KR102124031B1 - Apparatus for hydraulically separating core steel from - Google Patents

Abstract

The present invention relates to a hydraulic core demolding device that allows the demolding of a core steel foam to be efficiently performed in a short time while minimizing damage to a concrete structure, and the demolding device is horizontally long and installed on the ground corresponding to both sides of the concrete structure , A pair of ground frames are installed horizontally on the upper surface rail; A pair of front-rear moving parts mounted on an upper surface of the rail and movable horizontally along the rail; A pair of vertical frames each vertically installed at the center of the front and rear moving parts; A horizontal frame installed between the upper ends of the pair of vertical frames and provided with moving plates protruding horizontally on both sides; A left and right moving part which is mounted on the upper surface of the moving plate and is horizontally movable along the moving plate; A hydraulic cylinder installed vertically on the lower surface of the left and right moving parts, and the rod moved up and down by hydraulic pressure; A pressure plate mounted on the lower end of the rod and insertable into the concrete structure; Includes.

Description

Hydraulic core demolding device {APPARATUS FOR HYDRAULICALLY SEPARATING CORE STEEL FROM}

The present invention relates to a core demolding device, and more particularly, to a hydraulic core demolding device that allows the demolding of the core steel foam to be efficiently performed in a short time while minimizing damage to the concrete structure.

In general, in order to construct a concrete structure at a construction site, a method of forming a formwork in a desired shape, installing a reinforcing bar thereon, and pouring concrete is used.

When the cast concrete is cured, the mold is demolded. At this time, the most common method of demolding the mold is a demolding method in which the workers manually remove the mold one by one, but this is a concrete block construction that is repeatedly installed in the same form. It's not the right way to do it.

That is, in a large-scale construction site, several concrete blocks are constructed with the same structure. In this case, the formwork forming one concrete block is pulled vertically using heavy equipment such as a crane without dismantling the formwork individually. After demolding at the same time, it is moved to the next concrete block construction position.

However, the prior art has the following problems.

The formwork installed on the outer surface of the conventional concrete structure can be easily demolded using heavy equipment such as a crane, but the core steel foam, which is installed inside the concrete structure, is difficult for heavy equipment to enter, so workers can manually use a hammer By demoulding, damage to the concrete structure easily occurs during demolding, and it takes a lot of manpower and time to perform demolding.

Registered Patent No. 10-0864593 "Demolition and moving device of mold" (October 15, 2008)

Therefore, the present invention was devised to solve the above-mentioned problems.

An object of the present invention is to provide a hydraulic core demolding device that allows the demolding of a core steel foam to be efficiently performed in a short time while minimizing damage to a concrete structure.

In order to achieve the above object, the "hydraulic core demolding device" according to the present invention is installed on a horizontally long ground corresponding to both sides of a concrete structure, and a pair of ground frames horizontally installed with rails on the upper surface; A pair of front-rear moving parts mounted on an upper surface of the rail and movable horizontally along the rail; A pair of vertical frames each vertically installed at the center of the front and rear moving parts; A horizontal frame installed between the upper ends of the pair of vertical frames and provided with moving plates protruding horizontally on both sides; A left and right moving part which is mounted on the upper surface of the moving plate and is horizontally movable along the moving plate; A hydraulic cylinder installed vertically on the lower surface of the left and right moving parts, and the rod moved up and down by hydraulic pressure; A pressure plate mounted on the lower end of the rod and insertable into the concrete structure; It is characterized by including.

In addition, the front and rear moving parts of the "hydraulic core demolding device" according to the present invention are mounted on both sides of the first wheel and a plurality of first wheels which are mounted on the upper surface of each rail and are movable along the rail. A pair of side mounting plates having a first wheel rotatably provided, an upper surface plate mounted between the upper ends of the pair of side mounting plates and the lower end of the vertical frame mounted on an upper surface, and the front surface of the side mounting plates And a pair of fixed plates mounted to the rear and a locking jaw formed at the bottom of the fixed plate so as to be fitted to the rail, and the pressing plate is installed therein and vibrated by the supply of power while the pressing plate It characterized in that it comprises a vibrator, which vibrates.

In addition, the front and rear moving parts of the "hydraulic core demolding device" according to the present invention, the first motor is connected to the first wheel and installed on the side mounting plate to rotate and drive the first wheel by supply of power, Characterized in that it further comprises.

In addition, the left and right moving parts of the "hydraulic core demolding device" according to the present invention, a plurality of second wheels that are mounted on the upper surface of each moving plate and movable along the moving plate, correspond to the outer surface of the moving plate It is mounted on the outer side of the second wheel and the pair of outer mounting plates provided with the second wheel rotatable, and is mounted between the lower ends of the pair of outer mounting plates and the upper end of the hydraulic cylinder is mounted on the lower surface. The lower plate being mounted, a lower end mounted on the upper outer side of the outer mounting plate and protruding to the upper portion of the horizontal frame, an upper plate attached to a lower surface at the upper end of the support plate, and installed on an upper surface of the upper plate And a hydraulic pump connected to the hydraulic cylinder.

In addition, the left and right moving parts of the "hydraulic core demolding device" according to the present invention, the second motor is connected to the second wheel and installed on the outer mounting plate and rotates and drives the second wheel by supply of power, Characterized in that it further comprises.

In addition, the ground frame of the "hydraulic core demolding device" according to the present invention, corresponding to the front-rear moving portion, the pair of stoppers which are respectively installed on the upper surfaces of both ends of the ground frame, and the inner side of the pair of ground frames It is installed correspondingly between the pair of support frames, which support the front and rear surfaces of the concrete structure, the vertical frame is reinforced to be symmetrically attached between the front and rear surfaces of the front and rear moving parts and the vertical frame It characterized in that it further comprises a pair of scaffolds that are horizontally attached between the ribs and the front and rear surfaces of the vertical frame and the upper end of the reinforcing ribs.

The present invention as described above, the damage of the concrete structure is minimized, the occurrence of defects is smoothly prevented, and the demolding of the core steel foam is efficiently performed in a short time to minimize unnecessary manpower and waste of time.

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

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, it should be understood that the present invention can be implemented in many different forms and is not limited to the described embodiments.

1 to 9 are schematic diagrams of a core demolding apparatus according to the present invention. As shown in the drawing, the hydraulic core demolding device according to the present invention includes a pair of ground frames 10 installed on the ground, and a pair of front and rear moving parts 20 movable back and forth along the upper surface of the ground frame 10 And, a pair of vertical frames 30 mounted on the upper surface of the front-rear moving unit 20, the horizontal frame 40 installed between the vertical frame 30, and the left and right along the horizontal frame 40 The movable left and right moving parts 50, the hydraulic cylinder 60 vertically installed on the lower surface of the left and right moving parts 50, and mounted on the lower end of the hydraulic cylinder 60, up and down by the hydraulic cylinder 60 It includes a pressing plate 70 that can be moved to.

The ground frame 10 is horizontally long corresponding to both sides of the concrete structure (A) is installed as a pair spaced apart from each other on the ground and the rail 11 is installed horizontally on the upper surface, the front and rear moving portion 20 While serving to provide a horizontally moving path, it serves to provide a space in which the concrete structure (A) is disposed. The rail 11 is well known to allow the front-rear moving portion 20 to ride and move horizontally.

Here, the concrete structure (A) shows 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 transported and disposed between the ground frames 10 by a crane or the like, or the ground frame 10 may be installed with the concrete structure A interposed therebetween.

The ground frame 10 as described above corresponds to the front-rear moving portion 20, a pair of stoppers 12, which are respectively installed on the upper surfaces of both ends of the ground frame 10, and the pair of ground frames 10 ) Is installed correspondingly between the inside and further includes a pair of supporting frames 13 supporting the front and rear surfaces of the concrete structure (A).

The stopper 12 serves to prevent the front-rear moving portion 20 from being detached from the ground frame 10 beyond the both ends of the rail 11. The support frame 13 secures the front and rear surfaces of the concrete structure (A) to stably support the concrete structure (A) during pressurization by the inflow cylinder, and simultaneously supports the concrete structure (A). It is to be spaced upward from the ground so that the core steel foam can be discharged smoothly downward.

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

The front and rear moving parts 20 as described above are mounted on the upper surfaces of the respective rails 11 and are movable on the rails 11 to a plurality of first wheels 21 and both sides of the first wheels 21. Mounted between the pair of side mounting plates 22 and the upper end of the pair of side mounting plates 22, the first wheel 21 is rotatably provided, and the vertical frame 30 on the upper surface The upper plate 23 is mounted on the lower end, a pair of fixed plates 24 mounted on the front and rear surfaces of the side mounting plate 22, and the fixed plate 24 so as to be fitted between the rails 11 It includes a locking jaw 25 formed at the bottom of the.

The first wheel 21 serves to move while being rotated along the rail 11 in a state where both ends thereof are rotatably fixed to the side mounting plate 22, and the side mounting plate 22 is the The first wheel 21 provides a place to be rotatably fixed, and the top plate 23 serves to interconnect and fix the side mounting plates 22 while the vertical frame 30 is mounted. It serves to provide.

The fixing plate 24 serves to connect and fix the front and rear surfaces of the side mounting plate 22 to each other, and serves to provide a place where the locking jaws 25 are formed. When the external force acts on the upper side while being slidably inserted horizontally on the rail 11, the locking jaw 25 is caught by the rail 11 and serves to block the rise of the front-rear moving portion 20.

The vertical frame 30 is provided as a pair and is vertically installed in the center of the upper and lower portions of the front-rear moving unit 20, respectively, providing a place where the horizontal frame 40 is installed in a state spaced upward from the ground. Plays a role.

The vertical frame 30 is a reinforcing rib 31 that is symmetrically attached between the upper surface of the front-rear moving portion 20 and the front-rear surface of the vertical frame 30, and the upper end of the reinforcing rib 31 It further includes a pair of scaffolds 32 that are horizontally attached between the front and rear surfaces of the frame 30.

The reinforcing ribs 31 reinforce the installation state of the vertical frame 30 with respect to the top plate 23 to improve its robustness, and the scaffold 32 is bright and concrete to the user (A) It is to make it easy to climb to the upper surface of.

The horizontal frame 40 is provided between the upper ends of the pair of vertical frames 30 and is provided with a moving plate 41 protruding horizontally on both sides, so that the left and right moving parts 50 can be moved 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 can be moved horizontally along the moving plate 41 so that the hydraulic cylinder 60 can be moved horizontally.

The left and right moving parts 50 as described above are placed on the upper surface of each of the moving plates 41 and moveable along the moving plates 41, a plurality of second wheels 51, and other than the moving plate 41 A pair of outer mounting plates 52 mounted on the outside of the second wheel 51 and rotatably provided with the second wheel 51 corresponding to the side surfaces, and the pair of outer mounting plates 52 It is mounted between the bottom of the lower plate 53 is mounted on the lower surface of the upper end of the hydraulic cylinder 60, and the lower side is mounted on the upper outer side of the outer mounting plate 52, and to the top of the horizontal frame 40 A plurality of protruding support (54), the top plate (55) attached to the bottom surface of the top of the support (54), installed on the top surface of the top plate (55) hydraulic connected to the hydraulic cylinder (60) Pump 56 is included.

The second wheel 51 serves to move while being rotated along the moving plate 41 with its outer end 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 while the hydraulic cylinders 60 are connected to each other by connecting and connecting 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 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 hydraulic power to the hydraulic cylinder 60 while being driven by the supply of electricity.

The hydraulic cylinder 60 is vertically installed on the lower surface of the left and right moving parts 50. As the rod moves up and down by hydraulic pressure, the pressure plate 70 is moved up and down, and the pressure plate 70 is moved downward. It serves to impart a pressing force.

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

The demolding device configured as described above moves in the front-rear direction through the front-rear moving unit 20 in a state in which a concrete structure A is disposed inside the ground frame 10 as shown in FIGS. 5 to 9. Afterwards, the pressure plate 70 is positioned on the upper portion of the core steel foam (not shown) to be removed from the concrete structure A by moving in the left and right directions through the left and right moving parts 50.

In this state, the hydraulic cylinder 60 is operated to move the pressure plate 70 in a downward direction to press the core steel foam located inside the concrete structure A downwardly to release it.

10 is a schematic front sectional view of a core demolding apparatus according to another embodiment of the present invention. As shown in this, the pressing plate 70 of the core demolding apparatus according to another embodiment of the present invention is installed therein and includes a vibrator 71 that vibrates the pressing plate 70 while being vibrated by the supply of power. do. The vibrator 71 is driven when the pressure plate 70 presses the core steel foam (not shown) of the concrete structure (A), thereby vibrating the pressure plate 70 to form the core steel foam in the concrete structure (A). It is to make separation and separation more smooth and stable.

In addition, the front and rear moving unit 20 is connected to the first wheel 21, is installed on the side mounting plate 22, the first motor to rotate and drive the first wheel 21 by supply of power (26) ), and the left and right moving parts 50 are connected to the second wheel 51 and installed on the outer mounting plate 52 to rotate and drive the second wheel 51 by supply of power. 2 further includes a motor (57).

The first motor 26 allows the front and rear moving parts 20 to be automatically moved by the user's operation or control, and the second motor 57 is the left and right moving parts (by the user's operation or control). 50) is to be moved automatically.

It is preferable that the operation or control for the automatic movement is performed through a wired/wireless remote control.

Although the preferred embodiments of the present invention have been described above, the present invention can use various changes, modifications, and equivalents. It is clear that the present invention can be equally applied by appropriately modifying the above embodiments. Therefore, the above description is not intended to limit the scope of the present invention as defined by 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: Front and back moving part
21: first wheel 22: side mounting plate
23: top plate 24: fixed plate
25: locking jaw 26: first motor
30: Vertical frame
31: reinforcement rib 32: scaffolding
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
57: second motor
60: hydraulic cylinder
70: pressure plate
71: vibrator
A: Concrete structure

Claims (6)

Corresponding to both sides of the concrete structure is installed on the ground horizontally long, a pair of ground frame 10 is installed rails 11 horizontally on the upper surface;
A pair of front and rear moving parts 20 mounted on the upper surface of the rail 11 and horizontally movable along the rail 11;
A pair of vertical frames 30 vertically installed at the centers of the front and rear moving parts 20, respectively;
A horizontal frame 40 installed between the upper ends of the pair of vertical frames 30 and provided with moving plates 41 projecting horizontally on both sides;
A left and right moving part 50 mounted on the upper surface of the moving plate 41 and horizontally movable along the moving plate 41;
A hydraulic cylinder 60 vertically installed on the lower surface of the left and right moving parts 50 and the rod moved up and down by hydraulic pressure;
A pressure plate 70 mounted on the lower end of the rod and insertable into the concrete structure; Including,
The ground frame 10,
A pair of stoppers 12, which are respectively installed on the upper surfaces of both ends of the ground frame 10 in correspondence with the front and rear moving parts 20,
A pair of support frames 13, which are installed to correspond to the inside of the pair of ground frames 10 and support the front and rear surfaces of the concrete structure, further include
The vertical frame 30,
A reinforcing rib 31 symmetrically attached between the front surface of the front-rear moving part 20 and the front-rear surface of the vertical frame 30,
A hydraulic core demolding device further comprising a pair of scaffolds (32) horizontally attached between the upper end of the reinforcing ribs (31) and the front and rear surfaces of the vertical frame (30).
According to claim 1,
The front and rear moving portion 20,
A plurality of first wheels 21 mounted on an upper surface of each rail 11 and movable along the rail 11,
A pair of side mounting plates 22 mounted on both sides of the first wheel 21 and rotatably provided with the first wheel 21;
The upper surface plate 23 is mounted between the upper end of the pair of side mounting plate 22 and the lower end of the vertical frame 30 is mounted on the upper surface,
A pair of fixing plates 24 are mounted on the front and rear of the side mounting plate 22,
It includes a locking jaw 25 formed at the lower end of the fixing plate 24 so as to be fitted to the rail 11,
The pressure plate 70,
And a vibrator (71) that is installed therein and vibrates the pressure plate (70) while being vibrated by the supply of power.
According to claim 2,
The front and rear moving portion 20,
A first motor 26 connected to the first wheel 21 and installed on the side mounting plate 22 to rotate and drive the first wheel 21 by supply of power,
Hydraulic core demolding device further comprises a.
According to claim 1,
The left and right moving portion 50,
A plurality of second wheels 51 mounted on the upper surface of each of the moving plates 41 and movable along the moving plates 41,
Corresponding to the outer surface of the moving plate 41 and a pair of outer mounting plate 52 is mounted to the outside of the second wheel 51 and the second wheel 51 is rotatably provided,
The lower plate 53 is mounted between the lower end of the pair of outer mounting plate 52 and the upper end of the hydraulic cylinder 60 is mounted on the lower surface,
A plurality of supports 54 having a lower end mounted on the upper outer side of the outer mounting plate 52 and projecting to the upper portion of the horizontal frame 40;
The upper plate 55 is attached to the lower surface to the upper end of the support (54),
A hydraulic pump 56 installed on the upper surface of the upper plate 55 and connected to the hydraulic cylinder 60,
Hydraulic core demolding device comprising a.
The method of claim 4,
The left and right moving portion 50,
A second motor 57 connected to the second wheel 51 and installed on the outer mounting plate 52 to rotate and drive the second wheel 51 by supply of power,
Hydraulic core demolding device further comprises a.
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