KR20190111478A - Method for separating core steel form from concrete structure - Google Patents

Abstract

The present invention relates to a method for separating a core steel form from a concrete structure, which extremely reduces damage to a concrete structure and efficiently separates a core steel form for a short period. The method comprises: a demolding device preparation step (S10) of preparing a demolding device; a concrete structure arrangement step (S20) of placing a concrete structure in the demolding device; a forward and backward moving step (S30) of moving a pressure plate of the demolding device forward and backward; a horizontal moving step (S40) of moving the pressure plate in a horizontal direction; a pressure plate moving step (S50) of driving a hydraulic cylinder to move the pressure plate downward; and a pressurizing and demolding step (S60) of continuously moving the pressure plate to pressurize the core steel form in the concrete structure, and demolding the same.

Description

Core demoulding method for concrete structures {METHOD FOR SEPARATING CORE STEEL FORM FROM CONCRETE STRUCTURE}

The present invention relates to a core demolding method of a concrete structure demolding the formwork installed inside the concrete structure, more specifically concrete to make the demoulding of the core steel foam efficiently in a short time while minimizing damage to the concrete structure A method for demolding cores of structures.

In general, in order to construct a concrete structure at a construction site, a form is formed in a desired shape, a rebar is installed thereto, and a method of pouring concrete is used.

After the cast concrete is cured, the mold is demolded. In this case, the most common method of demolding the formwork is the demoulding method, in which workers remove the formwork one by one manually. Not the right way to do it.

In other words, in large-scale construction sites, the concrete blocks are constructed in the same structure, and several pieces are constructed. In this case, the molds forming a concrete block are pulled vertically by using heavy equipment such as cranes without dismantling the formwork one by one. After demolding at the same time, it moves to the next concrete block construction site.

However, the above conventional technologies have the following problems.

Formwork installed on the outer surface of a conventional concrete structure can be easily demolded using heavy equipment such as a crane, but core steel foam, a formwork installed inside the concrete structure, is difficult for heavy equipment to enter, so that a worker may manually By demolding, the damage of the concrete structure is easily generated during the demolding operation, and a large amount of manpower and time is required for the demolding operation, and there is a problem that the efficiency of the demolding operation is significantly reduced.

10-0864593 "Die demoulding and moving device" (2008.10.15.)

Accordingly, the present invention has been made to solve the conventional problems as described above,

It is an object of the present invention to provide a core demolding method of a concrete structure in which the demolding of the core steel foam is efficiently performed in a short time while minimizing damage to the concrete structure.

In order to achieve the above object, the "core demoulding method of a concrete structure" according to the present invention includes a pair of ground frames installed on the ground, a pair of front and rear moving parts movable back and forth along the upper surface of the ground frame, A pair of vertical frames mounted on an upper surface of the front and rear moving parts, a horizontal frame installed between the vertical frames, a left and right moving part movable left and right along the horizontal frame, and vertically installed on a lower surface of the left and right moving parts A demolding device preparation step of preparing a demolding device including a hydraulic cylinder and a pressure plate mounted at a lower end of the hydraulic cylinder; A concrete structure arrangement step of disposing a concrete structure by moving a crane between the ground frames inside the demolding device; A forward and backward movement step of moving the back and forth movement part along the ground frame to move the pressing plate in a forward and backward direction to a position where the core steel foam of the concrete structure is to be removed; A horizontal movement step of moving the pressure plate in a horizontal direction by moving the horizontal movement part along the horizontal frame to remove the core steel foam of the concrete structure; A pressure plate moving step of operating the hydraulic cylinder to move the pressure plate downwardly into the concrete structure; A pressure demolding step of continuously demonstrating the pressing plate to pressurize and demold the core steel foam installed in the concrete structure; It is characterized by including.

In addition, the concrete structure arrangement step of the "core demoulding method of the concrete structure" according to the present invention, in place of moving the concrete structure by a crane between the ground frame to the inside of the demolding device, arranged in advance Characterized in that the installation by placing the demolding device around the concrete structure.

In addition, the pressure demolding step of the "core demoulding method of the concrete structure" according to the present invention, the pressure plate vibration process for vibrating the core steel foam by vibrating the pressure plate while pressing the core steel foam through the pressure plate, It further comprises.

Further, in the pressure plate vibration process of the "core demoulding method of concrete structure" according to the present invention, the vibration of the pressure plate is characterized in that it is started after the pressure plate reaches a set pressure.

In addition, the concrete structure arrangement step of the "core demoulding method of the concrete structure" according to the present invention, after arranging the demolding device on the concrete structure further comprises a structure separation process for separating the concrete structure from the ground to the upper side. Characterized in that.

In addition, the concrete structure arrangement step of the "core demoulding method of the concrete structure" according to the present invention, after arranging the demolding device on the concrete structure further comprises a structure fixing process for fixing the concrete structure to the demolding device, Characterized in that.

As described above, the present invention has the effect of minimizing damage to the concrete structure to prevent the occurrence of defects smoothly and demolding of the core steel foam efficiently in a short time, thereby minimizing unnecessary manpower and waste of time.

1 is a step showing a demoulding method according to the invention,
2 is a schematic perspective view of a core demolding apparatus used in the demolding method according to the present invention;
3 is a schematic plan view of a core demolding apparatus used in the demolding method according to the present invention;
4 is a schematic front view of the core demolding apparatus used in the demolding method according to the present invention;
5 is a schematic side view of a core demolding apparatus used in the demolding method according to the present invention;
6 is a schematic perspective view showing an operating state of the core demolding apparatus used in the demolding method according to the present invention;
7 is a schematic front sectional perspective view showing an operating state of a core demolding apparatus used in the demolding method according to the present invention;
8 is a schematic front sectional view showing an operating state of the core demolding apparatus used in the demolding method according to the present invention;
9 is a schematic side cross-sectional perspective view showing an operating state of the core demolding apparatus used in the demolding method according to the present invention;
Figure 10 is a schematic side cross-sectional view showing an operating state of the core demolding apparatus used in the demolding method according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the present invention may be embodied in many different forms and should not be limited to the described embodiments.

2 to 10 are schematic views of the core demolding apparatus used in the demolding method according to the present invention. As shown in the drawing, the core demolding apparatus used in the demolding method according to the present invention includes a pair of ground frame 10 installed on the ground, and a pair of front and rear movable back and forth along the upper surface of the ground frame 10. East 20, a pair of vertical frame 30 mounted on the upper surface of the front and rear movement unit 20, a horizontal frame 40 installed between the vertical frame 30, and the horizontal frame 40 Left and right moving unit 50 that can move left and right along the), the hydraulic cylinder 60 is installed vertically on the lower surface of the left and right moving unit 50, and mounted on the lower end of the hydraulic cylinder 60 and the hydraulic cylinder (60) It includes a pressure plate 70 that can be moved up and down by.

The ground frame 10 is installed in a pair so as to be spaced apart from each other on the ground horizontally long corresponding to both sides of the concrete structure (A) and the rail 11 is installed horizontally on the upper surface, the front and rear moving part 20 is It serves to provide a space in which the concrete structure (A) is disposed while serving to provide a path that is moved horizontally. The rail 11 is known to allow the front and rear movement unit 20 to move horizontally.

Here, the concrete structure (A) has shown a grill beam, for example, and the core steel foam installed in the upper and lower through-holes of the concrete structure (A) is omitted. The concrete structure (A) may be disposed to be transferred between the ground frame (10) by a crane or the like, or the ground frame (10) may be installed with the concrete structure (A) therebetween.

The ground frame 10 as described above has a pair of stoppers 12 installed on the upper surfaces of both ends of the ground frame 10 in correspondence with the front and rear moving parts 20, and the pair of ground frames 10. It further includes a pair of support frames 13 installed correspondingly between the inner side and supporting the front and rear of the concrete structure (A).

The stopper 12 serves to prevent the front and rear moving parts 20 from being separated from the both ends of the rails 11 from the ground frame 10. The support frame 13 fixes the front and rear surfaces of the concrete structure A to serve to stably support the concrete structure A when pressurized by the inflow cylinder and simultaneously support the concrete structure A. Spaced from the ground to the top to facilitate the discharge of the core steel foam to the bottom.

The front and rear moving parts 20 are provided as a pair to be mounted on the upper surface of the rail 11, so that the vertical frame 30 can be horizontally moved along the rail 11 by the user pushing to one side. will be.

The front and rear movement unit 20 is mounted on the upper surface of each of the rails 11 and the plurality of first wheels 21 movable along the rails 11 and on both sides of the first wheels 21. It is mounted between the pair of side mounting plate 22 and the first wheel 21 is rotatably provided, and the top of the pair of side mounting plate 22 and the vertical frame 30 on the upper surface The upper plate 23 is mounted on the lower end of the lower portion, a pair of fixing plate 24 mounted on the front and rear of the side mounting plate 22, respectively, and the fixing plate 24 to be fitted to the rail 11 It includes a locking step (25) formed at the bottom of the.

The first wheel 21 serves to move while being rotated along the rail 11 in a state in which both ends thereof are rotatably fixed to the side mounting plate 22, the side mounting plate 22 is Provides a place where the first wheel 21 is rotatably fixed, the top plate 23 is a place where the vertical frame 30 is mounted while serving to secure the side mounting plate 22 by interconnecting Serves to provide.

The fixing plate 24 serves to fix the front and rear surfaces of the side mounting plate 22 while providing a place where the locking step 25 is formed. The latching jaw 25 is fitted to the rail 11 so as to slide horizontally, and when an external force acts on the upper side, the catching jaw 25 is caught by the rail 11 to block the rise of the front and rear moving part 20.

The vertical frame 30 is provided as a pair and are installed vertically in the center of the upper surface of the front and rear movement unit 20, respectively, to provide a place where the horizontal frame 40 is installed in a spaced apart state from the ground Play a role.

The vertical frame 30 is such that the reinforcing rib 31 is symmetrically attached between the upper and rear surfaces of the front and rear moving parts 20 and the vertical frame 30, and the top and the vertical of the reinforcing rib 31 It further comprises a pair of scaffold 32 is attached horizontally between the front and rear surfaces of the frame 30.

The reinforcing rib 31 serves to enhance the firmness by reinforcing the installation state of the vertical frame 30 with respect to the top plate 23, and the footrest 32 is bright for the user and the concrete structure (A). It is to be able to easily climb to the top of the.

The horizontal frame 40 is provided between the upper end of the pair of vertical frame 30 and is provided with a moving plate 41 protruding horizontally on both sides, so that the left and right moving parts 50 can move horizontally It serves to support the hydraulic cylinder 60 while providing a place to be installed. The moving plate 41 serves to provide a path through which the left and right moving parts 50 are moved.

The left and right moving parts 50 are mounted on the upper surface of the moving plate 41 and are movable horizontally along the moving plate 41 to move the hydraulic cylinder 60 horizontally.

The left and right moving parts 50 are mounted on the upper surface of each of the moving plates 41 and the plurality of second wheels 51 movable along the moving plate 41 and the outside of the moving plate 41. A pair of outer mounting plates 52 mounted on the outer side of the second wheel 51 and rotatably provided with the second wheels 51 corresponding to the side surfaces, and the pair of outer mounting plates 52. It is mounted between the lower end of the lower plate 53 is the upper end of the hydraulic cylinder 60 is mounted on the lower surface, and the lower end is mounted on the outer side of the upper end of the outer mounting plate 52 to the upper portion of the horizontal frame 40 A plurality of protruding supports 54, upper end plates 55 attached to the lower surface of the upper end of the support 54, and hydraulic pressures installed on the upper surface of the upper end plate 55 and connected to the hydraulic cylinder 60. Pump 56.

The second wheel 51 serves to move while being rotated along the moving plate 41 in a state in which the outer end thereof is rotatably fixed to the outer mounting plate 52, and the outer mounting plate 52. Provides a place where the second wheel 51 is rotatably fixed, and the lower plate 53 is installed by the hydraulic cylinder 60 while connecting and coupling the pair of outer mounting plates 52 to each other. While providing a place to be close to the lower surface of the horizontal frame 40 serves to support the hydraulic cylinder (60).

The support 54 serves to support the top plate 55 while providing a place where the top plate 55 is installed above the bottom plate 53, and the top plate 55 is the hydraulic pressure. It serves to provide a place where all the equipment for the hydraulic cylinder 60 including the pump 56 is installed. The hydraulic pump 56 is known to drive the hydraulic cylinder 60 by transmitting a hydraulic force to the hydraulic cylinder 60 while being driven by the supply of electricity.

The hydraulic cylinder 60 is installed vertically on the lower surface of the left and right moving parts 50, while the rod is moved up and down by hydraulic pressure to move the pressure plate 70 up and down and downward in the pressure plate 70 It acts to give pressure.

The pressure plate 70 is mounted to the lower end of the rod, and is moved downward by the hydraulic cylinder 60 is inserted into the inside of the concrete structure (A) to press the core steel foam located therein in the downward direction It serves to demold.

As shown in FIG. 2 to FIG. 9 and the above description, the core demolding method of the concrete structure according to the present invention includes a demolding device preparation step (S10) of preparing a demolding device, and concrete in the demolding device. Concrete structure arrangement step (S20) for placing the structure, the front and rear movement step (S30) for moving the pressing plate of the demolding device in the front and rear direction, the left and right movement step (S40) for moving the pressing plate in the left and right directions, A pressure plate moving step (S50) of driving the hydraulic cylinder to move the pressure plate downward (S50), and a pressure demolding step (S60) of pressing and removing the core steel foam inside the concrete structure by continuously moving the pressure plate. do.

The demolding device preparing step (S10) is a step of preparing the demolding device, the demolding device can move back and forth along the upper surface of the ground frame and a pair of ground frame 10 is installed on the ground as described above A pair of forward and backward moving parts 20, a pair of vertical frames 30 mounted on an upper surface of the front and rear moving parts, a horizontal frame 40 installed between the vertical frames, and left and right along the horizontal frame A movable left and right moving part 50, a hydraulic cylinder 60 installed vertically on the lower surface of the left and right moving parts, and a pressure plate 70 mounted on the lower end of the hydraulic cylinder.

The concrete structure arrangement step (S20) refers to the step of placing the concrete structure by moving the crane between the ground frame to the inside of the demolding device. This step is to move the concrete structure to be demolded to the inside of the pre-installed demolding device to be placed by a crane.

The concrete structure arrangement step (S20) is to install the demolding device around the pre-placed concrete structure instead of placing the concrete structure by moving the crane between the ground frame between the ground frame inside the demolding device You can also place it.

That is, two methods of transferring the concrete structure to the demolding apparatus in the state where the demolding apparatus is disposed in advance and disposing the demolding apparatus may be used. The concrete structure is a relatively large building large structure, it is more efficient for the demolding operation to move the demolding device to the site where they are manufactured.

The concrete structure arrangement step (S20) further includes a structure separation process for separating the concrete structure from the ground to the upper side after placing the demolding device on the concrete structure. The structure separation process is to allow the concrete structure to be spaced apart from the ground so that the core steel foam that is demolded from the inside of the concrete structure can be smoothly discharged to the bottom.

In addition, the concrete structure arrangement step (S20) further includes a structure fixing process of fixing the concrete structure to the demolding device after placing the demolding device on the concrete structure. The structure fixing process is to firmly fix the concrete structure to prevent shaking or misalignment of the concrete structure during pressurization of the core steel foam by the hydraulic cylinder and the pressure plate.

Such a structure separation process and a structure fixing process may be performed together or more preferably.

The front and rear movement step (S30) refers to the step of moving the pressing plate in the front and rear direction to the position to remove the core steel foam of the concrete structure by moving the front and rear movement unit along the ground frame. This step is a process of moving the pressure plate in the front and rear direction to the position to remove the core steel foam of the concrete structure.

The left and right movement step (S40) refers to the step of moving the pressure plate in the left and right directions to the position to remove the core steel foam of the concrete structure by moving the left and right moving portion along the horizontal frame. This step is a process of moving the pressure plate to the left and right directions to remove the core steel foam of the concrete structure.

As described above, the pressing plate is moved to a desired work position on a plane through the front and rearward moving step S30 and the left and right moving step S40.

The pressure plate moving step (S50) refers to a step of moving the pressure plate in the downward direction to the inside of the concrete structure by operating the hydraulic cylinder. This step serves to position the pressure plate in close proximity to the core steel foam to demould of the concrete structure.

The pressure demolding step (S60) refers to a step of demolding by pressing the core steel foam installed in the concrete structure by continuously moving the pressure plate. This step serves to deform by pressing the core steel foam installed in the concrete structure with the pressure plate.

The pressure demolding step S60 further includes a pressure plate vibration process of vibrating the core steel foam by vibrating the pressure plate while pressing the core steel foam through the pressure plate. The pressure plate vibration process vibrates the core steel foam through a vibrator installed on the pressure plate to allow the core steel foam to be separated and detached from the concrete structure more smoothly and stably while minimizing damage to the concrete structure. will be.

In such a pressure plate vibration process, the vibration of the pressure plate is preferably started after the pressure plate reaches the pressure set by the user, which is set in advance so that the transmission of the pressing force is not disturbed before the pressure reaches the set pressure. This is because there is no need to vibrate unnecessarily in the case where the core steel foam is previously separated before being pressed under pressure and vibrated.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention.

10: ground frame
11: rail 12: stopper
13: support frame
20: forward and backward moving part
21: first wheel 22: side mounting plate
23: top plate 24: fixed plate
25: jamming jaw
30: vertical frame
31: reinforcement rib 32: scaffold
40: horizontal frame
41: moving plate
50: left and right moving parts
51: second wheel 52: outer mounting plate
53: bottom plate 54: support
55: top plate 56: hydraulic pump
60: hydraulic cylinder
70: pressure plate
A: Concrete Structure

Claims (6)

A pair of ground frames installed on the ground, a pair of front and rear moving parts that can move back and forth along the upper surface of the ground frame, a pair of vertical frames mounted on the upper and rear moving parts, and installed between the vertical frames A demoulding device comprising a horizontal frame, a horizontal moving part movable horizontally along the horizontal frame, a hydraulic cylinder installed vertically on a lower surface of the horizontal moving part, and a pressure plate mounted at a lower end of the hydraulic cylinder. Device preparation step (S10);
A concrete structure arrangement step (S20) of disposing the concrete structure by moving the crane between the ground frame to the inside of the demolding device;
A forward and backward movement step (S30) of moving the front and rear moving parts along the ground frame to move the pressing plate in the front and rear directions to a position to remove the core steel foam of the concrete structure;
A horizontal movement step (S40) for moving the pressure plate to the position to remove the core steel foam of the concrete structure by moving the horizontal movement part along the horizontal frame (S40);
A pressure plate moving step (S50) of operating the hydraulic cylinder to move the pressure plate downwardly into the concrete structure;
A pressure demolding step (S60) of continuously demonstrating demolding by pressing the core steel foam installed in the concrete structure by continuously moving the platen;
Core demoulding method of a concrete structure comprising a.
The method of claim 1,
The concrete structure arrangement step (S20),
Core demoulding of the concrete structure, characterized in that the demolding device is installed and arranged around the pre-placed concrete structure, instead of moving the concrete structure with a crane between the ground frame inside the demolding device Way.
The method of claim 1,
The pressure demolding step (S60),
A pressure plate vibration process of vibrating the core steel foam by vibrating the pressure plate while pressing the core steel foam through the pressure plate;
Core demoulding method of the concrete structure, characterized in that it further comprises.
The method of claim 3,
In the vibration of the pressure plate, the vibration of the pressure plate is released after the pressure plate reaches a set pressure, the core demoulding method of the concrete structure.
The method of claim 1,
The concrete structure arrangement step (S20),
After disposing the demolding device in the concrete structure structure separation process for separating the concrete structure from the ground to the upper side,
Core demoulding method of the concrete structure, characterized in that it further comprises.
The method of claim 1,
The concrete structure arrangement step (S20),
A structure fixing process of fixing the concrete structure to the demolding apparatus after placing the demolding apparatus on the concrete structure;
Core demoulding method of the concrete structure, characterized in that it further comprises.

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