by the first sleeve having the first expanding portion formed therein and the axial force generated when the nut is inserted into the bolt body between the first sleeve and the nut is transmitted to the first sleeve, A second sleeve supported on the head portion and transmitting an axial force to form a second expanding portion on the upper portion of the first sleeve to support the first expanding portion in close contact with the member;
And a blind bolt. The method according to claim 1,
Wherein the shearing strength of the counter ring is greater than the buckling strength of the first sleeve and less than the buckling strength of the second sleeve. The method of claim 2,
And the second sleeve is stepped to be thicker than the thickness of the first sleeve. The method of claim 3,
Wherein an outer diameter of the second sleeve is equal to an outer diameter of the first sleeve, and an inner diameter of the second sleeve is smaller than an inner diameter of the first sleeve. The method of claim 3,
And the second sleeve is formed of a material having a higher strength than the strength of the first sleeve. delete The blind bolt of claim 2, wherein the first sleeve is at least partially annealed. The method according to any one of claims 1 to 5 and claim 7,
Wherein the first sleeve and the second sleeve are formed separately from each other. The method according to any one of claims 1 to 5 and claim 7,
Wherein the first sleeve and the second sleeve are integrally formed. The method of any one of claims 1 to 5 and 7, wherein the counter ring
And a cross-sectional area of a portion connected to the bolt body is reduced. The method of any one of claims 1 to 5 and 7, wherein the counter ring
And at least one slit groove formed on a front surface or a rear surface of a portion connected to the bolt body. The method according to any one of claims 1 to 5 and claim 7,
And a washer inserted between the member and the nut.

Images