KR20200032550A - No-welding prefabricated anchor base system - Google Patents

Abstract

The present invention relates to a non-welding prefabricated anchor base system, which is fixed to a construction floor to pressurize and fix supports in various pillar shapes. The non-welding prefabricated anchor base system is assembled in a non-welding bolting manner, thereby having excellent site constructability and being widely applied to the supports having various standards. More specifically, adhesion force is generated toward the support side by a downward inclined angle of a long hole and flow is prevented by a sliding prevention protrusion after a bolt and a nut are fastened so that the support is rigidly position-fixed in an arbitrary installation angle. To this end, the no-welding prefabricated anchor base system includes: a base plate part (10), a pressurizing plate part (20) and a sliding prevention protrusion (30).

Description

No-welding prefabricated anchor base system

The present invention relates to a welding-less assembly type anchor base system, and more specifically, it is assembled by a welding-less bolting method, and has excellent field construction, while being universally applied to supports of various standards. It relates to a non-welded assembly type anchor base system in which the support is firmly positioned at an arbitrary installation angle because the sliding force is generated toward the support side by the inclination angle and the sliding phenomenon is prevented after tightening the bolt and nut.

Usually, the pillars of the railing and the support for the sign are mostly constructed after the concrete or asphalt floor construction is completed. At this time, the support plate, in which a plurality of bolting holes are formed under the support, is prepared by welding and fixed, and installed on the bottom surface. The base plate is fixed using an anchor bolt. However, in recent years, it has been difficult for stocks to be secured as consumers demand supports of various materials and sizes.

Accordingly, in the Utility Model Publication No. 20002000-027 published in the related art, a cylindrical portion coupled to a lower end portion of a pillar and a flange portion formed to protrude from the lower end portion of the cylindrical portion and fixed to the support block are formed. The flange portion is divided into a plurality of pieces so that they can be joined on both sides of the pillar, and since the connecting portion protrudes so that they can be coupled to each other by fastening means, the technology of easily reinforcing the aged pillar support structure while the pillar is intact. It has been released.

However, the prior art is a technique for reinforcing the aged pillars, but a cylindrical portion and a flange portion divided into a plurality are provided, but in order to reinforce the supporting strength of the pillars, the reinforcing ribs must be welded or molded separately between the insert and the supporting portion There was a problem that the manufacturing cost increased due to the diversification of the manufacturing process.

In addition, due to the characteristics of the purpose of reinforcing the aged pillar, it is installed in the form of padding on the outer circumferential surface of the pillar, so it has a structure that supports the outer circumferential surface of the pillar locally. The column is easily flowed by external force of the back, and in particular, the bottom of the column is inclined according to the slope of the construction floor, making it difficult to adjust the vertical level. Followed.

Accordingly, the present invention has been devised to solve the above-mentioned problems, and is assembled in a non-welding bolting method, and has excellent on-site construction and is universally applied to supports of various standards. The object of the present invention is to provide a welding-less prefabricated anchor base system in which the support is firmly positioned at an arbitrary installation angle, as sliding movement force is generated by the support and the sliding phenomenon is prevented after tightening the bolt and nut.

In order to achieve this object, the feature of the present invention is a welding-less prefabricated anchor base system that is fixed to a construction floor and press-fits various pillar-shaped supports 1, so that a mounting hole 12 is formed to be mounted on the construction floor. A pair of base plate parts 10; The base plate portion 10 is formed by bending at one end is pressed to the outer peripheral surface of the support (1), the pressing plate portion 20 is provided to be generated by the pressing force by the bolt 23, the nut 24 fastened through the long hole 22 ); And the bolt 23, the head portion and the nut 24 is formed to protrude on the outer surface of the pressure plate portion 20, the closer to the side of the support (1) the protruding angle 30 is provided with an inclined angle that the protruding length is lowered; It characterized in that it comprises a.

At this time, the pushing jaw 30 is formed with an inclined mountain 32 that narrows in width toward the end contacting the head portion of the bolt 23 and the nut 24, and the inclined mountain 32 when the bolt and nut fastening force acts ) Is partly recessed, it is characterized in that the bolt 23, the nut 24 is accommodated and fixed.

In addition, a wedge-shaped washer 50 is formed between the head portion of the bolt 23 and the nut 24 and the anti-tilt 30 to form an inclined surface 52.

In addition, the long hole 22 is formed with a downward inclination angle closer to the support (1) side, so that the bolt 23 is provided so as to generate a sliding transfer force to be in close contact with the support (1) riding the long hole (22) It is characterized by.

In addition, the pressing plate portion 20 is connected to the base plate portion 10, while a long hole 22 is formed between a pair of fastening sections 20A and the fastening section 20A, while connecting the intaglio bending section A horizontal holding plate (20B), which is formed in the bottom region of the pressurization section 20A or the pressurization section 20A and the fastening section 20B, and extends from the base plate section 10 by extracting the pressurizing plate section 20. 40) is characterized by being formed.

According to the above configuration and operation, the present invention is assembled by a welding-free bolting method, and is excellent in field construction, and is universally applied to supports of various standards. In particular, the bolt slides to the side of the support by the inclined sliding prevention jaw and the downward inclination angle of the long hole. In addition to generating power, it is possible to prevent the sliding phenomenon after tightening the bolt and nut, so that the support is firmly fixed at any installation angle.

1 is a block diagram showing the overall assembly of the welding-free assembly base system according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing a welding-less prefabricated anchor system according to an embodiment of the present invention in a plane.
Figure 3 is a schematic view showing an enlarged bump of the non-welding prefabricated anchor system according to an embodiment of the present invention.
Figure 4 is a block diagram showing a wedge-shaped washer of a weldable prefabricated anchor base system according to an embodiment of the present invention.
5 is a block diagram showing a long hole inclined structure of the welding-free prefabricated anchor system according to an embodiment of the present invention.
Figure 6 is a block diagram showing a horizontal holding plate of the welding-less assembly type anchor base system according to an embodiment of the present invention.
7 is a configuration diagram showing a pressurized section of the welding-less assembly type anchor base system according to an embodiment of the present invention.
8 is a block diagram showing the state of use of the welding-free assembly type anchor system according to an embodiment of the present invention in a plane.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a welding-less assembly type anchor base system that is fixed to a construction floor and press-fits various pillar-shaped supports, wherein the welding-less assembly type anchor base system is assembled by a welding-less bolting method and has excellent field construction performance and various specifications. Universally applied to the support, in particular, the bolt is in close contact with the support by the downward inclination angle of the long hole, and the flow is prevented after tightening the bolt and nut by the thrust prevention jaws, so that the support is firmly fixed at any installation angle In order to achieve this, the main plate includes a base plate portion 10, a pressure plate portion 20, and a push-prevention jaw 30.

The base plate portion 10 according to the present invention is provided in a pair, the mounting hole 12 is formed to be mounted on the construction floor. The pair of base plate portions 10 are integrally formed to bend a single flat plate into a 'b' shape and orthogonal to the pressure plate portion 20 described later. At this time, the base plate portion 10 is a plurality of mounting holes 12 are formed to fasten to the construction floor (for example, concrete floor, asphalt floor, stone block) using a fixing means (anchor bolt), the mounting hole 12 is It is formed in a long hole shape to adjust the position of the base plate portion 10 according to the size of the support (1).

In addition, the pressing plate portion 20 according to the present invention is formed by bending at one end of the base plate portion 10, pressed to the outer circumferential surface of the support 1, and bolts 23 and nuts 24 fastened through the long hole 22 It is provided so that the pressing force is generated. The pressure plate portion 20 is installed in the longitudinal direction with respect to the construction floor by the base plate portion 10 is provided to press the support (1) from both sides.

In FIG. 2, the pair of pressure plate parts 20 are arranged on both sides of the support 1, and then insert bolts through the long hole 22 of one pressure plate part 20, and the other pressure plate part 20 ) By fastening the nut 24 to the bolt 23 that has passed through the long hole 22, the support 1 is clamped. As shown in FIG. 1, the long hole 22 shows a state in which two are provided on both sides of the pressing plate portion 20 based on the support 1, but is not limited thereto, depending on the length and diameter of the support 1 It is also possible to form more than one dog.

In addition, the anti-slip 30 according to the present invention is formed protruding on the outer surface of the pressure plate portion 20 so as to contact the head portion 23 and the nut 24 of the bolt 23, and the protruding length is lower as it approaches the support 1 side. The paper is provided at an angle of inclination. The protruding jaw 30 is formed to protrude along the shape of the long hole 22, and is formed at an inclination angle in which the protruding thickness decreases toward one side closer to the support 1 as shown in FIG.

Then, after inserting the bolt 23 through the long hole hole 22 of the pair of pressure plate parts 20, and then fastening the pair of pressure plate parts 20 using the nut 24, the bolt 23 The head portion and the nut 24 generate sliding force to be in close contact with the side of the support 1 by the inclination angle of the anti-skid 30, and even if the load to which the support 1 is tilted acts, the head portion of the bolt 23 and The nut 24 is fixed to the anti-slip 30 and firmly supports the support 1.

In addition, the opposite side surfaces of the support 1 are supported by a pair of pressure plate parts 20, and the opposite side surfaces of the pressure plate part 20 and each other in a 90 ° direction are bolts 23 and nuts 24. Due to the structure constrained by), the pressing plate portion 20 is formed as a flat plate, thereby having the advantage of being able to universally fasten the support 1 having a circular cross section as well as the support 1 having a polygonal cross section.

In FIG. 3, the pushing jaw 30 is formed with an inclined mountain 32 in which the width narrows toward the end contacting the head portion of the bolt 23 and the nut 24, and when the bolt and nut fastening force acts, the inclined mountain The bolts 23 and the nuts 24 are accommodated and fixed while the part 32 is partially recessed. As described above, the inclined mountain 32 forms an intaglio groove while being easily crushed when the pressing force of the bolt 23 head portion and the nut 24 acts, thereby accommodating the bolt 23 head portion and the nut 24, thereby causing the bolt ( 23) Since the sliding phenomenon is prevented after the nut 24 is fastened, the support 1 is supported and secured to the side by the bolt 23 even at a vertical or arbitrary installation angle relative to the construction floor.

In FIG. 4, a wedge-shaped washer 50 is formed between the head portion of the bolt 23 and the nut 24 and the anti-slip 30 to form an inclined surface 52. The wedge-shaped washer 50 has an inclined surface 52 formed on one surface corresponding to the push-off jaw 30 formed at an inclined angle on the pressing plate portion 20, and is formed in a plane parallel to the pressing plate portion 20 on the other surface. do.

Accordingly, the bolt 23 head portion and the nut 24 are tightly adhered by the wedge-shaped washer 50 without lifting, and the pressing force is transmitted, and when the bolt 23 and the nut 24 tightening force acts, the wedge As the inclined surface 52 of the type washer 50 slides toward the support 1 by riding on the anti-jaw 30, both sides of the support 1 are fixed by pressure by bolts 23.

In FIG. 5, the long hole 22 is formed at a downward inclination angle as it comes closer to the support 1, so that the bolt 23 rides the long hole 22 to generate a sliding transfer force to be in close contact with the support 1 do. That is, due to the downward inclination angle of the long hole 22, a sliding movement force is generated in which the bolt 23 tries to gather to the support 1 side.

Accordingly, when the support is inserted between a plurality of bolts during the initial assembly construction, the bolt rides down the inclined angle of the long hole 22 and a sliding force is generated, which is in close contact with the support 1 and the fixed state is temporarily maintained. There is an advantage of excellent on-site construction by the worker.

In FIG. 6, the pressing plate portion 20 is connected to the base plate portion 10, and is engraved and bent while connecting between a pair of fastening sections 20A and a fastening section 20A in which a long hole 22 is formed. It consists of a pressurized section (20B). At this time, the pressurized section 20B is bent in the shape of '<', and the bending line corresponding to the lower portion of the pressurized section 20B is partially cut off, corresponding to it when bending the pressurized section 20B in the form of '<' Since the base plate portion 10 is exposed as a flat plate on the bottom surface, it is used as a reference surface on which the bottom of the support 1 is horizontally supported.

As such, due to the pressure section 20B that is locally engraved and bent in the center of the pressure plate part 20, the support 1 of the square and circular cross sections 1 as shown in FIGS. 8 (a) to (b) is firmly supported in an accommodating state. Also, as shown in Fig. 8 (c), a plurality of supports 1 are fixed at the same time, and versatility is provided.

In FIG. 7, a horizontal holding plate 40 extending from the base plate portion 10 is extracted from the pressing plate portion 20 in the bottom region of the pressing section 20A or the pressing section 20A and the fastening section 20B. Is formed. That is, the horizontal holding plate 40 is extended to the space between the pressing plate portion 20 in parallel with the base plate portion 10 to form a bottom surface.

Accordingly, the side and bottom surfaces of the support 1 are supported together by the pressure plate part 20 and the horizontal holding plate 40, so that the vertical level is precisely maintained regardless of the flatness of the construction floor, and Even if it is installed on a construction floor having a low hardness, as the bottom surface of the support 1 is supported by the horizontal holding plate 40, even if the construction floor is partially damaged, the initial installation position of the support is advantageously maintained.

As described above, the present application is a pair of pressure plate parts 20 are assembled together with the support 1 in a welding-free bolting manner, and are excellent in field construction, and are universally applied to the support 1 of various standards, and in particular, the bolt 23 is inclined. Since the adhesive force is generated toward the support (1) side by the downward inclination angle of the type pushing prevention jaw and the long hole (22) and the bolting nut is prevented from being pushed, the support (1) is firmly fixed at any installation angle. There is an advantage.

10: base plate portion 20: pressure plate portion
30: anti-slip 40: horizontal holding plate
50: wedge washer

Claims (5)

In the welding-less prefabricated anchor system that is fixed to the construction floor and press-fits and supports various columnar supports (1),
A pair of base plate portions 10 on which mounting holes 12 are formed to be mounted on the construction floor;
The base plate portion 10 is formed by bending at one end is pressed to the outer peripheral surface of the support (1), the pressing plate portion 20 is provided to be generated by the pressing force by the bolt 23, the nut 24 fastened through the long hole 22 ); And
The bolt 23 is formed to protrude on the outer surface of the pressure plate portion 20 so as to contact the head portion and the nut 24, the protruding jaw 30 is provided with an inclined angle that the protruding length is lower as it approaches the support (1) side; A welding-less prefabricated anchor base system, comprising: According to claim 1,
The pushing-prevention jaw 30 is formed with an inclined mountain 32 that narrows in width toward the end of contact with the head portion of the bolt 23 and the nut 24, and the inclined mountain 32 when the bolt and nut fastening force acts A welding-less prefabricated anchor base system characterized in that the bolt 23 and the nut 24 are accommodated while being recessed. The method according to claim 1 or 2,
A non-welding assembly type anchor base system, characterized in that a wedge-shaped washer (50) is formed between the head portion of the bolt (23) and the nut (24) and the anti-slip (30). The method according to claim 1 or 2,
The long hole 22 is formed with a downward inclination angle as it approaches the support 1, so that the bolt 23 rides the long hole 22 and is provided to generate a sliding transfer force to be in close contact with the support 1 side. Welding-less prefabricated anchor base system. The method according to claim 1 or 2,
The pressing plate portion 20 is connected to the base plate portion 10, while a long hole 22 is formed, a pair of fastening sections 20A and a fastening section 20B connected between the fastening sections 20A to be engraved and bent ), A horizontal holding plate 40 extending from the base plate portion 10 by extracting the pressing plate portion 20 from the bottom region of the pressing section 20A or the pressing section 20A and the fastening section 20B Welded prefabricated anchor base system characterized in that it is formed.

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