KR102001638B1 - Connector for steel pipe strut with shear and bending reinforcement member and connecting device comprising such connectors - Google Patents

Abstract

The present invention provides a steel pipe strut connector which prevents deformation and destruction of a tubular connector by bending moment. According to the present invention, the steel pipe strut connector is used in waling-strut construction. The connector includes a ring-shaped connection member extended to a prescribed length in a longitudinal direction of the steel pipe strut to tightly cover the entire circumference of the steel pipe strut. A T-shaped rail is extended in the longitudinal direction and connected to an outer circumferential surface of the ring-shaped connection member. The T-shaped rail includes an upper horizontal portion and a vertical portion extending downwards from the horizontal portion. The horizontal portion is formed to be horizontally extended from the vertical portion to the left and right to form a left and a right groove of a lower portion of the T-shaped rail. A hollow reinforcing material is inserted into the left and the right groove to be slid and coupled.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a steel pipe strut joint member having a shear-stiffener,

The present invention relates to a steel pipe strut connection material having a bending and shear reinforcement as a tubular connection steel pipe strut connection material inserted into a steel pipe strut used in a strand-strut construction of an underground structure and connecting the same to other steel strut strands or wales. To a coupling device including a coupling member.

Recently, as the need for expansion of social overhead facilities has increased, underground excavation work has been under way in the city center. The characteristics of underground excavation work are maximum spatial excavation and great excavation excavation to maximize the use of limited space and underground construction where subway, overpass, underground structure, office space and ground structure for residential space are close to each other have.

Especially, underground excavation works for constructing underground structures in large urban areas in a limited space in urban areas should be considered as a top priority for stabilization of surrounding grounds. It is an important part. The retention method can be divided into two methods as a method to utilize the temporary earth retaining structure and a method to construct an underground structure in parallel with the excavation and earthwork as the main structural body acts as an earth retaining wall in response to earth pressure and water pressure. There is a risk of collapse of the retaining structure due to the possibility of civil complication and stability of the surrounding ground. In addition, there are many cases where complaints are generated due to the displacement of surrounding grounds and compensation for construction interruption or civil complaints.

In the present earthwork, the steel culverts are used for the clay, and the cast-in-place wall (CIP) and the soil cement wall (SCW) are used. Earth Anchor, Soil Nailing, Rock Bolt, and top-down construction methods.

In the case of using the hypothetical Strut, there is a high possibility of inducing the change of surrounding ground during the installation and dismantling process of the installation and dismantling. However, compared to the top-down method, It has the advantage of reducing the cross section of the slab and is now widely used.

However, since the wale-brace structure itself is not a permanent structure, it is a visibility material, so after the construction of the underground wale is finished, the wale-brace structure must be disassembled and recycled, so that the connecting material connecting between the brace and the wale- And the deformation and fracture of the connecting member result in deformation or destruction of the wale band or the strut, so that the rigidity of the connecting member is very important not only in terms of structural stability of the wale band-strut structure but also in terms of the member recovery rate. Therefore, a connecting material capable of minimizing the deformation of the cross section during installation, disassembly and use of the wrist strap or strut is required.

In addition, such linking material should be actively deformed according to the site conditions such as size conversion requested in the field when the material is repeatedly used for installation and disassembly. In addition, the stiffener for reinforcing the rigidity of the joint member is also required to be freely installed and dismantled, to minimize the cross-sectional loss due to repeated installation and disassembly, and likewise to be capable of being changed and used in accordance with the situation of the site.

Instead of the H-Pile, which is required to be reinforced with respect to the weak axis in the buckling design with respect to the compressive load transmitted from the earth wall through the wedge in the presence of the weak axis and the strong axis, Rectangular cross-section pipes are widely used.

In the case of using such a stranded steel stranded strut (i.e., a steel strand strut), unlike the strut of the H-file type strut, the strut has a hollow cross-section so that the strut- In this connection, a method of inserting and connecting steel pipes to tubular connecting members (tubular connecting members) is widely used as disclosed in Japanese Patent Application Nos. 10-1337001 and 10-1212653 of the present applicant . In other words, unlike in the H-file strut, it is practically impossible to weld the steel strut bracket directly to the connection part (it is rarely used in domestic or foreign countries due to stability etc.) .

On the other hand, at the time of construction of all stratum brackets, the center of the strut at both sides of the stratum is inaccurate due to the on-site conditions, so that the moment due to eccentricity can not be avoided. That is, as shown in FIG. 1, if the center of the strut 1, which is indicated by the axis line CL between the wrist strap 2 and the wrist strap 2, is held in a straight line between both ends of the earth retaining wall It is not necessary to worry about the deformation or destruction due to such a moment. However, when the center of both ends is slightly deviated, the moment is generated by M (moment) = F (force) × L (distance) It is naturally impossible to completely prevent such deformation, and it is necessary to prevent such deformation by the moment.

In this case, when the moment is generated as above, the weakest part of the steel pipe strut structure is the part connected by using the connecting part. That is, as shown in FIG. 1, two or more steel pipe struts (1) and steel pipe strut (1) are connected to a joint device (200) in accordance with the required span of the strut (refer to FIG. 1 of Patent Document 1 of the prior art document ). 1, the steel brace bundle 1 is connected to the wristband 2 by using a separate connecting part, and if necessary, the wristband 1 is connected to the wrist strap 2 through a connecting jack as shown on the opposite side of the broken line in FIG. 2). On the other hand, when such a steel pipe bracket 1 is welded to each other, the degree of integration of the connected portion can be alleviated to some extent. However, as described above, the welded connection of the steel pipe bracket 1 has a structural safety In this case, due to the moment, deformation failure of the connecting part as shown in Fig. 1 is caused by the moment, which causes deterioration of the performance of the connecting part. That is, the steel part connected to the connecting part The performance of the strut bracket 1 is deteriorated and becomes a problem.

 [Fig.1: Deformation due to the moment of conventional connecting material]

The strut 1, which looks like a horizontal member such as a beam in the installation direction, actually receives a lateral load such as water pressure or earth pressure transmitted to the bottom wall at both ends through the wale 2, The stiffness damage to such a moment may cause buckling of the strut, which is a compressive material, and deformation and destruction due to local buckling and shear load are caused on the circumferential surface of the connecting part connecting the strut, Which is a serious threat to the stability of

In addition, such connecting parts must support not only the lateral loads but also the construction loads caused by the parts or equipment moving on the strut 1 during construction. By such combined loading, the warpage and shear failure of the outer peripheral surface of the connected parts There is a need to compensate for the tearing caused by the tornado.

Korean Patent No. 10-1337001 Korean Patent No. 10-1212653

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been conceived to solve the above-mentioned problems of the conventional art, and it is an object of the present invention to provide a wrist strap structure that prevents deformation and breakage due to bending moment of a tubular connecting member, To provide a new concept of a steel pipe strut connection material having a reinforcing material capable of preventing breakage at the same time, and a joint device composed of such a connection material.

The steel pipe strut connection material according to the present invention is a steel pipe strut connection material used for a wrist strap construction, the connecting material is formed to extend along the longitudinal direction of the steel pipe strut with a predetermined length and to cover the whole circumference of the steel strut strut Shaped connecting member, and a T-shaped rail is connected to the outer peripheral surface of the annular connecting member while extending in the longitudinal direction, and the T-shaped rail is formed as a vertical portion extending from the horizontal portion of the upper portion and the lower portion The horizontal portion is formed to extend laterally in the horizontal direction from the vertical portion to form left and right grooves at the lower portion of the T-shaped rail, and a hollow stiffener is inserted into the right and left grooves to be slidingly coupled.

In the steel pipe strut connection material according to the present invention, the reinforcing steel can be inserted into the hollow of the hollow reinforcing material.

In the steel pipe strut connection material according to the present invention, a separate fitting groove may be formed in the vertical portion of the T-shaped rail, and the hollow reinforcing material may be inserted and connected to the fitting groove.

In the steel pipe strut connection material according to the present invention, the T-shaped rail is formed of a steel material and can be welded to the outer circumferential surface of the annular connecting member.

In the steel pipe strut connection member according to the present invention, the annular connecting member is formed with a connecting plate, and the connecting plate is formed into a shape gradually protruding from the outer circumferential surface of the annular connecting member in the circumferential direction of the annular connecting member .

In the steel pipe stranding connector according to the present invention, a bolt hole through which a connecting bolt can be inserted may be formed in a protruding portion of the connecting plate.

In the steel pipe strut connection material according to the present invention, a rib may be provided between the protruded portion of the connecting plate and the outer circumferential surface of the annular connecting member to reinforce the connection between the connecting plate and the annular connecting member.

In the steel pipe strut connection member according to the present invention, one or more through bolts may be connected to the annular connecting member through the transverse section of the annular connecting member.

In the steel pipe strut connection member according to the present invention, the hollow reinforcing member inserted into the right and left grooves in the lower portions of the T-shaped rail and the T-shaped rail and slidably engaged in the lower portions of the T- Can be installed more than one.

In the steel pipe strut connection material according to the present invention, the number of the hollow reinforcing materials inserted into the right and left grooves at the lower portions of the T-shaped rail and the T-shaped rail for sliding engagement may be four.

In the steel pipe stranding connector according to the present invention, the annular connecting member may be formed of two semicircular connecting members having a semicircular cross section divided vertically or horizontally.

The steel pipe strut jointing device composed of two steel pipe strut connection materials used in a wrist strap construction according to the present invention is characterized in that each of the steel pipe strut joint materials is formed to have a predetermined length and extend along the longitudinal direction of the steel pipe strut, Wherein the two annular connecting members of the steel pipe strut jointing device are provided so as to face each other in the longitudinal direction of the steel pipe strut boding machine and each of the annular connecting members is provided with a connecting plate And the connecting plate is formed in such a shape as to gradually protrude from the outer circumferential surface of the annular connecting member in the circumferential direction of the annular connecting member and connect the two connecting plates to each other to connect the annular connecting members to each other And is arranged so as to be able to be connected to the outer circumferential surface of the two annular connecting members Wherein the T-shaped rail is formed by a horizontal portion of an upper portion and a vertical portion extending downward from the horizontal portion, and the horizontal portion is formed to extend laterally from the vertical portion in a horizontal direction And a hollow reinforcing member is inserted into the left and right grooves to be slidably engaged with the left and right grooves.

In the steel pipe strut jointing device composed of two steel pipe strut connection materials used in the wristband-stranding work according to the present invention, the annular connecting member is formed by two semicircular connecting members having a semicircular cross-section divided vertically or horizontally .

In the steel pipe strut jointing device composed of the two steel pipe strand connecting materials used in the wristband-stranding work according to the present invention, a bolt connecting portion for joining the semicontinuous connecting members to each other may be formed in the semicontinuous connecting member.

In the wale-stranding method according to the present invention, the steel pipe strut brace, the steel pipe strut, or the wale-steel pipe strut are connected by using the steel pipe strut connection material or the steel pipe strut connection device.

According to the steel pipe strut connection material of the present invention and the joint device formed thereon, even if a moment due to the eccentricity is generated between the steel pipe strut and the wales (earth retaining walls) at both ends thereof, deformation or breakage of the connection material connecting the steel pipe strut And it is possible to prevent deformation or breakage of the steel tube strut and other steel strut strands or straps connected thereto.

Further, in the steel pipe strut connection material of the present invention, the hollow stiffener can be inserted and joined to the T-shaped rail in a sliding manner, thereby facilitating positioning and installation and disassembling conveniently. In particular, the T-shaped rail and the hollow stiffener are continuously installed on at least two steel pipe strut joint members. The hollow stiffener can be installed by slidingly inserting the T-shaped rail and the hollow stiffener into the T-shaped rail, It is very convenient to install in the precise position of the connector.

In addition, the hollow reinforcing member provided on the T-shaped rail can precisely align and install the steel pipe strut connection member and the steel pipe strut connection member, thereby preventing deformation or breakage of the connection member due to moment due to eccentricity, The reinforcing material itself can prevent shear deformation of the circumferential outer circumferential surface of the connecting member.

Also, since the T-shaped rail and the hollow reinforcing member shorten the span of the outer circumferential surface of the steel pipe brace connecting member to the point of the hollow reinforcing member, the outer circumferential surface of the steel pipe brace connecting member can be prevented from being warped and local buckling can be prevented.

Further, according to the necessary reinforcement strength considering the shape of the span of the steel pipe strut or the shape and the coupling force of the tubular strut, the additional reinforcing steel can be selectively inserted into the hollow reinforcement, and the connection strength of the steel pipe strut connection material can be adjusted So that it is possible to actively cope with the situation in the field and to adjust the design strength in a simple manner.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a view for explaining an environment in which a steel pipe strut connection material 100 of the present invention is used.
FIG. 2 is a perspective view showing a joint device 200 composed of a connecting material 100 of the present invention connected to a steel pipe strut 1. FIG.
3 is a perspective view of a coupling device 200 composed of the coupling member 100 of the present invention.
4 is an exploded perspective view of a coupling device 200 composed of the coupling member 100 of the present invention.
5 is a cross-sectional view of the connector 100 of the present invention and an enlarged view showing the combination of the T-shaped rail 20 and the hollow stiffener 30. FIG.
6 is a view for explaining the separable semicycle type connecting members 11, 12 of the present invention.
7 is a view showing that a reinforcing bar 40 is inserted into the hollow of the hollow stiffener 30 of the present invention.
8 is a view for explaining that the hollow stiffener 30 of the present invention is inserted and connected to the fitting groove 24 of the T-shaped rail 20. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. 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 concept of the invention to one skilled in the art. And the present invention is only defined by the scope of the claims.

Like reference numerals refer to like elements throughout.

As used herein, the term " and / or "includes each and every combination of one or more of the mentioned items. The singular forms herein include plural forms unless the context clearly dictates otherwise. Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art. Also, predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise.

The directions of the up, down, left, and right directions used in this specification will be described on the basis of those shown in the drawings attached hereto unless otherwise specified.

A preferred embodiment of the present invention will be described with reference to Figs. 2 to 8. Fig.

The steel pipe strut connection material 100 according to the present invention shown in FIG. 2 or the like is a connecting material used to connect the steel pipe strut 1 and the steel pipe strut 1 in a wrist strap construction supporting the underground earth retaining wall. 2, which illustrate the embodiment of the present invention, such a steel pipe strut connection member 100 is formed of a steel pipe strut 1 (not shown) Or between the wrist strap 1 and the wrist strap 2, and may be used in conjunction with a separate trapezoidal connection, a pneumatic or a hydraulic type connection jack.

In the present specification, the description will be focused on connecting two steel pipe strands 1, which are parallel to each other as shown in Fig. 2, in the case where the connecting material 1 is connected to the steel pipe strut 1 or two connecting materials 1, The joint member 100 of the present invention and the joint device 200 including the joint member 100 may be used to connect the wale band 2 and the steel pipe bracket 1 as described above.

Strictly speaking, in the present specification, a connecting material connected to one steel pipe strut 1 is called a steel pipe strut connecting material 100, and two such steel pipe strut assemblies 100 are joined together as in FIG. 2, When connecting in a connecting manner, the entirety including the two connecting members 100 is referred to as a connecting device 200.

The connecting member 100 may be formed in a ring-like shape so as to extend along the longitudinal direction of the steel pipe strut 1 in a predetermined length and to cover the entire periphery of the steel pipe strut 1 with a predetermined length, Is separately referred to as a connecting member (10).

The annular connecting member 10 of the steel pipe strut connection member 100 may be a single circular cross-sectional member as shown in FIG. 4 and the like, but may be divided into upper and lower semicircular cross- 12). In this case, as described later, a bolt connecting portion 80 for connecting the two pieces of the semicycle-like members to each other is formed. The annular linking member 10 of FIG. 2 or the like is referred to as an integral type, and the semicontinuous linking members 11 and 12 of FIG. 6 are referred to as a detachable type. In the case of the separable type, the upper and lower portions are separated in FIG. 6, but they may be separated right and left.

4 to 5, a T-shaped rail 20 extends on the outer circumferential surface of the annular connecting member 10 in the longitudinal direction of the steel pipe strut 1. The connecting member 100 or the annular connecting member 10, As shown in Fig. 5, the vertical member 22 and the horizontal member 21 are coupled to form a T-like shape, and the horizontal member 21 is connected to the vertical member 22 And is protruded symmetrically from the upper portion to the left and right so as to protrude out of the vertical portion symmetrically with respect to the center of the vertical portion 22 with a predetermined length.

Therefore, when the transverse section of the T-shaped rail 20 is viewed, grooves 23 are formed in the lower portions of the left and right sides of the vertical portion 22 (i.e., the lower portions of the horizontal portions) The stiffener 30 is slidably engaged and connected. The length of the horizontal portion 21 protruding from the vertical portion 22 is equal to the length of the hollow reinforcing member 30 which is slidably engaged with the groove 23 .

A hollow stiffener 30 having a circular cross section is inserted into the groove 23 formed symmetrically to the left and right of the vertical portion 22 of the T-shaped rail 20 to be slidingly coupled. The hollow stiffener 30 is preferably formed of a steel material having a hollow shape and generally circular in transverse section. As shown in FIG. 5, the hollow stiffener 30 has two opposite left and right ends, that is, both ends connected to the groove 23 in the left and right directions. (21). Therefore, the hollow stiffener 30 is not a complete circular cross-section. However, a hollow circular member having a circular cross section is formed and then straightly cut along the longitudinal direction of the hollow member from one point on the circumference, and then connected to the groove (23) In this case, the hollow reinforcing member 30 connected to the groove 23 is not a pure circular cross section at first, and the both ends of the hollow reinforcing member 30 connected to the vertical portion 22 are obstructed. Therefore, When inserted, it will be like a elliptical shape and protrude from side to side. Since the hollow stiffener 30 is inserted and connected to the groove 23, the manufacturing method of the hollow stiffener 30 is not limited to the above-described exemplary method, It is of course possible to change the shape of the groove 30 before or after the groove 23 is connected to the groove 23 in a circular shape, an alternate circular shape, a generally oval shape or the like depending on the manufacturing method. Can not be limited.

The T-shaped rail 20 is referred to as a " rail "because the rail 20 is attached to the annular connecting member 10 by welding or the like, 10 so as to guide the hollow reinforcing member 30 on the annular connecting member 10. Therefore, according to the present invention, it is necessary to separately determine the engagement position of the hollow stiffener 30 along the groove 23 of the T-shaped rail 20, It is unnecessary to use a separate ancillary mechanism or the like for indicating the welding position or the coupling position and for fixing the installation position thereof, and if it is installed according to the guidance of the T-shaped rail 20, Type stiffener 30 can be correctly installed.

The installation position of the hollow stiffener 30 is very important because as described above, the deformation or destruction caused by the moment generated due to the mismatch of the center between the wrist strap and the strut brace (for example, moment due to eccentricity) The hollow stiffener 30 should be provided so as to coincide with the axial direction of the steel pipe strut 1 and be parallel to other hollow stiffeners 30 provided on the annular connecting member 10 And the arrangement angle in the circumferential direction must be maintained constant. Also, the annular connecting member 10 and the other annular connecting member 10, that is, the annular connecting member 10 formed on any one of the steel wire strand connecting members 100, and the other steel wire strand connecting member 100 abutting the annular connecting member 10 It is very important for such moment reinforcement that the hollow reinforcing members 30, each of which is provided with a plurality of hollow reinforcing members 30, are installed parallel to each other. In the present invention, the T-shaped rail 20 Since the orientation and position of the grooves 23 are determined according to the guidance, accuracy and ease of installation are greatly increased.

The accuracy of the orientation and position of the hollow stiffener 30 depends on the orientation and positional accuracy of the T-shaped rail 20. The T-shaped rail 20, as described above, 10, that is, it can be formed as a single casting, or it is possible to set a certain orientation and position of accuracy required for factory production rather than field construction (field welding).

On the other hand, even if the T-shaped rail 20 is correctly oriented and installed at the correct position in the annular connecting member 10, the hollow reinforcing member 30 may need to be slidably inserted in a direct construction site . Of course, the hollow reinforcing member 30 may be integrally formed with the T-shaped rail 20 or inserted into the groove 23 of the T-shaped rail 20 before being brought into the field, In addition, since the present invention essentially repeats the installation and disassembly and changes the required strength of the connector 100 according to the requirements of various sites, it is possible to actively match various requirements to the steel pipe strut connector 100 of the present invention, In order to maximize the application range of the joint device 200, the hollow reinforcing member 30 needs to be installed and dismantled by the workpiece.

However, even if the T-shaped rail 20 is correctly installed on the annular connecting member 10, it is possible to completely eliminate the possibility of an error in the sliding insertion of the hollow stiffener 30 none.

8, in order to guide the both ends of the hollow stiffener 30 more securely and accurately to the vertical portion 22 of the T-shaped rail 20 as shown in FIG. 8, May be formed. The fitting groove 24 is formed at the position of the groove 23 and may be formed by forming an additional groove in the vertical portion 22. [ In this case, the width and length of the vertical portion 22 should be appropriately selected so that the sufficient rigidity of the T-shaped rail 20 and the moment strength (flexural strength) of the T-shaped rail 20 can be maintained.

Since the fitting groove 24 forms a step in the vertical portion 22 and is further recessed toward the vertical portion 22 than the groove 23, the hollow reinforcing member 30 is more reliably So that they can be inserted and joined together.

The hollow stiffener 30 may be inserted into the groove 23 or the fitting groove 24 and welded to the annular connecting member 10 if necessary.

7, depending on the situation of the site, for example, the ground may be weak and a lot of axial force may be generated, or the moment reinforcing bars 40 Is inserted into the hollow reinforcing member 30, the performance of the steel pipe strut connection member 100 can be further easily and quickly supplemented. Since the hollow in the hollow stiffener 30 guides the reinforcing bar 40, the reinforcing bar 40 can be accurately positioned and oriented, and the construction of the reinforcing bar 40 is very convenient.

Particularly, the hollow reinforcing member 30 of the present invention has a moment reinforcing effect per se. However, since the reinforcing steel bar 40 can be selectively inserted as required, As described above, the wristband-steel pipe bracket of the present invention is a visibility material which is repeatedly installed and disassembled as described above, and must be recycled in the field after use. It is very advantageous in the technical field in that it is necessary to use a modification.

The reinforcing bar 40 may be provided only to a part of the hollow stiffener 30 to satisfy the required strength when the plurality of hollow stiffeners 30 are installed on the connecting member 10, 30, or the like, and thus, it is possible to selectively adjust the required strength of the connector 100. Of course, in order to maintain symmetry, when reinforcing bars 40 are inserted into only some of the hollow reinforcing members 30, it is preferable that the reinforcing bars 40 are installed together in the upper and lower or symmetric members.

When the reinforcing bars 40 are required to be removed from the hollow reinforcing bars 30, the reinforcing bars 40 are pierced through the appropriate mechanisms since the front and back of the hollow reinforcing bars 30 are pierced. The hollow reinforcing member 30 can be recycled in a state in which the reinforcing bar 40 is not provided and then discharged in a direction opposite to that of the hollow reinforcing member 30 inserted therein.

Since the hollow reinforcing members 30 are preferably installed in left and right and up and down symmetry, the number of the hollow reinforcing members 30 may be different according to the required moment reinforcing strength. May be arranged at regular intervals in the circumferential direction of the annular linking member 10, that is, at intervals of 90 degrees. The T-shaped rail 20 is installed corresponding to the number of the hollow stiffeners 30.

The hollow reinforcing member 30 may be manufactured using a high strength synthetic material or the like, but it is preferable that the hollow reinforcing member 30 is formed of a steel material to be fixed to the annular connecting member 10 by welding or the like.

Likewise, the T-shaped rail 20 is also preferably formed of a steel material and welded to the outer circumferential surface of the annular connecting member 10.

As shown in FIGS. 2 and 3, the other side of the annular connecting member 10 on which the steel pipe strut 1 is inserted is disposed in parallel with the longitudinal direction of the other steel pipe strut 1 opposite to the other side. A connecting plate 50 may be provided for connecting the annular connecting member 10 of the connecting member 100 for the steel pipe strut 1 to each other so that two annular connecting members 10 or two connecting members 100 are connected to each other to form a coupling device 200.

In the joint device 200, the two annular linking members 10 are disposed to face each other in the longitudinal direction of the steel pipe strut 1. At this time, the annular linking member 10 connects the link plate 50 And the reinforcing bar 40 inserted into the T-shaped rail 20, the hollow reinforcing member 30 and the hollow reinforcing member 30 as in the case of the steel pipe strut connection member 100, (10).

3 and so on, ribs 60 are provided at regular intervals on the outer circumferential surface of the annular connecting member 10 and the ribs 60 are connected to the connecting plate 50 and the annular connecting member 10, For example, by welding or the like. The ribs 60 are formed to have a greater rigidity between the annular connecting member 10 and the connecting plate 50 and a plurality of the annular connecting members 10 are provided at regular intervals, A plurality of ribs 60 serving as such points are provided at regular intervals so that the distance between the points is shortened so that the outer peripheral surface of the annular connecting member 10 The bending strength of the bushing is improved. Of course, it is natural that the connecting plate 50 can be more firmly coupled to the annular connecting member 10.

On the other hand, the T-shaped rail 20, the hollow stiffener 30, and the reinforcing bars 40 inserted therein are connected to the steel pipe strut 1, which is an elongated span member, with respect to a bending moment applied to the steel pipe strut 1 The bending strength of the steel bracket 1 can be improved by more firmly binding the brazing material 100 to the steel bracket 1 (that is, by increasing the binding force of the bracket), and the bending strength of the outer circumferential surface of the brazing material 10 itself The effect is improved. This is because the connection member 20 + 30 + 40 of the T-shaped rail 20, the hollow reinforcing member 30, and the reinforcing bar 40 inserted in the connecting member 20, So that the length of the bending span is shortened. Since the effect of improving the flexural strength of the connecting member 10 itself is a load applied in a direction perpendicular to the outer circumferential surface of the connecting member 10, it generally means a working load during operation, a bending strength with respect to the work part or the weight of the equipment .

Of course, the main object of the present invention is to prevent the deformation and breakage of the steel tube sprocket 1 due to the compressive force applied in the axial direction.

On the other hand, the compressive force applied in the longitudinal direction of the steel pipe strut 1 may act in parallel with the surface direction of the outer circumferential surface of the connecting member 10, thereby causing shear deformation of the connecting member 10. The connecting member (20 + 30 + 40) as described above can be expected to have a reinforcing effect on the shear deformation. The tearing deformation against the lateral load such as earth pressure and water pressure applied to the outer circumferential surface of the connecting member 10 in parallel thereto .

The connecting plate 50 is formed to gradually protrude from the outer circumferential surface of the annular connecting member 10 in the circumferential direction of the annular connecting member 10, and as illustrated in FIG. 5, The connecting plate 50 and the connecting plate 50 are connected to each other so that the bolt connecting portion 51 can be formed at regular intervals in the circumferential direction so that the connecting member 10 and the connecting member 10, And the connection member 100 are connected to each other. A plurality of bolts (a) and nuts (b) as shown in FIG. 4 are inserted into the bolt connection part 51 to connect the connection plate 50 and the connection plate 50.

5, etc., the cross-sectional loss of the bolt connection portion 51 due to the bolt hole may be increased by the reinforcement of the coupling force due to the rib 60, It can be partially canceled and is structurally stable.

The steel pipe strut connection member 100 includes the annular connecting member 10, the connecting plate 50, the rib 60, the bolt connecting portion 51, and the like.

As shown in FIG. 4 and the like, at least one through bolt 70 may be connected to the annular connecting member 10 through the inside of the annular connecting member 10. The penetrating bolts 70 are for reinforcing the connection between the steel pipe strut 1 and the connecting member 100 and the through bolts 70 are shown without being connected to the steel pipe strut 1 in FIG. The through bolts 70 are connected to the annular connecting member 10 through the steel pipe strut 1 while the steel pipe strut 1 is inserted.

As described above, the hollow stiffener 30 inserted into the left and right grooves 23 or the fitting grooves 24 of the lower portion of the T-shaped rail 20 and the T-shaped rail 20 to be slidably engaged, Two or more members may be installed at regular intervals in the circumferential direction of the member 10.

6, the annular linking member 10 may include two semicircular linking members 11 and 12. In this case, as shown in FIG. 6, the semicircular linking member 10 11 and 12 may be connected to each other through the bolt connecting portion 80. The bolt connecting portion 80 may be formed by a bolt connecting portion 80,

The bolt connecting portions 80 of the half-hook type connecting members 11 and 12 are connected to the connecting plate 81 protruding in the radial direction of the half-hook type connecting members 11 and 12 through the connecting plate 81 A nut 83 which is fastened to the bolt 82 and the bolt 82 and a rib 83 which connects the bolt and nut to the semi- 84).

6, the T-shaped rail 20 and the hollow reinforcing member 30 are formed in a circular shape of the connecting member 10, (12 o'clock, 6 o'clock), or at points other than 3 o'clock and 9 o'clock, rather than at the left and right points (3 o'clock and 9 o'clock) where the bolt connection (80) .

The semicircular connecting members 11 and 12 may have an upper end portion or a lower end portion of the annular connecting member 10, A method of inserting the steel pipe strut 1 into the air hole and then fitting the steel pipe strut 1 into the upper and lower portions or mounting the steel pipe strut 1 on the lower semi- (11). In general, the construction is more convenient than the annular connecting member (10).

The connecting member 10, the connecting member 100 and the connecting device 200 of the present invention connect the steel pipe strut 1 and the wale band 2 or connect the steel pipe strut 1 and the steel pipe strut 1, Which can be used for wale-string construction.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, those skilled in the art will appreciate that the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

In addition, the accompanying drawings are shown not to scale but to partially enlarge and reduce in order to explain the technical idea of the present invention.

In addition, it is needless to say that embodiments that selectively combine the elements and steps of the system, method, or apparatus of the present invention described above also belong to the scope of the present invention.

1: (steel pipe) strut
2: wale
10: annular connecting member
11, 12: a half-hook type connecting member
20: T-shaped rail
21:
22:
23: Home
24: Fitting groove
30: Hollow stiffener
40: Rebar
50: connection plate
60: rib
70: Through bolt
80: Bolt connection
81: joint plate
82: Bolt
83: Nuts
84: rib
100: Steel pipe strut connector
200: Coupling device
a: Bolt
b: Nut

Claims (16)

Welded wire - A steel wire stranded joint used for stranding work,
The connecting member includes an annular connecting member extending along the longitudinal direction of the steel pipe strut and having a predetermined length so as to close and cover the entire circumference of the steel pipe strut,
A T-shaped rail is connected to the outer peripheral surface of the annular connecting member while extending in the longitudinal direction,
The T-shaped rail is formed by a horizontal portion of the upper portion and a vertical portion extending downwardly from the horizontal portion, and the horizontal portion is formed to extend laterally from the vertical portion in the horizontal direction so that the left and right grooves of the lower portion of the T- And,
And a hollow reinforcing member is inserted into the left and right grooves to be slidingly engaged. The method according to claim 1,
And a reinforcing steel bar is inserted in the hollow of the hollow reinforcing member. The method according to claim 1,
Wherein a separate fitting groove is formed in a vertical portion of the T-shaped rail, and the hollow stiffener is inserted into the fitting groove. The method according to claim 1,
Wherein the T-shaped rail is formed of a steel material and is welded to an outer circumferential surface of the annular connecting member. The method according to claim 1,
The annular connecting member is formed with a connecting plate,
Wherein the connecting plate is formed so as to gradually protrude from an outer circumferential surface of the annular connecting member in a circumferential direction of the annular connecting member. 6. The method of claim 5,
And a bolt hole is formed in a protruding portion of the connecting plate to insert a connecting bolt. The method of claim 6, wherein
Wherein a rib is provided between the protruding portion of the connecting plate and the outer circumferential surface of the annular connecting member to reinforce the connection between the connecting plate and the annular connecting member. The method according to claim 1,
Wherein at least one through bolt is connected to the annular connecting member through the transverse section of the annular connecting member. The method according to claim 1,
And at least two hollow reinforcing members inserted into the left and right grooves of the T-shaped rail and the lower portions of the T-shaped rail and slidably engaged with each other are installed at regular intervals in the circumferential direction of the annular connecting member. Steel pipe strut connection material. 10. The method of claim 9,
Wherein the T-shaped rail and the hollow reinforcing members inserted into the left and right grooves of the lower portion of the T-shaped rail for sliding engagement are four, respectively. The method according to claim 1,
Wherein the annular linking member is formed of two semicircular linking members having a semicircular cross section divided vertically or horizontally. A steel pipe strut joint device composed of two steel pipe strut connection materials used for wale-strut construction,
Each of the steel pipe strut connection members includes an annular connecting member extending along the longitudinal direction of the steel pipe strut with a predetermined length and formed so as to be able to close and cover the entire circumference of the steel pipe strut,
The two annular connecting members of the steel pipe strut jointing device are installed so as to face each other in the longitudinal direction of the steel pipe strut,
Wherein each of the annular connecting members is formed with a connecting plate, the connecting plate is formed in such a shape as to gradually protrude from the outer circumferential surface of the annular connecting member in the circumferential direction of the annular connecting member, And connecting the annular connecting members to each other,
A T-shaped rail is provided extending in the longitudinal direction over the outer peripheral surface of the two annular connecting members,
The T-shaped rail is formed by a horizontal portion of the upper portion and a vertical portion extending downwardly from the horizontal portion, and the horizontal portion is formed to extend laterally from the vertical portion in the horizontal direction so that the left and right grooves of the lower portion of the T- And,
And the hollow reinforcing member is inserted into the left and right grooves to be slidingly engaged. 13. The method of claim 12,
Wherein the annular connecting member is formed by two semicircular connecting members each having a semicircular cross section divided vertically or horizontally. 14. The method of claim 13,
And a bolt connecting portion for connecting the yoke type connecting members to each other is formed on the semicontinuous connecting member. A wale-stranding method for constructing a wale-to-steel strand brace by using the steel brace brace material according to any one of claims 1 to 11. A wale-stranding method for constructing a steel pipe strut and a steel pipe strut by using the steel pipe strut connection device according to any one of claims 12 to 14.

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