KR101176846B1 - Structure for reinforcing proof stress of girder - Google Patents

Abstract

PURPOSE: A building having a structure for reinforcing the internal force of a girder is provided to improve structural stability by effectively treating the sagging and bending stress of a reinforcing girder. CONSTITUTION: A building having a structure for reinforcing the internal force of a girder comprises multiple posts, mounting brackets, a reinforcing girder(30), gerber joints, a concrete slab, height adjusting units, anchorages(70), and a reinforcing member(80). The posts are buried in the ground. The mounting brackets are connected to the posts. Mounting parts(31) are formed on both ends of the reinforcing girder. The gerber joints join the mounting brackets to the mounting parts of the reinforcing girder. The concrete slab is placed on the top of the reinforcing girder and is cured. The height adjusting units are connected to the posts and the mounting brackets and adjust the heights of the mounting brackets. The anchorages are formed on both ends of the posts and the reinforcing girder. The reinforcing member is arranged along the longitudinal direction of the reinforcing girder to increase the internal force of the reinforcing girder and is connected to the anchorages.

Description

STRUCTURE FOR REINFORCING PROOF STRESS OF GIRDER}

The present invention is generated in the reinforcement girder by increasing the strength of the reinforcement girder by applying a resistance in the upper direction to the load acting on the reinforcement girder is mounted along the longitudinal direction of the reinforcement girder is connected to the support or reinforcement girders It is possible to effectively cope with the bending stress and deflection, thereby improving the structural stability of the structure, and further it is possible to achieve a long span by extending the span between the reinforcement girders.

In general, a structure rigidly formed as a horizontal member and a vertical member, also known as a ramen type structure, refers to a structure in which a sub-moment (-M) occurs at the junction of a column and a positive moment (+ M) occurs at the center of the beam.

In the case of a ramen-type structure, the space length is only about 7m to prevent the vibration and deflection of the beam, so the utilization space becomes narrow.

In order to reduce the deflection of the structure and increase the strength in view of such a problem, Patent Registration No. 10-481006 (hereinafter referred to as 'prior art'). "Ramen type structural girders and building construction using the same Method ".

In the prior art, in the form of a ramen structure in which a sub-moment is generated at the junction with the column and a positive moment is generated at the center of the beam,

In the minor moment section, it is an I-shaped cross section member with an open cross section, and in the positive moment section, it is a box cross-section member formed with a rectangular box cross section, which is a closed cross section, of the I-shaped lower flange section, and the box cross section is moved downward near the moment M = 0. The box end face member is characterized in that it is integrated by a joining means such as welding in a state of facing the I-shaped end face member.

However, the prior art is a box cross-section member is introduced in the middle of the beam to install a box cross-section member on the beam, or when manufacturing the box cross-section member, it is uneconomical because it consumes a lot of time and manpower,

In addition, there is a limit in preventing the deflection of the beam only by the box cross-section member is not actually applied.

The present invention has been made to solve the above problems,

Bending stress generated in reinforcement girder by increasing the strength of reinforcement girder by applying the upward force against the load acting on the reinforcement girder by connecting the reinforcement in tension with the support or reinforcement girder along the longitudinal direction of the reinforcement girder. However, it can effectively cope with the deflection, thereby increasing the structural stability of the structure, and also to achieve a long span by extending the span between the reinforcement girders.

In addition, the present invention can reduce the height or dance of the beam to reduce the floor height in the ground, as well as to reduce the amount of excavation in the underground, it is possible to create a column-free work without pillars in the space It is possible to construct and use the space efficiently, thereby reducing the cost of steel, thereby reducing the construction cost, the shortening of the air for the construction of the workpiece, and to ensure the workability and quality is another purpose.

The present invention is provided with a height adjustment means that can adjust the height of the upper and lower floors of the building or structure, it is possible to design and construct according to the use characteristics of the building or structure, such that economical construction that can meet the purpose of use For the purpose of.

The present invention is provided with a positioning tool for the height adjustment means prior to the fastening of the fixed bracket connected to the mounting bracket to the strut with high-strength bolt, to determine the installation position in advance, it is possible to accurately fix the fixed bracket to the installation position The height adjustment work is made easily, and the fixing bracket is fixed in the installed state, and the high-strength bolt makes the fastening work easier and easier to increase the work efficiency.

According to the present invention, the reinforcement girder is composed of a first girder positioned at both ends and a second girder positioned at the center of the reinforcement girder, and according to the moment distribution applied to the reinforcement girder, the height of the second girder is relatively small. Another object of the present invention is to reduce the weight of the center of the reinforcement girder by preventing the girder from being lowered by the height of the girder, thereby preventing sagging due to its own weight, and further reducing the loss of unnecessary members, thereby improving economic efficiency.

The present invention is to introduce a reinforcing plate at the junction of the first girder and the second girder to transfer and distribute the stress concentrated in the junction of each girder to the first girder to increase the bond strength between each girder to extend the durability of the structure It is another purpose.

The workpiece having the strength-bearing structure of the beam according to the present invention includes: a plurality of struts embedded in the ground and arranged at mutually corresponding positions; Mounting brackets connected to the respective shores; Reinforcement girders provided with a mounting portion formed on both ends; A gerber joint for joining the mounting bracket and the mounting portion of the reinforcement girder; Concrete slab which is poured and cured on top of the reinforcement girder; Height adjusting means connected to the support and the mounting bracket to adjust a height of the mounting bracket; Fixtures provided at both ends of the respective struts or the reinforcement girder; And a reinforcing member connected to each of the anchorages in a tensioned state and arranged in a straight line along the longitudinal direction of the reinforcing girder to increase the strength of the reinforcing girder.

In addition, the height adjusting means according to the present invention is fixed to the holding and formed in the support, the plurality of fastening holes arranged in the up and down direction, connected to the upper and lower flanges of the mounting bracket, the corresponding fastening hole corresponding to the fastening hole It comprises a bracket and a high-strength bolt is inserted through each of the fastening holes and fastened by a fastening nut,

The height adjusting means is characterized in that it is further provided with a positioning tool for determining the installation position of the fixing bracket.

In addition, the positioning tool according to the present invention is connected to the fixing member of the rectangular frame shape, each corner of the fixing member, the positioning projection protruding through the fastening hole of the support, connected to the fixing member, the positioning projection It comprises a separating member protruding to the opposite side of,

The positioning protrusions are inserted into the corresponding fastening holes of the respective fixing brackets to fix the positions of the respective fixing brackets.

The reinforcement girder according to the present invention includes a first girder arranged at both ends and connected to an inner end of each of the first girders, and a second girder having a lower height than the first girder. It is characterized by.

Bonding plates for connecting the inner end of each of the first girder and both ends of the second girder according to the present invention is further provided,

It is further connected to the outer surface of the joining plate, the upper surface of the lower flange of the first girder inclined form, further provided with a reinforcing plate for dispersing the stress concentrated on the junction between the first girder and the second girder It is characterized by.

The anchorage of the reinforcement girder according to the present invention is a support plate connected to one side or both sides of the web of the reinforcement girder, and is connected to the outer surface of the support plate, the reinforcement is inserted and the reinforcement is fixed by the coupler It characterized in that it comprises a first support and a second support connected to the outer surface of the support plate, connected to the inner surface of the first support and arranged on the upper and lower portions of the reinforcement.

Workpiece having a strength-bearing structure of the beam according to the present invention is reinforced by the reinforcement connected to the support or reinforcement girders in the tensioned state along the longitudinal direction of the reinforcement girder by applying a resistance in the upper direction to the load acting on the reinforcement girder By increasing the strength of the girder, it is possible to effectively cope with the bending stress or deflection generated in the reinforcement girder, thereby increasing the structural stability of the structure, and also extending the span between the reinforcement girders. It can be achieved.

In addition, the present invention can reduce the height or dance of the beam to reduce the floor height in the ground, as well as to reduce the amount of excavation in the underground, it is possible to create a column-free work without pillars in the space Since it is possible to construct, the space can be used efficiently, thereby reducing the cost of steel, thereby reducing the construction cost, shortening the air for the construction of the work, and ensuring the workability and quality.

The present invention is provided with a height adjusting means can adjust the height of the upper and lower floors of the building or structure, it is possible to design and construct according to the use characteristics of the building or structure, so that the economical construction to meet the purpose of use.

The present invention is provided with a positioning tool for the height adjustment means prior to the fastening of the fixed bracket connected to the mounting bracket to the strut with high-strength bolt, to determine the installation position in advance, it is possible to accurately fix the fixed bracket to the installation position The height adjustment work is made easily, and the fixing bracket is fixed in the installed state, so that the tightening work is made easier and easier by the high tension bolt, thereby improving the work efficiency.

According to the present invention, the reinforcement girder is composed of a first girder positioned at both ends and a second girder positioned at the center of the reinforcement girder, and according to the moment distribution applied to the reinforcement girder, the height of the second girder is relatively small. By lowering the height of the girder, the weight of the center of the reinforcement girder can be reduced to prevent sagging due to its own weight, and the economic efficiency can be improved by reducing the loss of unnecessary members.

The present invention is to introduce a reinforcing plate at the junction of the first girder and the second girder to transfer the stress concentrated at the junction of each girder to the first girder to disperse the bond strength between each girder to increase the durability of the structure It becomes possible.

1 and 2 are a perspective view, a front view and a moment distribution diagram showing the reinforcement girder of the structure having a strength-bearing structure of the beam according to the present invention,
3 and 4 are a perspective view showing a structure having a strength-bearing structure of the beam according to the present invention,
5 to 7 is a partial exploded view and coupling of the structure having a strength-bearing structure of the beam according to the present invention,
8 is a perspective view showing a positioning tool of a structure having a strength-bearing structure of the beam according to the present invention;
9 and 10 are conceptual views showing an application example of a workpiece having a strength-bearing structure of the beam according to the present invention.

Hereinafter, a workpiece having a strength-bearing structure of a beam according to the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 7 the workpiece having a strength-bearing structure of the beam according to the present invention

A plurality of struts 10 embedded in the ground and arranged at mutually corresponding positions; Mounting brackets 20 connected to the respective pillars 10; Reinforcement girder 30 having a mounting portion 31 formed on both ends; A gerber joint 40 for joining the mounting bracket 20 and the mounting portion 31 of the reinforcement girder 30; Concrete slab (50) to be poured and cured on top of the reinforcement girder (30); Height adjusting means (HC) connected to the support (10) and the mounting bracket (20) to adjust the height of the mounting bracket (20); Fixtures (70) provided at both ends of each support (10) or the reinforcement girder (30); And a reinforcing member 80 connected to each of the fixing devices 70 in a tensioned state and arranged in a straight line along the longitudinal direction of the reinforcing girder 30 to increase the strength of the reinforcing girder 30. .

3 to 7, in the workpiece having the strength-bearing structure of the beam according to the present invention, the support 10 is

Columns of buildings or various structures, the lower part of which is buried in the ground or underground, arranged vertically.

The support 10 may be made of 'I or H' steel, or may be manufactured by pouring and curing concrete in reinforcing bars (F) or 'I or H' steel as described above,

In addition to this, various forms or well-known construction methods can be applied.

And the support (10) is composed of a pair in a position corresponding to each other, each of the support (10) mounting bracket 20 is connected,

At this time, the mounting bracket 20 may be introduced by the joining method or the fastening method by the high tension bolt (B), such as by welding with the support (10),

However, when the height adjustment means (HC) to be described below, it is preferable to introduce a fastening method by bolts to ensure its functionality.

1 to 7, in the workpiece having the strength-bearing structure of the beam according to the present invention, the mounting bracket 20 is

It is provided at a position corresponding to each support 10, it is connected to the mounting portion 31 of the reinforcement girder 30 by a Gerber joint (40).

The mounting bracket 20 is installed on the upper portion of the support 10,

In addition, since the mounting bracket 20 is connected to both ends of the reinforcement girder 30 and should be arranged in a horizontal direction, the mounting brackets 20 are installed to correspond to the same positions of the respective posts 10.

And the mounting bracket 20 is used the beam of the 'I' section,

The mounting bracket 20 is connected to both the outer surface of each flange, both sides of the web when the pillar 10 is an 'I or H' steel, or optional in consideration of the installation position of the pillar 10 in each structure It is preferable to be connected to.

In addition, the mounting bracket 20 and the support 10 may be a welding method or a fastening method by a high tension bolt (B) as described above,

In particular, when the fastening method by the high tension bolt (B) is introduced, it is possible to introduce the height adjusting means (HC) to adjust the installation position of the mounting bracket 20 in the up and down direction in the support (10).

First, as shown in "A" of Figure 5, the height adjusting means (HC) is coupled to the upper and lower portions of the connecting portion of the support 10 and the mounting bracket 20 to adjust the height of the mounting bracket 20 It is

The height adjusting means (HC) for this

A plurality of fastening holes 11 formed on the support 10 and arranged in the vertical direction;

A fixing bracket 23 connected to the upper and lower flanges of the mounting bracket 20 and having a corresponding fastening hole 25 corresponding to the fastening hole 11;

Inserted through each of the fastening holes (11) comprises a high-tensile bolt (B) is fastened and fixed by the fastening nut (N).

That is, the fastening hole 11 is formed in a plurality of up and down directions in each of the flanges and the web of the support 10 to which the mounting bracket 20 is connected,

The fixing bracket 23 is made of a 'b' shape is bonded to the upper and lower flanges of the mounting bracket 20 by welding, or fastened by a high tension bolt (B).

Therefore, after determining the installation position, that is, the installation height of the mounting bracket 20,

The high tension bolt B is inserted into the fastening hole 11 of the support 10 and the corresponding fastening hole 25 of the fixing bracket 23 corresponding to the fastening hole 11 at the corresponding position. B) is fastened and fastened with a fastening nut (N) to fix the mounting bracket 20 having a height adjustment to the support 10.

The height adjustment means (HC) as described above by adjusting the height of the mounting bracket 20 to adjust the height of the building, structure, etc. according to the purpose or characteristics of use more rational, optimized design and construction possible Let's do it.

5 is another modification of the height adjusting means HC according to the present invention, the fixing bracket 23 is bonded by welding to the end portion of the mounting bracket 20,

In addition, the fixing bracket 23 has a corresponding fastening hole 25 corresponding to the fastening hole 11 of the support 10 is formed by the high-tightening bolt (B) as described above the height of the mounting bracket ( 20) is fixed to the support (10).

However, the mounting bracket 20 and the fixing bracket 23 which is connected to this to form a combined body are all made of steel, its weight is considerable,

Therefore, after lifting the combination of such a weight using an operator or special equipment, the task of fixing the correct position in the correct position will not only be easy, but also a risky operation.

Therefore, as shown in FIG. 8, in order to solve this problem, the height adjusting means HC further includes a positioning tool 90 for determining an installation position of the fixing bracket 23.

This is because by arranging the positioning tool 90 in a pre-installed position, the assembly of the mounting bracket 20 and the fixing bracket 23 is fixed to the positioning tool 90 to be fastened to the strut 10 by height. Adjustments are made at once,

In addition, the fastening operation by the high tension bolt (B) is also easy and easy to increase the work efficiency, it is also possible to ensure the safety of the worker.

The positioning tool 90 for this is a fixed member 91 of the rectangular frame shape,

A positioning protrusion 93 connected to each corner of the fixing member 91 and protruding through the fastening hole 11 of the support 10;

And a separating member 95 connected to the fixing member 91 and protruding to the opposite side of the positioning protrusion 93.

That is, the fixing member 91 of the positioning tool 90 is preferably made of a rectangular or rectangular shape,

In addition, the mounting distance of the positioning projections 93 connected to the upper and lower portions of the fixing member 91 is mounted in the state where the positioning projections 93 protrudes through the fastening hole 11 of the support 10. The distance enough to be inserted into any corresponding fastening hole 25 of the fixing bracket 23 located on the upper and lower portions of the bracket 20 is to be maintained.

Therefore, after determining the installation position of the combination of the mounting bracket 20 and the fixing bracket 23, the fastening hole of the support 10 corresponding to the determined position of the positioning projection 93 of the positioning tool 90 Insert into 11,

The fastening holes 25 of the respective fixing brackets 23 are inserted into the positioning protrusions 93 to fix the assembly in the installed state.

In this state, after inserting the high tension bolt B through the fastening hole 11 and the corresponding fastening hole 25 into which the positioning protrusion 93 is not inserted, the fastening nut N is fastened to fix the assembly. ,

In this state, the fastening hole 11 is separated from the fastening hole 11 into which the positioning projection 93 of the positioning tool 90 is inserted and the corresponding fastening hole 25, and then the fastening hole into which the positioning projection 93 is inserted ( 11) After inserting the high tension bolt (B) through the corresponding fastening hole (25), by tightening the fastening nut (N) it is possible to completely secure the assembly to the support (10).

In this case, when the separating member 95 inserts the positioning tool 90 into the fastening hole 11 of the support 10,

Or after fixing the assembly to the support (10), when separating the positioning tool (90) handling of the positioning tool (90) by allowing the operator to grasp the separation member 95 to perform the work This becomes more convenient.

On the other hand, the positioning tool 90 is preferably made of a pair of two places,

This is because the support 10 is made of 'I' or 'H' section steel, the fastening holes 11 are formed symmetrically between the web of the support 10,

Therefore, the positioning tool 90 must be installed on both sides with respect to the web of the support (10) because it is possible to stably support the fixing bracket (23).

In addition, although not shown in the accompanying drawings, it is also possible to form one positioning tool so as to correspond to the fixing bracket located above or below.

In this case, the positioning tool is a pair of four places, in addition to this can be modified and changed in various forms.

In addition, when the fixing bracket is located between the upper and lower flanges of the mounting bracket as shown in 'B' of FIG. 5, it is possible to manufacture and use the length of the positioning tool so as to correspond thereto.

If necessary, the fixing member itself may be formed to be adjustable in length to cope with more various cases.

In addition, a plurality of first connecting holes 21 are formed at one end of the mounting bracket 20, that is, the web of the end portion connected by the mounting portion 31 and the gerber joint 40.

1 to 7 in the workpiece having the strength-bearing structure of the beam according to the present invention, the reinforcement girder 30 is

Both ends are connected to the mounting bracket 20 by the gerber joint 40 to form a beam of the structure.

The reinforcement girder 30 is made of 'I' or 'H' shaped steel flanges are formed at the top and bottom of the web, respectively,

Mounting portions 31 are formed at both ends of the reinforcement girder 30, and the mounting portion 31 is provided with second connection holes 31 a formed in the web of the reinforcement girder 30.

On the other hand, the reinforcement girder 30 is configured to have a different height at both ends and the center so as to have a side surface portion,

First, the reinforcement girders 30 are arranged at both ends, and are connected to the first girder 33 having the respective mounting portions 31 and the inner ends of the first girder 33, and the first girder 33. It comprises a second girder 35 having a height lower than).

As shown in FIG. 2, in the case of steel or steel beams applied to a building structure as shown in FIG. 2, as shown in FIG. 2, both ends of the beam act as a parent moment in which the upper surface of the beam is tensioned. At the center of the beam, positive moment acts as the bottom of the beam is tensioned.

At this time, the parent moment at both ends of the beam is about 1.5 times larger than the static moment at the center of the beam.

In other words, the moment distribution of beams in ordinary building structures is greater at both ends than the center of beams.

Therefore, if both ends and the center height of the beam is made the same as in the prior art, the weight of the center of the beam is unnecessarily increased, thereby increasing the deflection of the beam.

In addition, there is a problem that brings economic losses as unnecessary members are added to the center of the beam.

In the present invention, the reinforcement girder 30 is composed of the first and second girders 33 and 35, the height of the second girder 35 is formed lower than the height of the first girder 33 Reduce waste of unnecessary parts in the center of the beam,

In addition, by reducing the weight in the center of the beam it can be prevented to increase the deflection of the beam due to the self weight of the beam, that is, fixed load or dead load.

Furthermore, the joints of the first and second girders 33 and 35 of the reinforcement girder 30

Joining plates 37 for connecting the inner end of each of the first girder 33 and both ends of the second girder 35,

A stress that is connected to the outer surface of the joining plate 37 and the upper surface of the lower flange of the first girder 33 in an inclined form, and is concentrated at the joining portion of the first girder 33 and the second girder 35. Reinforcing plate 39 for dispersing is provided.

That is, the joining plate 37 is first joined to the inner end of each of the first girder 33 by a welding method,

Both ends of the second girder 35 are joined to the inner surface of the joining plate 37 by a welding method so that the first and second girders 33 and 35 are interconnected by the joining plate 37. do.

The inner surface of the reinforcing plate 39 is welded to the web side of the first girder 33 in an inclined manner, and the lower end is welded to the upper surface of the lower flange of the first girder 33. The outer surface of the joining plate 37 is welded and joined.

In particular, the reinforcing plate 39 is distributed by the first girder 33 to distribute the stress concentrated in the junction between the first girder 33 and the second girder 35 to increase the bonding strength between each girder Can extend the durability,

In addition, it can effectively resist the deflection of the beam by doubling the strength of the beam.

In the workpiece having the strength-bearing structure of the beam according to the present invention as shown in Figures 3 to 7, the Gerber Joint 40 is

By connecting the mounting bracket 20 and the mounting portion 31 of the reinforcement girder 30 it is possible to reduce the amount and cross section of the steel frame.

The gerber joint 40 has a plurality of first connection holes 21 of the mounting bracket 20 and corresponding connection holes 41 corresponding to the second connection holes 31a of the mounting portion 31. ,

After inserting the high tension bolt B through the first and second connection holes 21 and 31a and the corresponding connection hole 41,

The fastening nut (N) is fastened to the high tension bolt (B) to connect the mounting bracket 20 and the mounting portion 31.

In addition, the joint portion by the Gerber joint 40 is optimized by controlling the distribution of the bending moment at the joint portion in accordance with the moment distribution by the reinforcement girder 30 to enable a rational beam design.

In the workpiece having the strength-bearing structure of the beam according to the present invention as shown in Figure 3, the concrete slab 50 is

After the reinforcement girder 30 is connected to the mounting bracket 20 by the gerber joint 40, it is formed by pouring concrete and curing.

First, before constructing the concrete slab 50 in the field, the deck slab (not shown) on each of the reinforcement girder 30 adjacent to each other after the reinforcement girder 30,

Concrete is poured on top of the deck slab and cured to form a concrete slab 50.

1 to 7, in the workpiece having the strength-bearing structure of the beam according to the present invention, the anchorage 70 is

It is provided on both ends of each support 10 or the reinforcement girder 30, the reinforcement 80 is mounted, and serves to maintain the tension of the reinforcement (80).

First, when the fixing unit 70 is connected to both ends of the reinforcement girder 30

A support plate 71 connected to one side or both sides of the web of the reinforcement girder 30;

A first support member 73 connected to an outer surface of the support plate 71 and having the reinforcement material 80 inserted therein to fix the reinforcement material 80 by the coupler 77;

It is connected to the outer surface of the support plate 71, and is connected to the inner surface of the first support (73) comprises a second support (75) arranged on the upper and lower portions of the reinforcing material (80) .

That is, the first support 73 of the anchoring device 70 is connected to the support plate 71 perpendicular to the coupling hole 73a for inserting the reinforcing material 80 is formed,

After the reinforcing material 80 is inserted into the coupling hole 73a, a coupling hole 77 for fixing the reinforcing material 80 is inserted into an end of the reinforcing material 80 to thereby reinforce the reinforcing material 80 to the first supporter 73. ) Can be fixed.

And the second support 75 is connected side by side in the horizontal direction to the inner surface of the first support (73),

This is because the reinforcement 80 must be maintained in a tensioned state in order to increase the strength of the reinforcement girder 30, the first support 73 to which the reinforcement 80 is connected is subjected to a compressive force by the reinforcement 80,

Therefore, the second support 75 serves to reinforce the strength of the fixing unit 70 by supporting and supporting the first support 73.

Next, although not shown in the accompanying drawings, when the fixing unit is connected to each post

Coupling holes into which the reinforcement is inserted are formed in the upper portions of the struts arranged at the corresponding positions,

After the reinforcing material is inserted into the coupling hole, the coupler is fastened to the end of the reinforcing material to fix the reinforcing material to the fixing unit.

1 to 7, in the workpiece having the strength-bearing structure of the beam according to the present invention, the reinforcement 80 is

It is connected to the fixing unit 70 in a tensioned state, arranged in a straight line along the longitudinal direction of the reinforcement girder 30 serves to increase the strength of the reinforcement girder 30.

First, the reinforcing material 80 is a steel wire, or steel such as steel is introduced,

The reinforcing material 80 is mounted to the fixing unit 70 is connected to the reinforcing girder 30,

The reinforcement 80 is connected in a tensioned state to support the reinforcement girder 30 to enhance the strength of the reinforcement girder 30.

In this case, the reinforcing material 80 is located in the lower direction than the center of the second girder in the horizontal direction,

Therefore, the reinforcement member 80 in a tense state is to increase the strength of the reinforcement girder 30 because the form of the prestress is applied by providing an upward force to the reinforcement girder 30.

That is, the reinforcement girder 30 has a working load, that is, a live load, a fixed load or a dead load, the upper part of the reinforcement girder 30 is a compressive stress, the lower end of the reinforcement girder 30, the tensile stress is applied,

At this time, the reinforcing material 80 is maintained in a tensioned state to retain the resistance to the working stress applied to the reinforcement girder (30).

Therefore, the reinforcing material 80 increases the strength of the reinforcement girder 30 so that the bending moment acting on the reinforcement girder 30 and the reinforcement girder 30 can effectively resist the deflection, thereby increasing the durability of the structure. And stability can be ensured.

And the reinforcement girder 30 is provided with a plurality of support plate 32 of the form of a plate perpendicularly connected to the upper and lower flanges and the web,

The support 32 is connected to the reinforcement 80 to serve to transmit the resistance of the reinforcement 80 to the reinforcement girder 30.

The workpiece according to the present invention can be applied to various types of structures,

Hereinafter, a case where it is applied to a parking lot as shown in FIGS. 9 and 10 will be described.

That is, the reinforcement girder used for the parking lot is arranged between the parking passage and the parking space (G1, G2 in FIG. 3), and uses a TSC having a maximum height of 50 cm,

The minimum width of the parking passage is 6m, but it is secured to 7m to ensure safety when moving and parking.

And the parking passage and the parking space is laid deck slab (D1, D2 in Fig. 3) of height 20cm, and the concrete slab is poured on it,

At this time, even if the deck slab is laid to ensure the minimum thickness of the bottom plate is helpful for durability and sound insulation effect,

For example, if the top of the deck slab is installed 2.5cm lower than the top of the reinforcement girder, the bottom thickness, that is, the minimum thickness of the concrete slab is secured 7.5cm.

In addition, if the width of the parking passage is 7m and the parking space is designed to 4.5m, the floor space of the parking space becomes uneconomical when the deck slab is applied equally.

This is because the bending moment is proportional to the square of the floor length and the legal loading load of the parking passage is larger than the parking space.

Therefore, in order to solve this problem, it is possible to solve the problem as described above by placing the reinforcing bar in the deck slab of the 7m section.

And it is preferable that the workpiece according to the present invention is limited to a height of 8m or less to be classified as a workpiece in the building law as mentioned in the background art to avoid the provision to the building according to the building law,

Therefore, the maximum height of each floor is formed at 2650, 2650, 2700mm from the lower floor so that the total height of the workpiece is 8m or less, thereby avoiding the provision of building construction according to the building code.

In the above description with reference to the accompanying drawings illustrating a structure having a strength-bearing structure of the present invention, the present invention mainly described in a specific shape and direction, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications It should be construed as being included in the scope of the present invention.

B: High tension bolt N: Tightening nut
HC: Height adjusting means
10: holding 11: fastener
20: mounting bracket 21: first connection hole
23: fixing bracket 25: fastener
27: first coupling hole
30: reinforcement girder 31: mounting portion
31a: first connection hole 32: support
33: first girder 35: second girder
37: bonded plate 39: reinforcement plate
40: Gerber joint 41: counterpart
50: concrete slab
70: anchorage 71: support plate
73: first support 73a: coupling hole
75: second support 77: coupling
80: reinforcement
90: positioning tool 91: fixing member
93: positioning projection 95: separating member

Claims (4)

A plurality of struts embedded in the ground and arranged at mutually corresponding positions;
Mounting brackets connected to the respective shores;
Reinforcement girders provided with a mounting portion formed on both ends;
A gerber joint for joining the mounting bracket and the mounting portion of the reinforcement girder;
Concrete slab which is poured and cured on top of the reinforcement girder;
Height adjusting means connected to the support and the mounting bracket to adjust a height of the mounting bracket;
Fixtures provided at both ends of the respective struts or the reinforcement girder; And
Is connected to each of the anchorage in a tensioned state, arranged in a straight line along the longitudinal direction of the reinforcement girder reinforcement for enhancing the strength of the reinforcement girder;

The height adjusting means
A plurality of fastening holes formed in the support and arranged in up and down directions, fixed brackets connected to upper and lower flanges of the mounting bracket and having corresponding fastening holes corresponding to the fastening holes, and inserted through the fastening holes. It consists of a high-tension bolt which is fastened and fastened by a fastening nut,
The height adjusting means is further provided with a positioning tool for determining the installation position of the fixing bracket,

The positioning sphere
A holding member having a rectangular frame shape, a positioning protrusion connected to each corner of the fixing member and protruding through the fastening hole of the support, and a separating member connected to the fixing member and protruding to the opposite side of the positioning protrusion. And a positioning protrusion is inserted into a corresponding fastening hole of each of the fixing brackets to fix the position of each of the fixing brackets. The method of claim 1, wherein the reinforcement girder
A first girder arranged at both ends and provided with the respective mounting portions;
And a second girder connected to the inner end of each first girder, the second girder having a lower height than the first girder. The method of claim 2,
Bonding plates for connecting the inner end of each of the first girder, both ends of the second girder is further provided,
It is further connected to the outer surface of the joining plate, the upper surface of the lower flange of the first girder inclined form, further provided with a reinforcing plate for dispersing the stress concentrated on the junction between the first girder and the second girder Structure having a strength-bearing structure of the beam, characterized in that. According to any one of claims 1 to 3, wherein the anchorage of the reinforcement girder
A support plate connected to the web side of the reinforcement girder;
A first supporter connected to an outer surface of the support plate, the reinforcement being inserted to fix the reinforcement by a coupler;
And a second supporter connected to an outer surface of the support plate and connected to an inner surface of the first supporter and arranged at upper and lower portions of the reinforcing material.

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