KR102260395B1 - H-beam reinforcement with corrosion prevention structure - Google Patents

Abstract

The invention for a H-beam reinforcement having a corrosion-resistant structure is disclosed. H-beam reinforcement having a disclosed anti-corrosion structure includes: a contact block which is inserted into the groove of the H-beam and formed as a pair of facing each other, and a variable bracket provided in the contact block and having a variable hole formed on one side; A screw thread is coupled to the variable hole, and an adjustment shaft for adjusting the distance between the close contact blocks by spreading or closing the variable bracket on both sides through rotation, and sealing between the screw thread of the adjustment shaft and the variable hole to prevent the inflow of fluid It is characterized in that it includes a fluid blocking portion to prevent

Description

H-BEAM REINFORCEMENT WITH CORROSION PREVENTION STRUCTURE

The present invention relates to an H-beam reinforcement having a corrosion-preventing structure, and more particularly, it has a fluid blocking part to prevent rust, rainwater, snow, etc. from entering between the screw part of the adjustment shaft and the variable hole of the variable bracket to prevent rust. not. It relates to an H-beam reinforcement having a corrosion-resistant structure for preventing corrosion by providing a space in which a fluid moves between the web of the H-beam and the reinforcement plate by providing a fluid guide on one side of the reinforcement plate.

H-beam, which is widely used as a structural material in construction and civil engineering sites, has a web at the center, and a first flange at one end of the web and a second flange at the other end of the web are integrally formed. make up

General H-beam is used for various purposes such as piles, columns, and beams at the work site. Since H-beam is a structural material with a large slender ratio, when the H-beam is used as a transverse member such as a beam, the load acting perpendicular to the longitudinal direction of the H-beam (hereinafter referred to as Reinforcement is necessary to increase the allowable stress for 'vertical load').

For this purpose, recently, H-beam reinforcements (stiffener jacks) are used to reinforce and support the load by spreading or closing the first and second flanges of the H-beam in a screw method.

The H-beam reinforcing tool includes a pair of contact blocks inserted into the grooves of the L-beam, a spacing adjusting unit for adjusting the spacing between the contact blocks, and a reinforcing plate in contact with the web of the H-beam.

However, the conventional H-beam is mainly applied at outdoor construction sites and exposed to the outside. In case of rain, rust on the screw part of the spacing adjustment part is swept away by rainwater, making it difficult to operate the spacing adjustment part, and since the reinforcement plate is in contact with the web for a long time, rainwater It has a problem that it blocks the movement of rust and rubs the contact area.

Therefore, there is a need to improve it.

As background technology, there is Republic of Korea Public Utility Model Publication No. 2018-0000013 (2018.01.02, title of invention: stiffener jack for civil works).

The present invention was created by the necessity as described above, and provided with a fluid blocking part not only to prevent rusting due to inflow of rainwater, snow, etc. between the screw part of the adjustment shaft and the variable hole of the variable bracket. An object of the present invention is to provide a H-beam reinforcement having a corrosion-resistant structure that prevents corrosion by providing a separation space in which a fluid moves between the web of the H-beam and the reinforcing plate by providing a fluid guide on one side of the reinforcing plate.

In order to achieve the above object, the H-beam reinforcement having a corrosion-preventing structure according to the present invention includes: a close contact block that is inserted into the groove of the H-beam and formed as a pair of facing each other; a variable bracket provided in the close contact block and having a variable hole formed on one side thereof; an adjustment shaft having a screw thread coupled to the variable hole and adjusting the spacing between the close contact blocks by opening or closing the variable bracket to both sides through rotation; and a fluid blocking part sealing between the screw thread of the adjustment shaft and the variable hole to prevent the inflow of the fluid.

The fluid blocking part is provided at both ends of the adjustment shaft, and the mounting part is located adjacent to the screw thread; and a sealing member provided in the mounting part and preventing the inflow of fluid between the screw thread and the variable hole.

The sealing member is characterized in that the coupling position is constrained in the mounting portion by the restraining portion.

The restraint portion may include: a restraint groove formed recessed in an outer surface of the mounting portion or an inner surface of the sealing member; and a constraining protrusion protruding from the inner surface of the sealing member or the outer surface of the mounting part so as to be coupled to the constraining groove.

The sealing member is characterized in that rotation is prevented in the mounting part when the adjustment shaft and the variable bracket are coupled by the rotation preventing part.

The sealing member is installed in the mounting part, it is formed to cover a part of the screw thread, and the inner diameter of the entry side of the variable hole is formed to expand toward the open side.

The contact block has a reinforcing plate in contact with the web of the H-beam, and the reinforcing plate is characterized in that the reinforcing plate is provided with a fluid guide for guiding the movement of the fluid when in contact with the web of the H-beam.

The fluid guide portion is provided with a magnetic force attachment portion attached to the web of the H-beam by magnetic force, and the magnetic attachment portion includes an installation groove formed in the fluid guide portion; and

and a magnetic force member embedded in the installation groove and mounted thereon.

The H-beam reinforcement having a corrosion-resistant structure according to the present invention is provided with a fluid blocking part to prevent rust, rainwater, snow, etc. from entering between the screw part of the adjustment shaft and the variable hole of the variable bracket. By providing a fluid guide portion on one side of the reinforcing plate to provide a space in which the fluid moves between the web of the H beam and the reinforcing plate, it has the effect of preventing corrosion.

In addition, according to the present invention, when assembling the adjustment shaft to the variable hole of the variable bracket, it is possible to prevent movement in the longitudinal direction of the sealing member by using the restraint portion.

In addition, the present invention can prevent the sealing member from rotating in the mounting portion of the adjustment shaft when assembling the adjustment shaft to the variable hole of the variable bracket using the rotation preventing portion.

In addition, the present invention can prevent rust on the reinforcement plate and the web by providing a fluid guide part on the reinforcement plate so that the fluid, such as rainwater, is discharged through the moving space part.

In addition, the present invention provides a magnetic attachment part on the reinforcing plate so that the H-beam reinforcing tool is temporarily attached to the H-beam web by magnetic force, and then the assembly operation can be easily performed.

1 is an exploded perspective view of an H-beam reinforcement having an anti-corrosion structure according to an embodiment of the present invention.
FIG. 2 is an assembled perspective view of FIG. 1 ;
3 is a cross-sectional view of an H-beam reinforcement having an anti-corrosion structure according to an embodiment of the present invention.
4 is a cross-sectional view of a main part of a fluid blocking part in the H-beam reinforcement having a corrosion-preventing structure according to an embodiment of the present invention.
5 is a partial exploded cross-sectional view of a fluid blocking part in the H-beam reinforcement having a corrosion-resistant structure according to an embodiment of the present invention.
6 is a cross-sectional view taken along line AA of FIG. 5 .
7 is a cross-sectional view sequentially illustrating a process of assembling an adjustment shaft to a variable hole in an H-beam reinforcement having a corrosion-resistant structure according to an embodiment of the present invention.

Hereinafter, an H-beam reinforcement having a corrosion-preventing structure according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is an exploded perspective view of an H-beam reinforcement having a corrosion-resistant structure according to an embodiment of the present invention, FIG. 2 is an assembled perspective view of FIG. 1, and FIG. 3 is a corrosion-resistant structure according to an embodiment of the present invention. 4 is a cross-sectional view showing the installation state of the H-beam reinforcement, FIG. 4 is a cross-sectional view of a fluid blocking part in the H-beam reinforcement having a corrosion-preventing structure according to an embodiment of the present invention, and FIG. 5 is corrosion according to an embodiment of the present invention. In the H-beam reinforcement having an anti-corrosion structure, a partial exploded cross-sectional view of the fluid blocking part, FIG. 6 is a cross-sectional view taken along line AA of FIG. 5, and FIG. 7 is an H-beam reinforcement having an anti-corrosion structure according to an embodiment of the present invention. , are cross-sectional views sequentially showing the process of assembling the adjustment shaft to the variable hole.

1 to 7 , the H-beam reinforcement having a corrosion-preventing structure according to an embodiment of the present invention includes a close contact block 100 , a variable bracket 200 , an adjustment shaft 300 , and a fluid blocking unit 400 . ) is included.

The close contact block 100 is inserted and installed in the groove of the H beam 100, and is configured as a pair facing each other.

A plurality of non-slip protrusions are formed on the surface of the contact block 100 in contact with the flange 140 of the H-beam reinforcing tool 10 . The non-slip protrusions are formed with sharp ends and are in contact with the flange 14 .

The variable bracket 200 is provided in the close contact block 100 and has a configuration in which a variable hole 210 is formed on one side. The variable hole 210 is a screw hole to which the screw thread 310 of the adjustment shaft 300 is fastened.

The adjustment shaft 300 is configured to adjust the spacing of the close contact block 100 by coupling the screw thread 310 to the variable hole 210 and opening or closing the variable bracket 200 to both sides through rotation. The threads 310 on both sides are respectively formed in opposite spirals.

A polygonal gripper may be provided at the center of the adjustment shaft 300 . When this gripper is attached to or separated from the flange 14 , the adjustment shaft 200 is rotated using a tool such as a spanner to open or close the pair of contact blocks 100 .

The fluid blocking unit 400 is configured to seal between the screw thread 310 of the adjustment shaft 300 and the variable hole 210 to prevent the inflow of fluid. By preventing the fluid from flowing into the screw thread 310 of the adjustment shaft 300 using the indwelling block part 400 , the adjustment shaft 300 cannot be separated or assembled in the variable hole 200 due to rust. can be solved

The fluid blocking part 400 is provided at both ends of the adjustment shaft 200, and is provided in the mounting part 410 and the mounting part 410 located adjacent to the screw thread 310, the screw thread 310 and the variable hole ( It includes a sealing member 420 for preventing the inflow of fluid between the 210).

The sealing member 420 is characterized in that the coupling position is constrained in the mounting portion 410 by the restraining portion (500).

The restraining part 500 is a restraining groove 510 recessed in the outer surface of the mounting part 410 or the inner surface of the sealing member 420 , and the inner surface of the sealing member 420 so as to be coupled to the restraining groove 510 . Alternatively, it includes a restraining protrusion 520 protruding from the outer surface of the mounting portion 410 .

The restraining groove 510 is formed to be deeply recessed on the outer surface of the mounting portion 410 , and the restraining protrusion 520 is illustrated and described as protruding from the inner surface of the sealing member 430 .

As the restraining protrusion 520 is inserted into the restraint groove 510 and bound, the sealing member 420 is adjusted when the screw thread 310 of the adjustment shaft 300 is fastened to the variable hole 210 of the variable bracket 200 . It is prevented from being pushed toward the center of the shaft 300 . Accordingly, the sealing member 420 is closely adhered to the inner surface of the variable hole 210 to effectively maintain airtightness, thereby preventing the inflow of fluids such as rainwater.

The sealing member 420 is characterized in that rotation is prevented in the mounting portion 410 when the adjustment shaft 200 and the variable bracket 200 are coupled by the rotation preventing portion 600 .

The anti-rotation part 600 is a rotation-preventing protrusion 610 extending from the restraining groove 510 to the outer diameter, and a rotation-preventing groove 620 formed in the restraining protrusion 520 so as to be coupled to the anti-rotation protrusion 610 ). includes

The sealing member 420 is installed on the mounting part 410 , and is formed to cover a part of the screw thread 310 . The inner diameter of the entry side of the variable hole 210 is characterized in that it is formed to expand toward the opening side.

The front side of the sealing member 420 is in contact with the entry portion of the variable hole 210 to form an entry limiting jaw 220 that restricts the entry of the sealing member 420 .

The entrance-side outer diameter of the sealing member 420 is formed with an inclined entrance guide surface 422 which is inclined so as to become narrower toward the end. The inclined entrance guide surface 422 reduces the collision of the true side of the sealing member 420 in the variable hole 210 as the radius of the true side is formed to be small, and thus guides the stable entry of the sealing member 420 .

A movement limiting protrusion 424 is formed on the outer surface of the sealing member 420 to be caught in the entry portion of the variable hole 210 . The movement limiting protrusion 424 is a region in which the radius is further expanded.

The close contact block 100 includes a reinforcing plate 150 in contact with the web 12 of the H beam 10 .

The reinforcing plate 150 is provided with a fluid guide 700 for guiding the movement of the fluid when in contact with the web 12 of the H beam 10 .

Two or more fluid guide parts 700 are formed to protrude to one side of the reinforcing plate 150 to have a moving space part 710 in which the fluid moves. The fluid guide part 700 protrudes from the reinforcing plate 150 toward the web 12 .

The moving space unit 710 is spaced apart from the web 12 of the H-beam 10, so that the H-beam 10 is installed at a construction site to provide a space through which fluid such as rainwater flows when it is reinforced with the web 12 By reducing the contact of the inner portion 710 of the fluid provided in the plate 150 as much as possible, rust is prevented from occurring at the contact portion.

The fluid guide part 700 is provided with a magnetic force attachment part 800 attached to the web 12 of the H beam 10 by magnetic force.

The magnetic attachment part 800 includes an installation groove part 810 formed in the fluid guide part 700 and a magnetic force member 820 embedded in the installation groove part 810 and mounted therein.

Hereinafter, with reference to the accompanying drawings, the action and effect of the H-beam reinforcement having a corrosion-preventing structure according to an embodiment of the present invention will be described.

First, the H-beam reinforcement having a corrosion-resistant structure according to the present invention is inserted into the groove of the H-beam 10 and attached to the web 12 using the magnetic member 820 provided in the reinforcement plate 150 .

Subsequently, when the control shaft 300 is rotated by turning the gripper, the screw threads 310 formed in opposite directions are rotated in the variable holes 210 of the variable bracket 200 to spread the contact block 100 to both sides, respectively. .

At this time, the sealing member 420 installed on the mounting part 410 of the adjustment shaft 300 is closely pressed against the entry limiting jaw 220 of the variable hole 210 to restrict entry, thereby maintaining airtightness. Accordingly, even if a fluid such as rainwater flows through the entry portion of the variable hole 210 , it blocks the inflow into the screw thread 310 to prevent rust. Accordingly, even if the H-beam reinforcing tool is installed outdoors and used for a long time, the adjustment shaft 300 can be safely protected from the variable hole 210 of the variable bracket 200, so that the H-beam reinforcing tool can be used for a long time.

In addition, since a fluid such as rainwater passes through the moving space 710 formed by the fluid guide 700 , it is possible to prevent rust from remaining between the web 12 and the reinforcing plate 150 . .

Therefore, the H-beam reinforcement having a corrosion-preventing structure according to an embodiment of the present invention includes a fluid blocking part to prevent rust, rainwater, snow, etc. from entering between the screw part of the adjustment shaft and the variable hole of the variable bracket and rust. . By providing a fluid guide portion on one side of the reinforcing plate to provide a space in which the fluid moves between the web of the H beam and the reinforcing plate, it has the effect of preventing corrosion.

In addition, in the present invention, when assembling the adjustment shaft to the variable hole of the variable bracket, the movement in the longitudinal direction of the sealing member can be prevented by using the restraint part. In addition, the present invention uses the rotation preventing portion to attach the adjustment shaft to the variable bracket of the variable bracket. When assembling in the variable hole, it is possible to prevent the sealing member from rotating in the mounting portion of the adjustment shaft.

In addition, the present invention can prevent rust on the reinforcement plate and the web by providing a fluid guide part on the reinforcement plate so that the fluid, such as rainwater, is discharged through the moving space part. In addition, in the present invention, the reinforcing plate is provided with a magnetic attachment part so that the H-beam reinforcing tool is temporarily attached to the H-beam web by magnetic force, and then the assembly operation can be easily performed

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely an example, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

10: H Beam 12: Web
14: flange 100: close contact block
200: variable bracket 210: variable hole
220: entry limiting sill 300: adjustment shaft
310: Nissasan 400: fluid blocking part
410: mounting part 420: sealing member
422: inclined entrance guide surface 424: movement restriction protrusion
500: restraint part 510: restraint groove part
520: restraint protrusion 600: anti-rotation part
610: anti-rotation groove 620: anti-rotation protrusion
700: fluid guide part 710: moving space part
800: magnetic attachment part 810: installation groove part
820: magnetic member

Claims (8)

Adhering blocks are inserted into the grooves of the H-beam and formed as a pair of facing each other;
a variable bracket provided in the close contact block and having a variable hole formed on one side thereof;
an adjustment shaft having a screw thread coupled to the variable hole and adjusting the spacing between the close contact blocks by opening or closing the variable bracket to both sides through rotation; and
Including; and a fluid blocking part sealing between the screw thread of the adjustment shaft and the variable hole to prevent the inflow of fluid;
The fluid blocking unit,
a mounting portion provided at both ends of the adjustment shaft and positioned adjacent to the screw thread; and
It includes; a sealing member provided in the mounting portion and preventing the inflow of fluid between the screw thread and the variable hole;
The sealing member is a H-beam reinforcement having a corrosion-preventing structure, characterized in that rotation is prevented in the mounting portion when the adjustment shaft and the variable bracket are coupled by the rotation preventing portion.
delete The method of claim 1,
The sealing member is H-beam reinforcement having a corrosion-resistant structure, characterized in that the coupling position is constrained in the mounting portion by the restraining portion.
4. The method of claim 3,
The constraint is
a restraining groove formed recessed in an outer surface of the mounting part or an inner surface of the sealing member; and
Constraint protrusions protruding from the inner surface of the sealing member or the outer surface of the mounting part so as to be coupled to the restraining groove portion;
H-beam reinforcement having an anti-corrosion structure, characterized in that it comprises.
delete The method of claim 1,
The sealing member is installed in the mounting portion, is formed to cover a part of the screw thread,
H-beam reinforcement having a corrosion-resistant structure, characterized in that the inner diameter of the entry side of the variable hole is formed to expand toward the open side.
The method of claim 1,
The close contact block is provided with a reinforcing plate in contact with the web of the H beam,
H-beam reinforcement having a corrosion-resistant structure, characterized in that the reinforcing plate is provided with a fluid guide for guiding the movement of the fluid when in contact with the web.
8. The method of claim 7,
The fluid guide portion is provided with a magnetic force attachment portion attached to the web of the H-beam by magnetic force,
The commercial magnetic attachment part,
an installation groove formed in the fluid guide part; and
a magnetic member embedded in the installation groove and mounted thereon;
H-beam reinforcement having an anti-corrosion structure, characterized in that it comprises.

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