KR100954209B1 - Beam structure - Google Patents

Abstract

PURPOSE: A beam structure is provided to support a horizontal structure even if design errors or construction errors are existed, and to enable a user to confirm the state of the beam structure. CONSTITUTION: A beam structure(100) comprises a fixed module(130) and a H-beam(110). The fixed module is movably coupled to the H-beam, and is fixed to the ground or a building structure. The fixed module comprises a base plate(140) and a pair of support plates(150). The base plate is fixed to the ground or the building structure. The support plates are separated from each other to be inserted between the H-beam.

Description

Beam structure

The present invention relates to a beam structure, and more particularly, to a beam structure capable of grasping the amount of movement when the beam is installed, as well as improving the verticality of the beam.

The beam structure subjected to the vertical force transmits the load of the upper portion to the ground and performs the function of supporting the load of the upper portion, and is widely used in plant structures as well as building structures and civil structures. If the verticality is not secured in the beam structure, there is a risk of collapse of the vertical foundation, lifting of some pier in the continuous section of the structure, and distortion of the structure in the continuous section.

Conventionally, by fixing a base plate on which vertical beams, such as H beams, are fixed to anchor bolts embedded in base concrete, the vertical beams are fixed to the ground to secure basic verticality. And, a horizontal structure is mounted between the vertical beams, and from this point on, the verticality of the vertical beams becomes virtually meaningless. This will be described in more detail as follows.

While passing through the horizontal structure, when the distance between the vertical beams is shorter than the horizontal structure, the vertical structures are pushed apart by forcing the horizontal structure to be spaced apart. In addition, when the distance between the vertical beams is shorter than the horizontal structure, the vertical beams of both sides are 'pulled' to mount the horizontal structure. However, in any of the above cases, since the verticality of the vertical beams deteriorates, stress is generated between the vertical beams and the base plate, and the stress is transmitted to the foundation concrete, thereby increasing the possibility of breakage of the beam structure. There is a problem.

It is an object of the present invention to provide a beam structure capable of not only improving the verticality of the beam but also identifying the amount of movement when the beam is installed.

The present invention is a vertical beam, a fixed module coupled to the position change within the set adjustment range along the left and right direction and the beam, and a fixed module fixed to the ground or building structure, and the temporary coupling position of the beam and the fixed module and The present invention provides a beam structure including movement amount display means for displaying a relative movement amount between a coupling position between the beam and the fixed module after a time elapses.

In the present invention, the fixing module may be coupled to the ground or the building structure so that the position can be changed within a set adjustment range with respect to the front-rear direction or the rotational direction. In addition, the fixing module may have fixing slots in which anchor bolts fixed to the ground or the building structure are inserted and fixed. In this case, the fixing slots are formed to extend in the front and rear directions, or extend in the rotation direction with the same concentric circles.

In addition, in the present invention, the movement amount display means, the first marker is installed on the beam, the scale of the set shape is displayed, and the scale installed on the fixed module, the scale corresponding to the first marker is displayed It may include a second marker.

In addition, in the present invention, the beam may be an H beam. The fixing module may include a base plate fixed to the ground or the building structure, and a pair of support plates integrally fixed to an upper surface of the base plate and spaced apart from each other such that the web of the H beam is inserted therebetween. do. Coupling slots extending in the left and right directions are formed in the support plates, and through holes are formed in the web of the H beam, and the H beam is formed by fastening members inserted into the coupling slots and the through holes. It is fixed to the position change in the left and right directions along the engaging slots. The support plate may include a horizontal plate part arranged parallel to the web of the H beam, vertical plate parts bent and extended in an outward direction from both ends of the horizontal plate part, and arranged parallel to the flanges of the H beam. It includes. The movement amount display means is installed on the web of the H-beam, the first marker is a mark of the set shape, and is installed along the coupling slot in the horizontal plate portion, the scale corresponding to the first marker is Include the marked second marker.

The beam structure of the present invention has the following effects.

First, since the vertical beam can be combined with the fixed module so that the position can be changed within the set adjustment range, even if there is a design error or a construction error, the beam can be adjusted to support the horizontal structure. Verticality is greatly improved.

Second, since the movement amount display means displays the relative movement amount between the temporary engagement position of the beam and the fixed module and the engagement position between the beam and the fixed module after time, the operator changes the vertical degree. You can check. Furthermore, construction errors that occur during construction can also be greatly reduced.

1 and 2 show a beam structure 100 according to one embodiment of the invention. 1 is an exploded view of the beam structure 100, and FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1. Referring to FIG. 1, the beam structure 100 includes an H beam 110, a fixing module 130, and movement amount display means 161 and 162. The H beam 110 has a vertical structure and is integrally fixed to the flanges 112 in a direction perpendicular to both ends of the web 111. Although the H beam 110 is used in the present embodiment, the present invention is not limited thereto, and a beam having a vertical structure may be used. The H beam 110 transmits a load of an upper building structure or a pipe to a ground or lower building structure.

The fixing module 130 includes a base plate 140 and a pair of support plates 150. The base plate 140 is fixed to the ground (not shown) or a building structure (not shown). The base plate 140 has a rectangular plate structure, and fixing slots 141 are formed around four corners, respectively. The fixing slots 141 are formed to extend in the front and rear directions. Anchor bolts 180 are fixed to the ground or the building structure, and the anchor bolts 180 are inserted into the fixing slots 141 and coupled to the nuts 185. The base plate 140 may be fixed in a front-rear direction along a longitudinal direction of the fixing slots 141.

In the present embodiment, since the fixing slots 141 have a straight shape, the base plate 140 can be changed in position along the front and rear directions. However, the present invention is not limited thereto. 3 is a plan view of a base plate 240 having fixed slots 241 having an arc shape. The fixed slots 241 are formed such that the circle center C is formed on the same concentric circle Q, and extends along the concentric circle Q in a rotational direction (circumferential direction). Accordingly, the base plate 240 may be fixed to the ground or the building structure in a state in which the base plate 240 is rotated at a predetermined angle along the arc direction of the fixing slot 241.

Referring back to FIGS. 1 and 2, the support plates 150 are integrally fixed to an upper surface of the base plate 140. The support plates 150 and the base plate 140 are integrally formed, but the present invention is not limited thereto, and the support plates 150 and the base plate 140 are separately manufactured and then welded. It can be fixed integrally with each other.

The support plates 150 are spaced apart from each other such that the web 111 is inserted therebetween. The support plates 150 have the same shape and are arranged to be symmetrical with respect to the web 111. Each support plate 150 includes a horizontal plate portion 151 and a vertical plate portion 152. The horizontal plate part 151 is disposed parallel to the web 111. Thus, the web 111 is inserted between the horizontal plate portions 151. Therefore, the gap between the horizontal plate portions 151 has a value substantially equal to the thickness of the web so that the web 111 can be stably fixed between the horizontal plate portions 151.

The vertical plate portions 152 are bent and extended vertically in the outward direction from both ends of the horizontal plate portion 151, and are disposed parallel to the flanges 112. The flanges 112 are disposed outside and fixed to the vertical plate portions 152. The lower portion 151b of the horizontal plate portion and the corner portion 152a of the vertical plates have a concave shape. In the future, a welding material is inserted into the concave portions 151b and 152a to firmly fix the H beam 110 and the fixing module 130. The support plate part 155 is installed between the vertical plate parts 152 to stably support the horizontal plates 151.

Coupling slots 151a are formed between the vertical plate 152 and the support plate 155 in the horizontal plate 151. The coupling slots 151a extend in the left and right directions. In addition, through-holes 111a are formed in portions of the web 111 corresponding to the heights of the coupling slots 151a. Accordingly, the H beam 110 is connected by inserting a fastening member such as the bolt 170 into the coupling slots 151a and the through hole 111a, and then engaging the bolt 170 with a nut 175. The fixing module 130 may be temporarily fixed.

The H beam 110 is fixed to the horizontal plate portions 151 while linearly moving between the horizontal plate portions 151 in a horizontal direction. The horizontal adjustment distance of the H beam 110 corresponds to the length of the coupling slots 151a. 2 shows a state in which the H beam 110 is located at the center with respect to the horizontal plate part 151. 4 illustrates a state in which the H beam 110 is coupled to the horizontal plate part 151 while being oriented to the right with respect to the horizontal plate part 151.

The movement amount display means includes a first marker 161 and a second marker 162. The first marker 161 is installed on the web 111, the scale of the inverted triangle shape is displayed. The second marker 162 is installed above the coupling slots 151a in the horizontal plate portions 151, and a scale of an inverted triangle shape is displayed. However, the shape of the scale is not limited thereto, and may be variously formed, such as the first marker 261 having the length scale shown in FIG. 5. The first marker 161 and the second marker 162 may have a sticker shape. However, the present invention is not limited thereto, and the first marker 161 and the second marker 162 may have a structure that is scratched on the web 111 and the horizontal plate 151, respectively. In addition, various structures may be applied.

With the fixing module 130 fixed on the ground (or the building structure), the H beam 110 is fixed to the fixing module 130 using the bolts 170 and the nuts 175. Is temporarily fixed to. The temporarily fixed state is a state in which the position adjustment between the two beams is possible before the H beam 110 and the fixing module 130 are welded and integrally fixed. At this time, the operator uses the scale of the first marker 161 and the scale of the second marker 162 to grasp the engagement position relationship in the temporarily fixed state. Thereafter, before the worker welds the H beam 110 and the fixing module 130, the H beam 110 using the scale of the first marker 161 and the scale of the second marker 162. ) And the coupling position relationship between the fixing module 130. From this, the worker may check the movement amount of the H beam 110 after the temporarily fixing. Therefore, a problem in which the worker is welded to the fixing module 130 at the wrong position can be prevented in advance. If the H beam 110 is fixed at the wrong position and thus the verticality is not secured, the H beam 110 is inclined by the load applied to the H beam 110 or the H beam 110. This breakage problem occurs. However, in the beam structure 100 of this embodiment, since the movement position trajectory of the H beam 110 can be confirmed by the movement amount display means, the conventional problem is solved.

1 is an exploded view of the beam structure according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1.

3 is a plan view of a base plate on which a coupling slit according to a modification of the coupling slit shown in FIG. 1 is formed.

4 is a cross-sectional view illustrating a state in which the H beam illustrated in FIG. 2 is coupled to the horizontal plate part in a state in which it is leaned to the right with respect to the horizontal plate part.

FIG. 5 is a partial plan view of a first marker according to a modification of the first marker shown in FIG. 1.

<Brief description of the main parts of the drawing>

100: beam structure 110: H beam

111: web 112: flange

130: fixed module 140: base plate

141: fixed slot 150: support plate

151: horizontal plate portion 151a: coupling slot

152: vertical plate portion 155: support plate portion

161: first marker 162: second marker

170: bolts 175 and 185: nuts

180: anchor bolt

Claims (7)

Vertical beam; A fixed module coupled to the beam so as to be changeable in a set adjustment range along a left and right direction and fixed to a ground or a building structure; And Movement amount display means for displaying a relative movement amount between the temporary engagement position of the beam and the fixed module and the engagement position between the beam and the fixed module after time; The beam is an H beam, The fixing module includes a base plate fixed to the ground or the building structure, and a pair of support plates that are integrally fixed to an upper surface of the base plate and spaced apart from each other so that the web of the H beam is inserted therebetween. and, Coupling slots extending in the left and right directions are formed in the support plates, and through holes are formed in the web of the H beam, and the H beam is formed by fastening members inserted into the coupling slots and the through holes. Repositionably fixed in the left and right directions along the engaging slots,  The movement amount display means includes a first marker installed on the beam and a scale of a predetermined shape is displayed, a second marker installed on the fixed module, and a scale corresponding to the first marker is displayed. The base plate is provided with fixing slots are fixed to the anchor bolt is fixed to the ground or the building structure is inserted, The fixing slots are formed to extend in the front-rear direction or extend in the rotational direction of the base plate to have the same concentric circles as the rotational direction of the base plate, so that the fixing module is set in the front-rear direction or the rotational direction. A beam structure coupled to the beam to be repositionable within. delete delete delete delete The method according to claim 1, The support plate, A horizontal plate portion disposed parallel to the web of the H beam and having the coupling slots formed therein; And A beam structure including vertical plate portions, each of which is vertically bent and extended in an outward direction from both ends of the horizontal plate portion and disposed in parallel to the flanges of the H. The method according to claim 6, The first marker is installed on the web of the H beam The second marker beam structure is installed along the coupling slot in the horizontal plate portion.

Images