KR102287451B1 - a seismic bracing system - Google Patents

Abstract

In order to minimize the damage or deformation of pipes due to seismic shaking of various pipes installed in buildings, a fixed clamp that is fixed to a beam or wall of a building, a grip support that wraps and supports the pipe pipe, and a connection that connects the clamp and the grip support It relates to a brace consisting of a sieve,
In particular, it relates to a seismic anti-shake brace having a grip support with a reinforced structure and function to have less impact on the pipe pipe and more powerful wrapping ability and support.

Description

Anti-seismic bracing {a seismic bracing system}

Fixing clamps (3) for fixing to bases such as beams or walls of buildings to prevent damage or deformation of various pipes installed in buildings due to shaking due to earthquakes, grip supports (1) that wrap and support the piping pipes, and It relates to a seismic anti-shake brace consisting of a connecting body (2) connecting a clamp and a grip support.

The fixing clamp used to prevent seismic vibration is generally inserted into the gap of the jaw-shaped jaw so that the blade can be inserted when the base has the shape of a blade. When combined with a connector based on a pressing device, a device for coupling with a rotating connector is installed, and when using a wire, a direct installation structure is formed without a rotating function. A connector is a device that connects a fixed clamp and a grip support using a rod or pipe, sometimes a wire, and the grip support consists of a device used to install a connection bracket in a structure that partially or completely surrounds the circumference of a pipe pipe.

The grip support applied to the seismic anti-shake brace above has a structure that wraps around the pipe pipe in various shapes and structures and combines it with the connector. As for the shape of the grip support, the body structure that is applied to light load or small-diameter piping is mainly used in a band-type wrapped with a plate or a wire-type wrapped with a wire. It is common to erect a vertical plate on the pipe and use it as a structure in which the blade of the plate is wrapped.

In particular, as shown in FIG. 4, the body structure in which the blade of the standing plate 11 installed vertically on the heavy and heavy load pipe pipe is wrapped is a U-shaped single-ply plate that is opened and extended upwards based on a semicircular shape to match the outer diameter size of the pipe pipe. It is installed in a structure in which the pipe pipe is inserted and spanned on the blade, and the fixing brackets 13 are respectively installed so that the connector can be installed and fixed at both ends of the U-shaped gap. Such a fixing bracket has a conventional structure in which the bracket is attached to the standing plate of the body as in the type A of FIG.

In this way, the structure in which the plate is vertically wrapped with respect to the horizontal piping pipe and the blade is wrapped around the piping pipe is a structure that has a strong structural force due to the width of the standing plate with respect to the weight directly transmitted directly under the piping pipe. to have the most efficient support structure. However, two potential problems can be anticipated.

One is that it is not simple to install exactly perpendicular to the plumbing pipe with a single plate. Moreover, if the connector is combined, it is more difficult to achieve the verticality. If it is not installed in the correct vertical structure on the piping pipe, it is difficult to secure the expected performance and eventually it can distort the structure of the brace and act as a fatal defect. It becomes a structure in which a large load and impact force are excessively concentrated and compressed at a specific joint point. In the event of an earthquake or shaking shock, it is transmitted as a huge shock to the pipe pipe, which eventually becomes a fatal problem of damage or deformation.

In the end, the grip support of the conventional single-layer structure is structured to be faithful only to the purpose of preventing shaking due to earthquakes and supporting it. It is a structure with a human problem.

On the other hand, the grip support by the band bent on the plate can solve the problem of the impact caused by the blade as above, but it is mainly used for light weight pipe pipes because the holding force is very weak in structure. In order to use a thick plate for heavy load use, the processing cost for bending is excessive and the material cost is also excessive, which has a fatal problem of lack of efficiency and marketability.

The present invention is to achieve a structure free from shock and damage to the piping pipe even if the earthquake-resistant anti-shake brace faithfully fulfills the main purpose of preventing vibration of the piping pipe during an earthquake and supporting vibration, and is mainly for heavy and heavy load structures. Therefore, we are trying to solve this with a structure in which the blade is joined to the pipe pipe with the grip support as the center and the plate is vertical.

In particular, it is attempted to improve the distortion of the coupling structure by improving the unstable vertical structure of the plate for the pipe pipe, which is a conventional problem, to secure a reliable support force.

In addition, even if the plate is perpendicular to the piping pipe to join the blade, which is the joint surface, as in the prior art, the structure in which the load and impulse force are excessively concentrated on the piping pipe is distributed like a band with a bent plate. try to improve

In the end, structurally, we are trying to realize a structure that can distribute the pressure and impact force on the pipe pipe by securing the strong structural power and supporting power of the grip support with the plate perpendicular to the pipe and at the same time using the plate band as the grip support. .

Furthermore, it attempts to simplify the structure and parts by removing or minimizing the clamp bracket installed at the end of each branch that has been opened in the prior art.

In order to solve the above problem, the structure of the grip support is made so that the plate is perpendicular to the piping pipe and the blade becomes the joint surface, but not the conventional single fold but a plurality of single folds are provided so that there is a space between the single folds and the single folds, In the end, it is attempted to solve the problem with a structure that supports the plumbing pipe by making a single layer that is perpendicular to the plumbing pipe compatible with each other.

On the other hand, compatible single folds are connected to one side, and the connecting plate forms a hole to install a tightening bolt.

The present invention can be expected to achieve an effect of freeing from the distortion phenomenon of the coupling structure with the pipe pipe, which is caused by the conventional single blade and joining by forming a structure that can be combined with a higher verticality with respect to the horizontal pipe pipe. In addition, it is possible to reduce the distribution of compression force and impact force by joining the blade to the pipe pipe, thereby reducing damage and destruction of the pipe pipe. Therefore, it can be expected to achieve the effect of preventing high-intensity shock and shaking caused by an earthquake during an earthquake, while dramatically minimizing the damage and destruction of piping and pipes.

Furthermore, it is possible to cover most of the problems that had to be dealt with with a variety of shapes and structures in the past with simple shapes and structures, thereby saving parts and increasing inventory efficiency. And there is an advantage that quality control becomes easy.

1 is a representative view of the present invention;
Figure 2 is another application view of the present invention.
3 is another application view of the present invention.
4 is a configuration diagram of the prior art;

The purpose of the seismic anti-sway brace is to firmly fix the pipe pipe to suppress the shaking of the pipe pipe 4 when an earthquake occurs, and to minimize damage and destruction from vibration and shock. Therefore, for a structure that can sufficiently withstand the shaking of the pipe pipe and the load force directly under it, it is fixed with a fixing clamp 3 that is securely installed on the wall or the base of the beam, which is a solid structure within the building. In addition, the pipe pipe, which is a fixed object, is tightly wrapped and a grip support (1) having a strong bonding force is installed and used to withstand the shaking and vibration impact force transmitted from the outside. Therefore, a wire, a pipe, a rod, or a long screw bolt is used as the connecting body (2) connecting them between the fixing clamp and the grip support. A structure that prevents the shaking of the piping pipe, which can cause shaking through the connecting body and the grip support, by fixing the fixing clamp to the base body so that it ultimately depends on the base body, which is an immovable, sturdy structure such as a wall or beam by fixing it on both sides. is made of

The clamping clamps used to prevent vibration for seismic use are generally structured to use a hole-formed fixing plate or insert a beam into the jaw-shaped jaw 32 with jaws and press it with a tightening screw. It is common to form a structure that rotates by connecting the bracket coupled to the sieve side and the pin shaft 31 so that it can be rotated according to the angle of coupling with the piping pipe. No structural coupling device is required.

It is common to install and use a connection bracket based on a groove structure so that the grip support that surrounds and inserts the pipe pipe surrounds part or all of the circumference of the pipe pipe.

The connector consists of a pipe or a rod as shown in FIG. 1 or a threaded rod or wire as shown in FIG. In order to reflect and form a hole member for a pin, a hole member capable of pin coupling is formed, and the wire is used to form an assembly that does not separate from the wire.

The present invention intends to efficiently improve the grip support, which has a large potential for problems, while adopting known devices and structures for fixing clamps and connectors among the structures constituting the system of seismic anti-shake braces for heavy and heavy loads. .

That is, the blade for joining the standing plate 11 vertically with respect to the piping pipe was a single blade in the prior art, so that a sufficient space is left between the vertical plate and the plate so that a plurality of blades are joined to the piping pipe, and the amount of the piping pipe The branch plates of the standing plates positioned on the sides form interconnecting connecting plates 12, and a grip support composed of a trunk forming a hole member 16 for insertion, respectively, is intended as a basic structure on the connecting plates.

If the connecting body is built-in as shown in Fig. 1 on the inside of the compatible standing plate and the connecting plate, which forms the opening of the groove into which the pipe pipe 4 is inserted, the grip support is installed crosswise with the pipe pipe. When the tightening bolt 5 is pressed against the connecting rod in this combined structure, a structure in which the piping pipe and the connecting rod are fixedly coupled to each other is formed. It forms a structure that prevents shaking depending on the base of the This structure is mainly suitable for the lateral bracing for the piping pipe, and it omits the structure that combines the brackets formed separately in the prior art as shown in FIG. It forms a one-piece structure connected to one body.

Based on Fig. 1 above, by connecting the ends in the open direction of the compatible U-shaped standing plate, the body formed between the two connecting plates has a built-in and a horizontal shaft holder 14 for installing the rotating shaft and the device. On the shaft holder located between the plates, an anti-lift bracket (18) member, which forms a groove that forms an arc like a part of the exterior of the piping pipe, is hung on the shaft holder to suppress the upward shaking of the piping pipe, and the shock is transmitted to the upper part. It forms a structure in which it is welded, installed a fixing pin, or combined with a bolt so that it does not come off.

Based on this, as in the D type of FIG. 3, if an installation groove 19 is formed in the middle of the anti-climbing bracket to allow the coupling body coupled with the shaft hanger to rotate, the longitudinal coupling body is installed at various angles. structure that can be adapted. As in the main grip of FIG. 3, if both sides of the shaft stand positioned on the outside of the connecting plate are bent in a downward slope to form a structure in which both ends are combined with the shaft stand, the upper side will eventually have a shape similar to a narrow rhombus. and a structure that forms a grip support forming a coupling hole at the upper end of this rhombus, so that it can be used both as a lateral brace or as a longitudinal brace. In particular, the shaft stand becomes a rotating shaft that can rotate compatible standing plates as well as hook hangers installed on both ends.

On the other hand, as shown in Fig. 3, when a grip support is achieved with a structure in which a brazing bolt is inserted and coupled to the hole member of the body, which is formed by combining the grip support connected by the connecting plate in pairs with the compatible standing plate having a semicircular groove as shown in FIG. It forms a structure suitable for the piping pipe of This structure is suitable for the vertical brace, and the brace can be used by directly coupling the brace to the tightening bolt, or the auxiliary bracket 17 is additionally installed to install the tightening bolt, and it can be used in combination with the connecting rod by using it as the pin axis. Of course, as in the prior art, it can be used in a structure that is pressed with a tightening bolt, and a wire can be combined and used.

In the grip support of the present invention, as described above, the distance between the compatible standing plates is maintained firmly as close to the connecting plate or as the standing plate is smaller or thicker due to vibration and shaking, but changes as the distance from the connecting plate or the larger or thinner standing plate increases it is very likely to be If such a grip support is distorted, its original function and performance cannot be expected. Therefore, in order to improve this, the price fixture 18 made of a plate or a band is installed in a welding or assembly structure as shown in FIGS. 1 and 2 to keep between the compatible standing plates, or the width between the compatible standing plates as shown in FIG. Install one or more spacing fixtures with a structure that installs a spacing securing pipe with In this way, it is possible to achieve a solid structure of a cube and to have a strong structural force and to remarkably strengthen the bearing capacity of the piping pipe. In particular, the plumbing pipe of the downward heavy load forms a standing pipe, and it becomes an absolute and optimal structure as a brace for earthquake-proof vibration prevention.

Grip support (1), connector (2), fixing clamp (3), piping pipe (4), tightening bolt (5), standing plate (11), connecting plate (12), fixing bracket (13), shaft stand (14), hook hanger (15).

Claims (5)

a fixing clamp that one side is coupled to a base body such as a wall, a floor or a beam and the other side is coupled to a connection body; a grip support having a body formed with a groove to wrap and install a plumbing pipe on a vertical standing plate; In the seismic anti-shake brace consisting of a connecting body connected in the middle so as to transmit the fixing force of the fixing clamp to the grip support,
A plurality of vertical standing plates that are compatible with each other with a space therebetween, and between the compatible standing plates and the standing plates, consists of a connecting plate formed by interconnecting the ends of the grooves in the opening direction, and a hole member formed in the connecting plate. torso; A seismic anti-shake brace having a grip support composed of a spacer that is installed to connect and fix both standing plates at regular intervals. According to claim 1,
a body formed by face-to-face bonding of a grip support comprising a plurality of compatible standing plates connected by a connecting plate in pairs; a fastening bolt member for coupling the connecting plate of the face-to-face bonded body; A seismic anti-shake brace having a grip support composed of an auxiliary bracket member made of a engraving plate installed on the upper tightening bolt member to assist in the connection between the connecting body and the body. The method of claim 1,
a body having a U-shaped groove for inserting and installing a pipe pipe; An earthquake-proof anti-shake brace having a grip support constituted by a tightening bolt member installed on the connecting plate of the body. The method of claim 1,
a body having a U-shaped groove for inserting and installing a pipe pipe; a shaft support installed over both connecting plates on the inside of the body formed by the standing plate and the connecting plates on both sides of the body; The upper part formed in the middle so that the connector coupled to the shaft can be rotated, and the lower part is an arc-shaped upper joint groove of the piping pipe, and the n-shaped side of the standing plate is formed. A seismic anti-shake brace equipped with a grip support that is installed on a pedestal and consists of an anti-lift bracket that installs a fixing bolt member to prevent separation.

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