KR101260272B1 - A shore system of the variable support angle - Google Patents

Abstract

The present invention relates to a variable angle of support angle, and more particularly, by contacting the bottom of the support base to the lower part of the building pillar or wall does not transmit the vertical vertical load transmitted due to heavy work equipment to the bottom floor structure. It also relates to a variable angle club for easy installation and dismantling.
Specifically, a beam hole is provided at each of the lower ends, and a lower portion between the beam hole and the beam hole has a U shape, and a beam having two set anchor fixing holes thereon; A fixing plate provided with a fixing plate hole and formed in the form of a partition wall at a central portion of the beam hole; Pins are provided on the upper side of the U-shaped side wall opposite the fixing plate holes provided in the fixing plate, the pin is provided with a coupling member for fixing through the pin hole and the fixing plate hole, and the lower portion is provided at the bottom Is formed as a support which is provided with a nut, a bolt that is fastened to the nut and also the support hole for supporting the bottom, and a bolt handle for easy fastening of the bolt,
The pin is coupled to the fixing plate by a coupling member penetrating the pin hole and the fixing plate hole, characterized in that the pin is formed to be able to flow from side to side in the free space of the beam hole to adjust the angle of the support.

Description

A shore system of the variable support angle

The present invention is to support the structure to safely dismantle the work by not only directly supporting the structure when demolition or remodeling old high-rise buildings such as reinforcement concrete structure, but also do not directly transfer the load of heavy equipment used in the demolition work to the lower slab It relates to an angle-variable club, which not only transfers the vertical loads due to heavy work equipment to the horizontal members by sticking the bottom of the club to the bottom of a building column or wall, but also supports easy installation and disassembly. It relates to a variable club.

Dongbari is a term used in the construction industry to support building structures. It is widely used in not only building works but also demolition or remodeling of old buildings. It is mainly used for supporting slabs.

In other words, the copper bar is a temporary material that serves to support the frame when installing the slab frame or to support the lower slab structure when the structure is demolished. It is usually made of steel and the length of the copper bar varies depending on the height of the slab.

As shown in FIG. 1, a conventional copper bar 1 supporting a formwork when building a concrete structure or a slab when dismantling a structure is connected to an inner support pipe 4 through a slide hole 7 of an outer support pipe 5. A stop pin (not shown) is coupled to the formed through hole 8, but the stop pin is coupled to contact the upper portion of the adjusting nut 6 which is coupled to the thread of the outer support pipe 5.

In more detail, the copper bar 1 has a lower support plate 3 having a predetermined width at a lower end thereof, and an external support tube 5 is formed at an upper side of the lower support plate 3, and a thread is formed on an outer circumferential surface thereof. A slide hole 7 is formed through the thread in the longitudinal direction, and an upper support plate 2 having a predetermined width is formed at an upper end thereof, and an inner support tube 2 is formed at the lower portion of the upper support plate 2. A plurality of coupling holes (8) are formed at regular intervals in a longitudinal direction so that the coupling holes (8) can be inserted into the external support pipe (5), and the nut is in the form of a control nut coupled to the thread of the external support pipe (5) ( 6) and the slide hole (7) and the through hole (8) is coupled to the same axis and installed in the state caught on the upper end of the adjustment nut (6) to stop the height of the inner support pipe (4) It consists of a pin (not shown).

Therefore, the copper bar 1 is coupled to the stop pin in the through hole 8 formed in the inner support pipe 4 through the slide hole 7 of the outer support pipe 5, both ends of the stop pin is the outer The upper support plate 2 at the upper end of the inner support pipe 4 is fixed in a state of supporting the concrete formwork by being caught in contact with the upper end of the adjustment nut 6 coupled to the thread of the support pipe 5.

That is, in general, the slab formwork for concrete placing should be preceded for the slab construction of the reinforced concrete structure, and the slab formwork is supported by the copper bar until rigidity is expressed by concrete curing.

This group is not only used for the construction of concrete structures but also for the dismantling of concrete structures.

In other words, in the case of demolition or remodeling of old high-rise buildings in the city, even if the fork lane is to be crushed directly due to the height of the structure, it is often impossible to dismantle the structure at the high part. It is being demolished by lifting the demolition materials downstairs by crushing them with a brake or a tong from the upper floor.

Due to this situation, as shown in FIG. 2 and FIG. 3, when demolition or remodeling of high-rise concrete buildings is performed, conventionally, a plurality of clubs are placed on the floor and fixed to be in close contact with the ceiling slab. The structure is crushed from the roof top by lifting the heavy equipment on the upper floor during the demolition or remodeling work. The structure and the lower slab structure do not win the weight and work load of the vertically loaded building in the vertical direction. There is a problem that frequently occurs accidents that collapse and collapse.

That is, the basic copper bar can be supported on the floor only in the vertical direction, and thus there is a problem in that the upper load on which the heavy equipment is mounted is transferred to the lower floor structure as it is, thereby applying a force to the lower floor structure to crack or collapse. .

In addition, when the demolition work is performed after reinforcement with the existing copper bar to protect the floor structure during the renovation of the interior wall of the apartment remodeling, the overload is loaded on the floor structure that will be used again for decades after the remodeling is completed by the vertical load. There is a problem that bad effects such as cracks in the floor structure.

Therefore, the technical problem to be solved by the present invention devised to solve the above problems of the existing copper bar reinforcement method, the vertical conveyed by the heavy work equipment by closely contacting the bottom of the support of the copper bar to the lower part of the vertical member, such as building pillars or walls It is to provide a variable angle of support angle for safe and easy demolition and remodeling of old concrete structures without transferring the upper load in the direction to the lower floor structure.

In addition, the technical problem to be achieved by the present invention is to provide a variable angle of support angle for easy installation and dismantling when demolition of high-rise old buildings.

In addition, the technical problem to be achieved by the present invention is to provide a support angle variable copper club to make wide use of the work space of the lower layer by using the point that can open the angle of the support.

In addition, the technical problem to be achieved by the present invention is to provide a support angle variable copper club that can be used universally regardless of the height by enabling the length adjustment of the support.

In order to solve the above technical problem, the support angle variable copper bar is provided with beam holes 22 at both ends of the lower ends, and the lower part between the beam holes and the beam holes is composed of a U-shape, but the upper part of the set anchor fixing hole 28 is provided. A beam 20 having two beams; A fixing plate 24 having a fixing plate hole 26 and formed in the form of a partition wall at the center of the beam hole 22; A pin hole 34 is provided at each of the U-shaped sidewalls so as to face the fixing plate hole 26 provided in the fixing plate 24, and can be fixed through the pin hole 34 and the fixing plate hole 26. Pin 32 is provided with a coupling member 36, a nut 44 is provided at the bottom of the lower portion, and the bolt 42 is also fastened to the support hole 40 is fastened to the nut 44 and supports the bottom ) And a support 30 which is integrally provided with a bolt handle 48 for facilitating fastening of the bolt 42, wherein the pin 32 has a pin hole 34 and a fixing plate hole 26. It is coupled to the fixed plate 24 by a coupling member 36 penetrating the pin 32, the pin 32 can flow from side to side within the free space of the beam hole 22 to adjust the angle of the support 30 It is characterized by being formed.

delete

On the other hand, the length of the support 30 is characterized in that it is extended and shortened by the loosening and tightening of the bolt (42).

On the other hand, the upper end of the bolt 42 is provided with a locking nut 46 which is integrally formed with the bolt. Even if the bolt is loosened as much as possible, the locking nut 46 is caught by the nut 44 so that the bolt 42 escapes the support. Characterized in that not to be formed.

On the other hand, the support 30 is characterized in that it further comprises an angle 50 of the L-shape in order to facilitate the close contact when the support hole 40 is in close contact with the support portion.

On the other hand, the fixing plates 24 provided in the beam holes 22 formed at both ends of the beam 20 are formed in each of the beam holes 22, characterized in that the four support 30 is provided.

On the other hand, the support 30 is composed of the upper support 60 and the lower support 70, the coupling hole 66 is formed in the upper support 60 and the fixing hole 72 is formed in the lower support 70 When the lower support 70 is inserted into the upper support 60, the coupling hole 66 and the fixing hole 72 are coupled by the fixing pin 68 on the same axis.

On the other hand, the beam 20 is configured in a square shape, the beam hole 22 is formed in each of the four corners of the beam 20, the fixing plate 24 provided in the beam hole 22 is a beam hole in an oblique direction (22) is formed in each of the four support 30 is provided, each of the support 30 is characterized in that it is configured to be radially unfolded.

As described above, the support angle variable copper bar according to the present invention adheres to the lower part of the vertical member such as a building column or a wall, and transmits the vertical load in the vertical direction transmitted by the heavy work equipment to the vertical member. Even if the upper load is not transmitted to the lower floor structure, there is an effect to facilitate the demolition and remodeling of high-rise concrete buildings.

In addition, the support angle variable copper bar according to the present invention has an effect that is easy to install and dismantle when demolition and remodeling of the building due to its structural characteristics.

In addition, the support angle variable copper bar according to the present invention has the effect of using a wide working space of the lower layer by using a point that can open the support angle, which is a structural characteristic.

In addition, the support angle variable copper bar according to the present invention has the effect that can be used universally regardless of the height by enabling the length adjustment of the support.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.
1 is a perspective view showing a building club according to the prior art.
Figure 2 is a state diagram showing the installation state of the group according to the prior art.
3 is a state of demolition work in a state in which the copper bar according to the prior art is installed.
Figure 4 is a perspective view showing a support angle variable club according to the present invention.
Figure 5 is an exploded perspective view showing the configuration of the support angle variable club according to the present invention.
6 is a view showing the lower state of the beam in the configuration of the variable angle support angle according to the invention.
Figure 7 is a state diagram of the installation and operating state of the support angle variable type copper club according to the present invention.
8 is an exploded perspective view showing still another configuration of the support angle variable club according to the present invention.
Figure 9 is an exploded perspective view showing another configuration of the support angle variable club according to the present invention.
Figure 10 is another state diagram of the support of the configuration of the support angle variable copper club according to the present invention.
11 is a state of demolition work in a state in which the support angle variable type copper club according to the present invention is installed.

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

1 is a perspective view showing a building club according to the prior art, Figure 2 is a state diagram showing a state of installation of a copper bar according to the prior art, Figure 3 is a state of demolition work in a state in which the copper bar according to the prior art is installed 4 is a perspective view showing a support angle variable clubb according to the present invention, FIG. 5 is an exploded perspective view showing a configuration of the support angle variable clubb according to the present invention, and FIG. 6 is a configuration of the support angle variable clubb according to the present invention. Figure 7 is a lower state of the beam, Figure 7 is a state diagram of the installation state and operating state of the variable support angle variable club according to the present invention, Figure 8 is an exploded perspective view showing another configuration of the variable support angle variable club according to the present invention, Figure 9 Is an exploded perspective view showing another configuration of the variable support angle variable angle according to the invention, Figure 10 is a support angle according to the present invention Type and the configuration of the phase diagram of another support on the Shore, Figure 11 is a state diagram of the dismantling work in a state where the supporting angle variable Shore according to the invention is installed.

The present invention safely supports the structure when demolishing or remodeling old high-rise buildings such as aging reinforced concrete structure, as well as do not directly transfer the load of heavy equipment used in the demolition or remodeling work to the lower slab to safely perform the structure demolition or remodeling work It relates to a variable angle of support for the angle of operation, the beam hole 22 is provided at the lower end of each end, the lower portion between the beam hole and the beam hole is composed of the U-shape, the upper three anchor anchor fixing holes 28 A beam 20 provided; A fixing plate 24 having a fixing plate hole 26 and formed in the form of a partition wall at the center of the beam hole 22; A pin hole 34 is provided at each of the U-shaped sidewalls so as to face the fixing plate hole 26 provided in the fixing plate 24, and can be fixed through the pin hole 34 and the fixing plate hole 26. Pin 32 is provided with a coupling member 36, a nut 44 is provided at the bottom of the lower portion, and the bolt 42 is also fastened to the support hole 40 is fastened to the nut 44 and supports the bottom ) And a bolt handle 48 for facilitating fastening of the bolt 42 are integrally formed.

This invention assembles and uses each structure. That is, each component is transported to the workplace in a separated state, and then each component is assembled in the workshop.

Referring to the combination of the configuration with reference to Figures 4 to 7, the present invention first consists of a beam 20 and the support 30. The beam 20 serves to support the ceiling slab during structure demolition and remodeling, and beam holes 22 are formed at both ends of the beam 20. The beam hole 22 is provided with a fixing plate 24 serves to fix the support 30.

In this case, the beam 20 has two set anchor fixing holes 28 formed at an upper end thereof, and a lower part is formed in a C shape between the beam hole and the beam hole, and when the beam 20 supports the ceiling slab, The anchors (not shown) are driven into the ceiling slabs through the holes 28 so that the beam 20 and the ceiling slabs are in close contact with each other so that the support angle variable copper club of the present invention does not move. In this case, the number of set anchor fixing holes 28 may be reduced or increased.

On the other hand, the support 30 is provided with a pin 32 on the upper portion of the fixing plate 24 is fitted in the form of being fitted to the pin 32 is coupled to the beam 20 and the support 30.

The pin 32 is preferably U-shaped in order to allow the support 30 to flow from side to side while being coupled to the beam 20. Both sides of the pin 32 are fixed plates 24 of the beam holes 22. The pin hole 34 is formed to face the fixing plate hole 26 formed in the upper side of the plate. The pin hole 34 is aligned with the fixing plate hole 26 and the pin hole 34 on the same axis. 20) and the support 30 is combined.

In this case, the fixing plate 24 is a thickness that can be fitted to the side wall yarns of the pin 32, and the distance between the fixing plate 24 and the side walls of the pin 32 is such that the fixing member 36 is connected to the pin hole 34. It is preferable that the support 30 can flow even after the beam 20 and the support 30 are coupled through the fixing plate hole 26.

The fixing member 36 may be coupled to the beam 20 and the support 30 by penetrating through the pin hole 34 and the fixing plate hole 26, and may use tapered pins or bolts and nuts according to circumstances.

The support 30 coupled to the beam 20 as described above can be moved from side to side in the free space in the beam hole 22, the upper end of the pin 32 when opening the support 30 to the outside of the beam hole 22 It can flow until it hits the inner side wall of the.

Meanwhile, a lower portion of the support 30 is provided with a nut 44 formed integrally with the support 30 at a lower end thereof, and the other end of the bolt 42 having one end fastened to the support hole 40 is the nut 44. And the support is completed.

The support hole 40 is preferably formed in a spherical shape so that the support hole 40 can be easily in contact with the lower portion of the column or wall of the structure to be demolished or remodeled. That is, since the structure of the building is usually formed at a right angle to both the floor and the wall ceiling, the support hole 40 is preferably spherical for the purpose of the present invention for transmitting the upper load to the vertical member without transferring the upper load to the floor structure.

The bolt 42, one end of which is fastened to the support hole 40, is fastened to the nut 44 at the lower end of the support 30 to be inserted into the lower support 30. In this case, the longer the bolt 42 is, the shorter the length of the support 30 is, and the longer the bolt 42 is, the longer the length of the support 30 is.

The bolt 42 is formed with a bolt handle 48. Since it is common to fasten the bolt 42 in a state in which the support 30 is erected and supported on a column or a wall of the structure, the bolt 42 in a state where the support 30 is erected. In view of the difficulty in fastening, it is preferable to provide the bolt handle 48 with the bolt 42. In this case, the bolt handle 48 serves to be a limit of the length that can be entered into the support 30 in the state in which the bolt 42 is fastened to the nut 44.

Meanwhile, the bolt 42 may be integrally formed with the nut 44 and coupled to the lower portion of the support 30. In this case, it is preferable that the locking nut 46 is provided at the end of the bolt 42 entering the support 30. The catching nut 46 is caught by a nut 44 formed at the bottom of the support 30 when the bolt 42 is loosened to increase the length of the support 30. 44) can be prevented from falling out.

On the other hand, the present invention may be provided with an angle 50 of the L-shape, considering that the pillars or walls of the structure to be demolition and remodeling is a right angle so that the support 30 of the present invention can be securely and firmly supported. The angle 50 is installed on the perpendicular surface of the pillar or wall of the structure, and the support hole 40 of the support 30 is to be used in close contact.

It is preferable that the material of each part used as the structure of this invention is a metal material, and the magnitude | size and length can be manufactured according to the characteristic of a workshop. That is, it can be manufactured in consideration of the height, width, and length of each building. For example, the beam 20 may have a size of 1,000 mm x 150 mm x 50 mm, and the support 30 may have a diameter of 100 mm and a length of 3,000 mm. It is.

However, the above-described materials and sizes are not limited.

On the other hand, the support angle variable copper club according to the present invention can be made into one whole.

That is, the beam 20 and the support 30 may be manufactured and used in an assembled state. In this case, each configuration is the same as the assembly type, but the fixing member 36 may use a split pin that can open the front end in two after passing through the pin hole 34 and the fixing plate hole 26.

Looking at the embodiment of the present invention with reference to the above as follows.

The present invention is installed on the lower floor of a building before placing heavy equipment used for demolition during the demolition or remodeling work of an old high-rise concrete building on the roof or the upper floor of the building.

As shown in FIG. 7, after setting up the support 30 coupled to both sides of the beam 20, the beam 20 is brought into close contact with the ceiling slab of the structure and the set anchor (not shown) in the set anchor fixing hole 28. The beam 20 is fixed to the ceiling slab, the support 30 on both sides is extended to the lower end of the pillar or wall of the structure, and the support hole 40 coupled to the support 30 at the lower end of the pillar or wall is The bolt handle 48 is used to loosen the bolts 42 so as to be in close contact with the support 30.

As shown in Figure 11, after installing the present invention on the lower floor of the demolition of the building as necessary, if the heavy equipment used for demolition or remodeling work on the roof or upper floor to perform the demolition or remodeling work to the lowest floor sequentially Due to the structural features of the present invention, it is possible to disperse the vertical load in the vertical direction due to the heavy working equipment to columns or walls, which are vertical members, so that the upper loads are not transferred to the lower floor floor structure. Or remodeling can be facilitated.

In addition, the present invention is not only easy to install and dismantle when the structure is demolished and remodeled due to its structural characteristics, but also the support is widened to the pillar or wall, so the space below the beam 20 is wide and easy to work on the lower floor, the support (30) It can be used for general purposes regardless of the height.

Meanwhile, the present invention can be used not only to dismantle the old high-rise concrete buildings, but also to dismantle the interior walls of remodeling apartments, and the present invention is used for the remodeling work of apartments. It is distributed to the wall so as not to overload the floor structure to overcome the disadvantages such as cracking the floor structure even after the remodeling is completed.

On the other hand, the present invention can be used to increase the number of the support (30). That is, as shown in FIG. 8, two fixing plates 24 provided in the beam holes 22 formed at the lower ends of the beams 20 are formed at two edges of the beam holes 22, respectively, so that each fixing plate ( By fixing the support 30 to 24, it is possible to configure the number of the support 30 in four. In this case, the configuration of the support is the same as described above.

In addition, when increasing the number of the support (30) of the present invention, the beam 20 may be configured in a square form in order to secure the diversity of its use. In this case, the beam holes 22 are preferably formed at the lower corners of each of the four corners, and the fixing plates 24 provided in the beam holes 22 are coupled to the fixing plates 24 by being formed in the beam holes 22 in the diagonal direction. Four supports 30 are configured to be radially unfolded.

In this way, the present invention can be diversified in application by fixing the beam 20 of the present invention variable angle copper club to the center of the ceiling slab of the working space, and supporting the four supports 30 below the wall edge of the working space. It becomes possible.

On the other hand, the support 30 may be a two-stage configuration. That is, by configuring the support 30 in the lower and upper can be configured to be removable each configuration.

That is, the support is composed of the upper support 60 provided with the coupling hole 66 and the lower support 70 provided with the fixing hole 72, the lower support 70 is coupled when the upper support 60 is inserted The ball 66 and the fixing hole 72 are coupled by the penetration of the fixing pin 68 on the same axis, and the fixing pin 68 is removed to separate the upper support 60 and the lower support 70. will be.

With respect to the embodiments of the present invention disclosed above, specific structural to functional descriptions are merely illustrated for the purpose of describing embodiments of the present invention, embodiments of the present invention may be implemented in various forms It should not be construed as limited to the embodiments described in.

In addition, the present invention may be modified in various ways and may have various forms, and specific embodiments are illustrated in the drawings and described in detail in the present disclosure, but the present disclosure is not intended to limit the present disclosure to the specific disclosure forms. It is to be understood that all changes, equivalents, and substitutes included in the spirit and scope of the invention are included.

1: Circle 2: Upper support plate
3: lower support plate 4: inner support pipe
5: outer support pipe 6: adjusting nut
7: slide hole 8: through hole
10: support angle variable clubb 20: beam
22 beam hole 24 fixed plate
26: fixing plate hole 28: set anchor fixing hole
30: support 32,62: pin
34,64: pin hole 36: coupling member
40,80: support hole 42,82: bolt
44,84: Nut 46,86: Locking nut
48,88: bolt handle 50: angle
60: upper support 66: coupling hole
68: fixing pin 70: lower support
72: fixing hole

Claims (8)

Beams 22 are provided at the lower ends of the two ends, respectively, and a lower portion between the beam holes and the beam holes has a U-shape. The beams 20 are provided with two set anchor fixing holes 28 at upper portions thereof;
A fixing plate 24 having a fixing plate hole 26 and formed in the form of a partition wall at the center of the beam hole 22;
A pin hole 34 is provided at each of the U-shaped sidewalls so as to face the fixing plate hole 26 provided in the fixing plate 24, and can be fixed through the pin hole 34 and the fixing plate hole 26. Pin 32 is provided with a coupling member 36, a nut 44 is provided at the bottom of the lower portion, and the bolt 42 is also fastened to the support hole 40 is fastened to the nut 44 and supports the bottom ) And a bolt handle 48 for facilitating fastening of the bolt 42 are formed as a support 30 which is integrally provided,
The pin 32 is coupled to the fixed plate 24 by a coupling member 36 penetrating the pin hole 34 and the fixed plate hole 26, the pin 32 in the free space of the beam hole 22 It can flow from side to side, the angle of support is variable, characterized in that it is formed to adjust the angle of the support 30.
delete The method of claim 1,
The length of the support 30 is extended and shortened by the loosening and tightening of the bolt 42, characterized in that the variable support angle.
The method of claim 3,
The upper end of the bolt 42 is provided with a locking nut 46, which is integrally formed with the bolt. Support angle variable copper club, characterized in that formed so as not to.
5. The method of claim 4,
When the support 30 is opened to the support hole 40 in close contact with the support portion, the angle of support angle, characterized in that it further comprises an angle 50 of the L-shape to facilitate the close contact.
The method of claim 5,
The fixing plate 24 provided in the beam hole 22 formed at both ends of the beam 20 is formed in each of the beam holes 22 to support the support angle 30, characterized in that the four support 30 is provided Dongbari.
The method according to claim 6,
The support 30 is composed of an upper support 60 and the lower support 70, the coupling hole 66 is formed in the upper support 60 and the fixing hole 72 is formed in the lower support 70, When the lower support 70 is inserted into the upper support 60, the coupling hole 66 and the fixing hole 72 is coupled by the fixing pin 68 on the same axis, characterized in that the variable support angle.
The method according to claim 6,
The beam 20 is formed in a square shape, the beam hole 22 is formed in each of the four corners of the beam 20, the fixing plate 24 provided in the beam hole 22 is a beam hole (in a diagonal direction) 22) formed on each of the four support (30) is provided, each of the support 30 is a variable variable angle of support, characterized in that configured to be radially unfolded.

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