KR100953689B1 - Yoke Apparatus of Slip-form for Caisson and Method for constructing Caisson using the same - Google Patents

Abstract

The present invention relates to a slip foam for caisson and a caisson construction method using the same. The present invention is to load the horizontal muscles in the upper deck installed on the top of the vertical yoke vertically moved to the construction position, and then move the horizontal muscles to the reinforcement position through the yoke vertical and the upper and lower yoke horizontals so that the horizontal length of the caisson It is possible to reinforce as it is without cutting the horizontal root having the length corresponding to the vertical length. Therefore, it is possible to save construction materials by not using the joint for connecting the horizontal root which has been cut conventionally. Quality can be improved, work safety can be secured, and concrete can be cast by concrete supply hopper installed on the upper deck, concrete hopper installed on the branch pipe, and yoke leveling material. Not only in the process of pouring concrete The occurrence of accidents due to collisions and damage due to collision or the operator of the components will have to be reliably prevented.

Description

Yoke Apparatus of Slip-form for Caisson and Method for constructing Caisson using the same}

The present invention relates to a yoke device for assembling horizontal muscles during slip-form construction of caisson, and in particular, it is possible to easily assemble horizontal muscles, thereby reducing labor costs as well as rebar hoisting cranes 1 The present invention relates to a caisson slip foam and a caisson construction method using the same, which can reduce the cost of equipment by placing concrete.

In general, the caisson is used for the construction of the water barrier, as shown in Figure 1, the bottom portion (B), a plurality of horizontally vertical walls (W) extending upward from the bottom portion (B), It consists of the cavity C formed by these bottom parts B and the walls W. As shown in FIG.

As shown in FIGS. 4 and 5, the slip foam 100 for constructing a conventional caisson includes a yoke 110 installed inside and outside walls W; Consists of the foam panel 120 is assembled to the yoke, the yoke 110 is fixed to both sides of the yoke vertical member 111, and both ends of the yoke vertical member 111 in a state where the both ends are in close contact with each other. The side yoke horizontal members 113 and 114 are comprised.

A stop deck 130 is provided at the stop of the yoke vertical member 111, and the stop deck 130 is disposed at the outside and the inside of the yoke vertical member 111 and the stop inner deck 131. The deck 132 is configured, and the upper and lower yoke horizontal members 113 and 114 are connected by the yoke connector 112.

In the drawing, 210 is a hydraulic cylinder for elevating the slip foam 100 installed between the upper and lower yoke horizontal members 113 and 114, and 220 is a rod for elevating the slip foam 100 in combination with the hydraulic cylinder 210. .

In constructing the caisson by the conventional slip foam configured as described above, the vertical root Rv and the horizontal root Rh are placed between the foam panels 120, and concrete is poured between the foam panels 120.

In this case, since the conventional slip foam is fixedly coupled to both ends of the yoke horizontal members 113 and 114 of the yoke 110 in close contact with the yoke vertical member 111, the horizontal root Rh in the construction of the caisson is used. It cannot enter from the top of 110.

Therefore, in order to reinforce the horizontal root (Rh) in the construction of the caisson using a conventional slip foam, the horizontal root (Rh) loaded on the suspended outer deck (131) of the suspended deck (130) two yoke vertical members (111) Since the horizontal root (Rh) having a length corresponding to the lateral and vertical length of the caisson cannot be used because it must be inserted in between, it is cut into several pieces and inserted between the yoke vertical member 111, and then the several horizontal roots cut into the joint Since the number of construction materials used to be increased, the connection quality is increased, there is a problem that the construction quality is reduced, work safety is reduced.

In addition, since the conventional slip foam has to load the horizontal root (Rh) to the suspended outer deck 131 of the suspended deck 130, it is necessary to connect the flexible hose of the concrete pump car to the pouring position in order to pour concrete. In the process of supplying concrete through the flexible hose of the concrete pump car, the flexible hose is swayed by the concrete pressure and collides with the yoke or the formwork, causing damage, or colliding with the worker, resulting in human accident. As the hose is swung, the concrete flows out of the formwork, so that the workplace is not only dirty, but also needs to clean up the spilled concrete.

Therefore, the object of the present invention is to install a detachable fitting member between the yoke vertical member and the yoke horizontal member to assemble the horizontal muscle, thereby minimizing the connection part of the horizontal muscle, thereby reducing construction materials and improving construction quality by minimizing the connection part. It is to provide a caisson slip foam and a caisson construction method using the same to ensure work safety.

Another object of the present invention is to be able to install the upper deck and the concrete hopper can effectively pour concrete without using a separate concrete pump car can prevent safety accidents due to the swing of the flexible hose due to the pressure of the concrete pipe To provide a caisson slip foam and caisson construction method using the same.

In addition, another object of the present invention is to prevent the concrete from flowing out of the formwork to prevent the messy work as well as the slip foam for caisson so that there is no need to clean up the spilled concrete and caisson construction using the same To provide a way.

The present invention provides a yoke having an upper and lower yoke horizontal member connecting each pair of yoke vertical members and a yoke pair of yoke vertical members and a yoke connecting member connecting the upper and lower yoke horizontal members, in order to achieve the above object, In the slip foam for caisson composed of a foam panel to be assembled, the upper and lower yoke horizontal member is formed shorter than the interval between the inner surface of each of the pair of yoke vertical member to remove both ends of the yoke horizontal member and the inner surface of the upper and lower yoke vertical member. Possible connecting to the horizontal member connecting mechanism, the yoke connecting member is disposed at a position spaced apart from the inner side of the yoke vertical member, the caisson, characterized in that configured by connecting the inner surface of the yoke connecting member and the yoke vertical member by a removable connecting member connecting mechanism. Provides slip foam for

In addition, the present invention, in order to achieve the above object, a concrete supply pipe installed in the upper deck, a plurality of branch pipes branched from the lower end of the concrete supply cylinder extending between the upper yoke horizontal member, and the upper and lower yokes It is fixed to the horizontal member provides a slip foam for caisson, characterized in that the bottom portion further comprises a plurality of concrete hopper located on the upper side of the space between the foam panel.

In addition, the present invention, in order to achieve the above object, is installed rotatably at the bottom of the branch pipe to open and close the branch pipe, and further comprises a guide channel for guiding concrete flowing from the branch pipe to the concrete hopper. Provides a slip foam for caisson characterized in that.

In addition, the present invention, in order to achieve the above object, in the caisson construction method comprising a horizontal muscle rooting step and a concrete placing step, the horizontal muscle rooting step, the upper and lower yoke horizontal member is connected to the yoke vertical member by the horizontal member connecting mechanism Connecting the yoke connecting member to the yoke vertical member by the connecting member connecting mechanism, placing the horizontal muscle on the upper deck and moving the slip foam to the construction position; Remove the fitting member by disassembling the horizontal member connecting mechanism connecting the both ends of the upper yoke horizontal member and the inner surface of the yoke vertical member, removing the connecting piece by dismantling the connecting member connecting mechanism, and clearance between both ends of the upper yoke horizontal member and the yoke vertical member. And moving the horizontal roots, which are loaded on the upper deck, up near both ends of the lower yoke horizontal members through the gap between the yoke connecting member and the yoke vertical member; Reassemble the horizontal member connecting mechanism to connect both ends of the upper yoke horizontal member and the yoke vertical member, and reassemble the connecting member connecting mechanism to connect the yoke connecting member to the inner side of the yoke vertical member, and the inner side of the lower yoke horizontal member and the yoke vertical member. Disassemble the horizontal member connecting mechanism that connects the side, and remove the fitting member so that the horizontal roots loaded on both sides of the lower yoke horizontal member are interposed between the foam panels between the two sides through the gap formed between both ends of the lower yoke horizontal member and the inner surface of the yoke vertical member. Provides a caisson construction method characterized in that the process to move to the reinforcement position.

In another aspect, the present invention, in order to achieve the above object, the concrete pouring step, a plurality of branches is branched from the lower end of the concrete supply container is installed on the upper deck provided on the upper end of the yoke vertical member, the lower end extending between the upper yoke horizontal member The guide channel is pivotally installed at the bottom of the two branch pipes so that the concrete filled in the concrete supply container is supplied to the space between the foam panel through the concrete hopper fixed to the branch pipe and the guide channel and the upper and lower yoke horizontal members. It provides a caisson construction method characterized in that it comprises a process.

According to the slip foam for caisson and the caisson construction method using the same according to the present invention, the horizontal root is mounted on the upper deck installed at the upper end of the yoke vertical member and moved to the construction position, and then the horizontal root is placed between the yoke vertical member and the upper and lower yoke horizontal member. Since it moves to the reinforcement position and reinforces, it is possible to reinforce as it is without cutting the horizontal muscle having the length corresponding to the horizontal length and the vertical length of the caisson. Raw materials can be reduced, construction quality can be improved by minimizing the connection area, and work safety can be secured.

In addition, according to the slip foam for caisson and the caisson construction method using the same according to the present invention is to cast concrete by the concrete hopper installed in the concrete supply pipe and branch pipe and the yoke horizontal member installed on the upper deck, so it does not need to use a separate concrete pump car Not only can the equipment cost be reduced, but the damage caused by the collision with other components or the accident of the human accident due to the collision with other components in the process of placing concrete is reliably prevented.

Hereinafter, the slip foam for caisson according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

Figures 6 to 13 show a slip foam for caisson according to the present invention, Figure 6 is a perspective view of the slip foam for caisson, Figure 7 is a plan view of the slip foam for caisson, Figure 8 is a cross-sectional view taken along line BB of Figure 7, Is a partially enlarged view of FIG. 10, an enlarged front view of a horizontal member connecting device, FIG. 11 is an enlarged front view of a connecting member connecting device, FIG. 12 is a sectional view taken along line CC of FIG. 14a to 14c is a view showing a horizontal muscle reinforcement process according to the present invention, Figure 15 is a view showing a concrete placing process according to the present invention.

6 to 13, the slip foam for caisson according to the present invention, the slip foam (SF) is capable of lifting by the hydraulic cylinder 91 and the rod 92 coupled to the hydraulic cylinder (91). A yoke 10 to be installed; It is composed of a foam panel 20 assembled to the yoke 10.

The yoke 10 includes a yoke vertical member 11, a yoke horizontal member 13 and 14, and a yoke connecting member 12 connecting the upper and lower yoke horizontal members 13 and 14.

As the yoke vertical member 11, an H beam is used, and as the yoke horizontal members 13 and 14, a channel-shaped steel is used.

In addition, connecting pieces 15 and 16 for connecting to the yoke vertical member 11 are welded to both ends of the yoke horizontal member 13 and 14.

The foam panel 20 is connected to the inner surface of the yoke vertical member 11 by a panel connector 21.

The upper and lower yoke horizontal members 13 and 14 are formed to be shorter than an interval between the inner surfaces of both yoke vertical members 11 so that both ends of the horizontal yoke horizontal members 13 and 14 are connected to the inner surfaces of the yoke vertical members 11. Connected through.

As shown in FIG. 10, the horizontal member connecting mechanism 30 and 40 includes fitting members 31 and 41 that are fitted between the inner surface of the yoke vertical member 11 and both ends of the upper and lower yoke horizontal members 13 and 14. And bolts 32 and 42 passing through the connecting pieces 15 and 16 and the fitting members 31 and 41 of the yoke vertical member 11 and the yoke horizontal member 13 and 14, and fastening to the bolts 32 and 42. Consisting of nuts 33 and 43.

The stop portion of the yoke connecting member 12 connecting the upper and lower yoke horizontal members 13 and 14 is detachably connected to the inner surface of the yoke vertical member 11 by the connecting member connecting mechanism 50.

As shown in FIGS. 11 and 12, the connecting member connecting mechanism 50 includes a fixing piece 51 fixed to the inner surface of the yoke vertical member 11 and a fixing piece 52 fixed to the yoke connecting member 12. And a connecting piece 53 having both ends overlapped with the fixing pieces 51 and 52, and a connecting member detachably connecting and fixing both ends of the fixing pieces 51 and 52 and the connecting piece 53, respectively. do.

As the connecting member, pins, bolts and nuts can be used.

In the illustrated example, the connection pins 54 and 55 are used as connection members. In this case, the connection pins 54 and 55 are drilled with pin holes 54a and 55a, respectively, and are separated from the pin holes 54a and 55a. The prevention pins 56 and 57 may be fitted to prevent the connection pins 54 and 55 from being separated.

The yoke vertical member 11 is provided with an upper deck 60 and an interruption deck 70 at positions corresponding to the upper end portion and the foam panel 20, respectively, and the interruption deck 70 includes a yoke vertical member ( It consists of a suspension outer deck 71 and the interruption inner deck 72 arrange | positioned at the outer side and the inner side of 11).

On the other hand, the slip foam for caisson according to the present invention is branched from the lower end of the concrete supply cylinder 81 and the concrete supply cylinder 81 is installed on the upper deck 60, the lower end of the upper yoke horizontal member 13 A plurality of branch pipes 82 extending therebetween, and guide channels for guiding concrete flowing down from the branch pipes 82 while opening and closing the branch pipes 82 so as to be rotatable at the lower ends of the branch pipes 82. (83) and, when the guide channel (83) is unfolded, is fixed to the yoke horizontal members (13) and (14) at a position at the bottom of the guide channel (83) so that the bottom is between the foam panel (20). The upper position of the space further includes a plurality of concrete hoppers 85.

The guide channel 83 is rotatably connected to the branch pipe 82 by a hinge 84.

Hereinafter, the caisson construction method according to the present invention will be described.

The caisson construction method according to the present invention includes the step of placing the horizontal muscles, and the step of placing concrete.

The step of reinforcing the horizontal muscles by the caisson construction method of the present invention, as shown in Figure 14a, the yoke horizontal member 13, 14 is connected to the yoke vertical member 11 by the horizontal member connecting mechanism (30, 40) In the state in which the yoke connecting member 12 is connected to the yoke vertical member 11 by the connecting member connecting mechanism 50, the horizontal root Rh is loaded on the upper deck 60, and the slip foam SF is moved to the construction position. Process; As shown in FIG. 14B, the fitting member 31 is removed by disassembling the horizontal member connecting mechanism 30 that connects both ends of the upper yoke horizontal member 13 and the inner surface of the yoke vertical member 11 to remove the fitting member 31. 50) to remove the connecting piece 53, the upper deck (through the gap between the both ends of the upper yoke horizontal member 13 and the yoke vertical member 11 and the gap between the yoke connecting member 12 and the yoke vertical member 11) Moving the horizontal root Rh, which has been loaded at 60), up and down near both ends of the lower yoke horizontal member 14; As shown in FIG. 14C, the horizontal member connecting mechanism 30 is reassembled to connect both ends of the upper yoke horizontal member 13 to the yoke vertical member 11, and the connecting member connecting mechanism 50 is reassembled to the yoke connecting member. (12) is connected to the inner surface of the yoke vertical member 11, and the horizontal member connecting mechanism 40 for connecting the lower yoke horizontal member 14 and the inner surface of the yoke vertical member 11 is dismantled and fitted (41). Removes and forms the horizontal root Rh, which is loaded on both ends of the lower yoke horizontal member 14, through a gap formed between both ends of the lower yoke horizontal member 14 and the inner surface of the yoke vertical member 11. ) Is the process of moving to the position of the reinforcement between.

In performing the horizontal muscle rooting step, the guide channel 83 is folded as shown in the left side of FIG. 18 so that the lower end of the branch pipe 82 is closed and concrete in the concrete supply container 81 does not flow down arbitrarily.

Therefore, when the horizontal root (Rh) to the horizontal root (Rh) by the caisson slip foam of the present invention, the horizontal root (Rh) is loaded on the upper deck (60), then the inner surface of the yoke vertical member 11 and the yoke horizontal member (13, 14) Since it is positioned to the reinforcement position through both ends of), it is possible to reinforce as it is without cutting the horizontal muscle (Rh) having the length corresponding to the horizontal length and vertical length of the caisson, so the connection part of the horizontal muscle (Rh) is minimized. As a result, construction materials such as joints are reduced, construction quality is improved by minimizing the connecting portion, and work safety can be secured.

In the step of pouring concrete by the caisson construction method of the present invention, the concrete filled in the concrete supply pipe 81 by expanding the guide channel 83 as shown in the right of FIG. 13, the branch pipe 82 and the guide channel 83. Is supplied through the concrete hopper (85), and is supplied back to the space between the foam panel 20 from the concrete hopper (85) is made by placing the concrete is made.

Therefore, in the concrete pouring step, a concrete pump car is used by supplying concrete filled in the concrete supply container 81 between the foam panel 20 through the branch pipe 82, the guide channel 83, and the concrete hopper 85. It is possible to pour concrete on its own.

At this time, the concrete supply container 81, the branch pipe 82, the guide channel 83 and the concrete hopper 85 is fixed to the upper deck 60 and the upper and lower yoke horizontal members (13, 14) without any flow. Therefore, in the process of pouring concrete, it is possible to reliably prevent the occurrence of personal injury due to collision with other components or collision with workers.

1 is a perspective view showing an example of a caisson;

2 to 5 show a conventional slip foam for caisson,

2 is a perspective view of a slip foam for caisson;

3 is a plan view of a slip foam for caisson,

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a partially enlarged view of FIG. 4;

6 to 14 shows a slip foam for caisson according to the present invention,

6 is a perspective view of a slip foam for caisson,

7 is a plan view of a slip foam for caisson,

8 is a cross-sectional view taken along the line B-B of FIG.

9 is a partially enlarged view of;

10 is an enlarged front view of the horizontal member connecting mechanism,

11 is an enlarged front view of a connector connecting mechanism;

12 is a cross-sectional view taken along the line C-C of FIG.

13 is a plan view of the concrete supply and branch pipes,

Figure 14a to 14c is a view showing a horizontal muscle back muscle process according to the present invention,

15 is a view showing a concrete pouring process according to the present invention.

** Description of symbols for the main parts of the drawing **

10: York 11: vertical yoke

12: yoke connecting member 13, 14: yoke horizontal member

20: foam panel 30, 40: horizontal member connecting mechanism

31,41: fitting member 50: connecting member connecting mechanism

51,52: fixing piece 53: connecting piece

60: upper deck 70: suspended deck

81: concrete supply container 82: branch pipe

83: guide channel 85: concrete hopper

Claims (8)

Slip for caisson consisting of a yoke having a pair of yoke vertical members and a yoke connecting member connecting the pair of yoke vertical members, and a yoke connecting member connecting the upper and lower yoke horizontal members, and a foam panel assembled to the yoke In the form, The upper and lower yoke horizontal members are formed to be shorter than the interval between the inner surfaces of each pair of yoke vertical members to connect both ends of the yoke horizontal members and the inner surfaces of the upper and lower yoke vertical members with a detachable horizontal member connecting mechanism. The yoke connecting member is disposed at a position spaced apart from the inner surface of the yoke vertical member, Slip form for caisson, characterized in that configured by connecting the inner surface of the yoke connecting member and the yoke vertical member by a detachable connecting member connecting mechanism. The connecting member of claim 1, wherein the horizontal member connecting mechanism includes a fitting member fitted between the connecting pieces at both ends of the upper and lower yoke horizontal members and the inner surface of the yoke vertical member, a bolt passing through the connecting piece, the yoke vertical member and the fitting member, and Slip form for caisson, characterized in that it comprises a nut fastened to the bolt. According to claim 1, wherein the connecting member connecting mechanism is a fixing piece fixed to the inner surface of the vertical member, a fixing piece fixed to the interruption of the yoke connecting member, a connecting piece overlapping between the fixing piece, these fixing pieces and Slip foam for caisson, characterized in that it comprises a connecting member for detachably connecting and fixing both ends of the connecting piece. The slip foam for caisson according to claim 1, wherein the yoke vertical member is provided with an upper deck and an interrupting deck at positions positioned at upper ends thereof and positions corresponding to upper ends of the foam panels, respectively. According to claim 4, The upper deck is provided with a concrete supply cylinder, a branch from the lower end of the concrete supply cylinder is fixed to the plurality of branch pipes and the upper and lower yoke horizontal member which extends between the lower yoke horizontal member Slipform for caisson, characterized in that the bottom further comprises a plurality of concrete hopper located on the upper side of the space between the foam panels. The slip for caisson according to claim 5, further comprising a guide channel rotatably installed at a lower end of the branch pipe to open and close the branch pipe, and to guide concrete flowing from the branch pipe to the concrete hopper. Form. In the caisson construction method comprising a horizontal muscle reinforcement step, concrete placing step, The horizontal muscle back step, When the upper and lower yoke horizontal members are connected to the yoke vertical member by the horizontal member connecting mechanism, and the yoke connecting member connecting the upper and lower yoke horizontal members is connected to the yoke vertical member by the connecting member connecting mechanism, the horizontal muscle is loaded on the upper deck and the slip foam is installed. Moving to; Remove the fitting member by disassembling the horizontal member connecting mechanism connecting the both ends of the upper yoke horizontal member and the inner surface of the yoke vertical member, removing the connecting piece by dismantling the connecting member connecting mechanism, and clearance between both ends of the upper yoke horizontal member and the yoke vertical member. And moving the horizontal roots, which are loaded on the upper deck, up near both ends of the lower yoke horizontal members through the gap between the yoke connecting member and the yoke vertical member; Reassemble the horizontal member connecting mechanism to connect both ends of the upper yoke horizontal member and the yoke vertical member, and reassemble the connecting member connecting mechanism to connect the yoke connecting member to the inner side of the yoke vertical member, and the inner side of the lower yoke horizontal member and the yoke vertical member. Disassemble the horizontal member connecting mechanism that connects the side, and remove the fitting member so that the horizontal roots loaded on both sides of the lower yoke horizontal member are interposed between the foam panels between the two sides through the gap formed between both ends of the lower yoke horizontal member and the inner surface of the yoke vertical member. The caisson construction method characterized in that the process to move to the position of the reinforcement. The method of claim 7, wherein the concrete pouring step, The concrete supply container is formed by branching from the lower end of the concrete supply container installed on the upper deck provided on the upper end of the yoke vertical material so that the lower end of the guide channel is rotatably installed at the lower end of the plurality of branch pipes extending between the upper yoke horizontal material. And the concrete filled in the supply pipe to the space between the foam panel through the concrete hopper fixed to the branch pipe and the guide channel and the upper and lower yoke horizontal member.

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