KR101842554B1 - Floating body mold and floating body manufacturing method using the same - Google Patents

Abstract

The present invention relates to a floating body mold and to a method for manufacturing a floating body using the same. According to one aspect of the present invention, disclosed is the floating body mold, in which a foaming body is manufactured by injecting and cured in a form surrounding the foaming body while a foaming body part, provided with rebar reinforced in a form surrounding the outer surface of a hexahedron-shaped foaming body, is disposed therein, wherein the foaming body mold comprises: a tetragonal bottom part; side wall parts extending to the upper side of each side of the bottom part to form a rectangular wall surface; and at least one floating-restricting part transversely installed to reciprocally connect two opposing upper portions of the side wall parts, and restricting the height of the floating of the foaming body part due to the buoyancy of the concrete injected into the mold with a height restricting means provided on the upper side of the foaming body part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floating body mold,

More particularly, the present invention relates to a method for manufacturing a float, and more particularly, to a method for manufacturing a float, comprising the steps of preparing a float by inserting a foam part having a reinforcing element disposed on the outer surface of the foam into a mold, To limit the height restriction means of the flotation restricting means to shorten the concrete injection and curing time and to allow the concrete surrounding the foam to be uniformly injected by a predetermined amount so as to form a uniform concrete outer wall And a method of manufacturing a float using the same.

The pontoon (pontoon) is a buoyant buoyancy that can float on the surface of the lake or sea. It is a structure that is installed in the sea for drilling oil, a structure used as a breakwater or artificial island, And structures that are used to support photovoltaic facilities.

Particularly, the float in the form of reinforced concrete block has a float property in water, but it is stronger than dentifrice made of synthetic resin material or float made by filling foam inside a steel box, and durable enough to resist external force And it is widely used.

This type of reinforced concrete block float is manufactured on the land and transferred to the water phase. For example, concrete is injected into a mold (mold) on the ground, and the concrete is cured to prepare a float .

As an example of the prior art, there is a " buoyant body for floating structure for floating structure ", Korean Patent Registration No. 10-1675507.

In order to prevent flooding of an EPS block due to concrete injection after arranging an EPS (Expandable Poly-Styrene) block, forming a concrete reinforcing material by using reinforcing bars in the field, (Float) is formed through a step of installing a concrete reinforcement on the upper side, a step of installing a form, and a step of casting concrete.

The above-mentioned prior art technique requires a lot of working time in the field because the float manufacturing process such as the process of installing the concrete stiffener on the top and bottom of the EPS block and the process of pouring concrete is performed in the field, It is necessary to use concrete stiffener of heavy material or to connect concrete stiffener to a fixed frame so that the concrete stiffener does not float with EPS block.

Also, since the concrete is stuck after the placement of the concrete stiffener and the EPS block, it is difficult to uniformly inject the concrete between the concrete stiffener and the EPS block, so that it is difficult to form a uniform buoyant body (float).

In order to solve the problem that the concrete is not injected uniformly, after the concrete reinforcement is installed, the concrete is injected first to cure the floor of the float first, then the EPS block is placed on the upper part and the concrete reinforcement is installed on the EPS block A method of injecting concrete by a second order has been attempted by the present inventors.

However, in this case, after completion of curing of the concrete on the bottom surface of the first injection, the EPS block is disposed, the concrete reinforcement material is installed, and the concrete addition injection process is sequentially performed. Since the curing of injected concrete is carried out, there is a problem in that the bonding between the respective cured concrete with different time lag is not firmly performed.

Korean Patent Publication No. 10-2011-0020573 (published on Mar. 03, 2011) Korean Registered Utility Model No. 20-0468423 (Registered on August 06, 2013) Korean Patent No. 10-1675507 (Registered on November 07, 2016)

SUMMARY OF THE INVENTION The present invention has been conceived in view of the above problems, and it is an object of the present invention to provide a method for manufacturing a float by inserting a foam part having reinforcing bars on the outer surface of a foam into a mold, The present invention relates to a fluidized mold for producing a fluid of a concrete which can be uniformly injected by a predetermined amount so that the concrete surrounding the outside of the foam is uniformly injected, The present invention also provides a method for producing a float fluid.

According to an aspect of the present invention, there is provided a method of manufacturing a foamed product, the method comprising: injecting concrete in a form of surrounding a foamed part in a state where a foamed part formed by enclosing an outer surface of a hexahedron shaped foam, Claims [1] A subfluid mold for curing to manufacture a float, comprising: a bottom of a square; A sidewall portion extending to the upper side of each side of the bottom portion to form a rectangular wall surface; And one or more flotation restricting portions which are horizontally disposed to mutually connect the upper portions of the two sidewall portions facing each other and restrict the rise of the foamed portion due to the buoyancy of the concrete injected into the mold to the height restricting means provided on the upper side of the foamed portion. A subfluid mold comprising the flask is disclosed.

Preferably, the flotation restricting portion is configured to provide a first state for pressing the upper portion of the foam and a second state for not pressing the foam.

Preferably, the flotation restricting portion includes a support frame frame having upper and lower through holes formed with the two side end portions respectively coupled to the two side wall portions, the center side of which is located above the side wall portion and at least one female thread portion is formed, And at least one height adjusting rod formed on the height adjusting rod and having a male screw portion screwed to the female screw portion so as to be adjustable in height by rotation, and a height adjusting portion provided at an upper end of the height adjusting rod to rotate the height adjusting rod .

Preferably, the sub-fluid mold is provided between the upper surface of the foam and the height adjusting rods, and the lower end of the height adjusting rods disperses the force pressing the upper surface of the foam due to buoyancy of the concrete injected into the mold, ; And further comprising:

Preferably, each of the side wall portions is provided with at least one first spacer for maintaining a space between the foam and the mold, and the first spacer is inserted into the lateral through hole having the female thread portion, And at least one gap adjusting rod having a male screw portion screwed into the female screw portion so as to adjust the lateral position by rotation, and a gap adjusting portion provided at an outer end of the gap adjusting rod to rotate the gap adjusting rod. .

Preferably, the auxiliary fluid mold further comprises a support plate disposed between the side surface of the foam and the gap adjusting rods, and the inner end of the gap adjusting rods disperses a force pressing the side surface of the foam.

Preferably, the auxiliary fluid frame is provided with at least one or more at least one corner on the bottom side of the bottom portion, and elastically supporting the frame; And a support frame for supporting the respective springs.

Advantageously, each of the springs is characterized in that the springs located in mutually diagonal directions have the same elastic modulus, and the springs positioned in mutually adjacent directions have different elastic moduli.

According to another aspect of the present invention, there is provided a method of manufacturing a float fluid using the fluid fluid mold, comprising the steps of: 1) injecting concrete having a first height corresponding to a predetermined thickness of a float concrete previously set in a fluid fluid mold; 2) inserting the foamed part formed by enclosing the outer surface of the foamed foam in the form of a reinforcing bar into the interior of the fluidized mold so that the foamed part is spaced from the sidewall part; 3) Dispersing plate is disposed between the lower end portion of the height restricting means and the upper surface of the foam, and the height of the height restricting means is set to be larger than the height of the foam portion due to the buoyancy of the concrete injected into the mold. To a limiting height; 4) injecting concrete into the fluidized mold up to a second height corresponding to a total height of the predetermined floated fluid; 5) curing the concrete; And 6) separating the float from the float mold.

Preferably, the reinforcing bar is provided with a plurality of second spacers for maintaining a gap with the foam.

Preferably, each of the side wall portions is provided with at least one first spacer for maintaining a space between the foam and the mold, and the first spacer is inserted into the lateral through hole having the female thread portion, And at least one gap adjusting rod formed on the inner threaded portion so as to be able to adjust the lateral position by rotation, wherein the gap adjusting rod is screwed to the female threaded portion, and after the step of 2) So that the lateral position of the foam is fixed by adjustment.

Preferably, the sub-fluid frame further comprises at least one spring provided on at least one corner side of each of the bottom and the bottom, and a support frame elastically supporting the mold, and a support frame supporting each spring, 4), the side face of the sub-fluid frame is pressed so that the sub-fluid frame is caused to flow by elasticity.

Preferably, the method further comprises inserting a fixing frame between the bottom portion and the support frame, wherein the fixing frame allows the bottom portion to be directly supported by the support frame, after the step 1) or after the step 4).

According to the present invention as described above, it is possible to easily fix the foam inside the mold while preventing the foam from rising above a predetermined height by the concrete injected into the mold during molding of the mold, There is an advantage in that the float that uniformly surrounds can be rapidly produced.

Particularly, in the present invention, the foam part formed by reinforcing the reinforcing bars in the form of wrapping the outer surface of the foam is inserted into the fl uid fl uid to form the fl uid, so that the time for inserting the foam (the concrete injection before the foam insertion and the concrete after the foam insertion Injection time is short), it is possible to quickly and easily perform the work of manufacturing the float using the float mold in the field, and it is possible to form the solid float.

The present invention is also advantageous in that when an external force is applied to a float mold, at least a part of the float mold can flow due to the elastic force of a spring provided at a lower portion of the float mold so that the concrete can be uniformly injected into the mold. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a fluid flask according to an embodiment of the present invention; FIG.
2 is a cross-sectional view of a subfluid form according to an embodiment of the present invention.
3 is a perspective view of a foam portion inserted into a subfluid mold according to an embodiment of the present invention.
4A to 4E are cross-sectional schematic views showing respective steps of a float forming method using a float mold according to an embodiment of the present invention.
5 is a perspective view of a final stage of a float manufacturing method according to an embodiment of the present invention.
6 is a perspective view of a subfluid mold according to another embodiment of the present invention.
7 is a perspective view of a subfluid mold according to another embodiment of the present invention.

The present invention may be embodied in many other forms without departing from its spirit or essential characteristics. Accordingly, the embodiments of the present invention are to be considered in all respects as merely illustrative and not restrictive.

The terms first, second, etc. are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

When an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but other elements may be present in between.

The singular expressions used in the present application include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises ", " comprising "," having ", and the like, are used to denote that there is an element described in the specification or a combination thereof, It is not excluded in advance.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

FIG. 1 is a perspective view of an auxiliary fluid frame according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of the auxiliary fluid frame according to an embodiment of the present invention, Fig. 7 is a perspective view of a foam part inserted into a fluid flask according to an embodiment.

The foam body 1 according to the embodiment of the present invention is characterized in that the foam body 100 having the reinforcing rope R disposed in the form of wrapping the outer surface of the foam body E in the shape of a hexahedron, A mold for producing a float by injecting and curing concrete C (see Fig. 5) in the form of surrounding the foam part 100 is formed as an open upper open-cube shaped mold.

3, the foam part 100, which is manufactured by the float mold 1 according to an embodiment of the present invention and is configured to form float, may be a known expanded polystyrene (EPS) And a reinforcing bar R surrounding the foam E so that the foam part 100 has external stiffness of the reinforcing concrete.

The foam part 100 can be preformed in a factory or the like and the reinforced concrete structure can be constructed without the need to insert a separate reinforcing bar R in the mold 1 during the manufacture of the float in the mold 1 It is possible to shorten the field working time.

For example, the foam part 100 includes a plurality of second spacers S, which are coupled to the reinforcing bars R so that the spacing hb between the reinforcing bars R and the foam E is maintained.

For example, the second spacer S may be formed in the form of a circular disk having a reinforcing bar insertion hole.

The gap Hb is maintained between the reinforcing bars R and the foam E by the second spacers S so that the reinforcing bars R come into contact with the foam E or between the foam E and the reinforcing bars R, It is possible to prevent the concrete C from being injected (poured) between the foamed material E and the reinforcing bars R and to prevent the concrete C from uniformly covering the outer surface of the foamed material E, It becomes possible to manufacture a float having a rigid reinforced concrete outer wall.

The second spacers (S) may be installed at each of two or more upper and lower sides, for example, for each reinforced steel rod (R).

For example, the auxiliary fluid frame 1 has a rectangular bottom portion 10, side wall portions 20 extending upwardly from the respective sides of the bottom portion 10 to form square wall surfaces, And one or more lifting restricting portions 30 which are transversely connected to interconnect the upper portions of the two side wall portions 20.

For example, the side wall portion 20 is detachably attached to the bottom portion 10, and after manufacturing the float, the wall surface of the at least one side wall portion 20 is separated from the bottom portion 10, 1). ≪ / RTI >

For example, as shown in FIG. 1, the auxiliary fluid frame 1 may be configured to be detachable by engaging the side wall portion 20 with the bottom portion 10 using a fastening bolt 60 The side wall portion 20 adjacent to the side wall portion 20 can be coupled using the fastening bolt 60. [

As another example, a hinge portion (not shown) may be provided between the portions where the bottom portion 10 and the side wall portions 20 contact with each other or between the adjacent side wall portions 20 so as to be rotatable.

The lifting restricting portion 30 is for preventing the foam portion 100 from floating due to buoyancy caused by the injection of concrete C and includes height restricting means 34 and 36 provided on the upper side of the foam portion 100, Thereby restricting the rise of the foam part 100 due to buoyancy of the concrete C injected into the mold.

For example, the flotage restricting portion 30 may be installed on the upper portion of the side wall portion 20 so as to be removable. Alternatively, the flapping restricting portion 30 may be provided on the upper portion of the side wall portion 20, So that the foam part 100 can be inserted into the upper part of the mold half 1 when the flap restricting part 30 is rotated toward the side wall part 20.

Since the flotation restricting portion 30 can be installed, demounted or rotated, the foam portion 100 can be inserted into the fluid flask 1 in a state where the flotation restricting portion 30 is removed or rotated.

The lifting limiter (30) is configured to provide a first state for pressing the upper portion of the foam (E) and a second state for not pressing.

For example, the lifting restricting portion 30 includes the height restricting means 34 and 36, and a pair of side wall portions 20, which are connected to both side ends thereof and whose center side is located above the side wall portion 20 And a support frame 32 having upper and lower through holes 32a formed with one or more female threads.

For example, as shown in FIG. 1, a connection frame 22 to which the support frame 32 is coupled may be provided on the side wall 20, and the connection frame 22 and the support frame 32 may be fastened by the coupling bolts 38 and rotated about the coupling or disengagement or the coupling bolts 38.

The height restricting means (34, 36) includes at least one height adjusting rod (34) inserted into the through hole (32a) and having a male threaded portion screwed to the female threaded portion so as to be adjustable in height by rotation, And a height adjusting unit 36 provided at an upper end of the adjusting rod 34 to rotate the height adjusting rod 34.

For example, the height adjusting rod 34 may be regarded as a bolt having a long length. The height adjusting portion 36 may include a handle for assisting the rotation of the height adjusting rod 34 or a handle Can be understood as a joining part (e.g., a joining frame).

For example, when the height adjusting rod 34 is rotated in the clockwise direction, the height of the height restricting means 34, 36 is lowered. When the height adjusting rod 34 is rotated counterclockwise, the height restricting means 34, 36 is increased.

Accordingly, when the height regulating portion 36 is rotated clockwise so that the lower end of the height regulating rod 34 presses the upper surface of the foamed body E, a first state is provided, The second state is provided when the lower end of the height adjusting rod 34 is separated from the upper surface of the foam E and does not contact the upper surface of the foamed body E by rotating clockwise.

The foam restraining means (34, 36) facilitates lifting of the foam part (100), and the thickness of the concrete outer wall of the float can be adjusted.

For example, the auxiliary fluid mold 1 is provided between the upper surface of the foam body E and the height adjusting rods 34, and due to the buoyancy of the concrete C injected into the mold, (50) for dispersing the force for pressing the upper surface of the foam material (E) at the lower end of the foam material (34).

Since the height adjusting rods 34 are preferably formed in a bolt shape that is not too thick to be easily rotated, the height of the height adjusting rods 34 is small.

The foam E may be locally strongly pressed and crushed when the lower end of the height adjusting rod 34 presses the upper surface of the foamed body E due to the floating of the foamed body 100 due to the buoyancy of the concrete C, , The dispersion plate 50 is used.

The height adjusting rod 34 is positioned between the lower end of the height adjusting rod 34 and the upper surface of the foam E so that the height of the height adjusting rod 34 is larger than the height of the height adjusting rod 34, It is possible to disperse the force pressing the upper surface of the foam (E) to minimize local crushing of the upper surface of the foam (E).

For example, each of the side walls 20 is provided with at least one first spacer 40 for maintaining the spacing ha between the foam E and the mold frame.

The first spacer 40 may include at least one gap adjusting rod 44 for adjusting the lateral position of the spacer 40 and an outer end of the gap adjusting rod 44 for rotating the gap adjusting rod 44 And an interval adjusting unit 46.

The spacing rod 44 is inserted into a lateral through hole 20a formed in the side wall portion 20 and having a female threaded portion and is screwed to the female threaded portion so as to adjust the lateral position by rotation. Is formed.

For example, the gap adjusting rod 44 may be regarded as a bolt having a long length, and the gap adjusting portion 46 may include a handle or a handle for assisting the rotation of the gap adjusting rod 44, Can be understood as a joining part (e.g., a joining frame).

For example, when the gap adjusting rods 44 are rotated clockwise, the inner ends of the gap adjusting rods 44 extend from the side wall portion 20 provided with the gap adjusting rods 44, When the gap adjusting rods 44 are rotated in the counterclockwise direction, the inner ends of the gap adjusting rods 44 are brought close to the side wall portions 20 provided with the gap adjusting rods 44, And moves in the outward direction of the mold 1.

The gap adjusting rod 44 is inserted between the reinforcing bar R and the reinforcing bar R which are disposed on the foam part 100 by the rotation of the gap adjusting part 46 and directly contacts the foam E, The foam body 100 is fixed without moving in the lateral direction so that the distance ha between the foam body E and the mold frame is kept constant.

Therefore, the outer wall thickness of the concrete (C) of the float is uniformly formed by the first spacer (40), and the reinforcing bars (R) laid so as to enclose the foam (E) are not exposed to the outside.

For example, the first spacer 40 may be provided with an auxiliary through-hole (not shown), which is coupled to an outer surface of the side wall portion 20 and has a female thread portion of the same size (e.g., pitch) as the female thread portion of the lateral through- And an auxiliary frame 42 on which the first frame 42a is formed.

Even if the thickness of the side wall portion 20 is not thick, the gap between the gap adjusting rods 44 due to the auxiliary frame 42 can be reduced, And the length of the gap adjusting rods 44 is minimized so that the lateral positioning of the gap adjusting rods 44 can be easily performed without any additional fixing means.

For example, the auxiliary fluid mold 1 is provided between the side surface of the foamed body E and the gap adjusting rods 44, and the inner end of the gap adjusting rods 44 faces the side surface of the foamed body E And a support plate 50 'for dispersing the pressing force.

Since the gap adjusting rods 44 are preferably formed in a bolt shape that is not too thick to be easily rotated, the cross-sectional size of the gap adjusting rods 44 in contact with the foam E is small.

Because of this, when the inner end of the gap adjusting rod 44 presses the side surface of the foamed material E, the foamed material E can be locally strongly pressed and crushed, so that the support plate 50 'is used.

That is, the support plate 50 ', which is formed to have an area larger than the contact surface size of the gap adjusting rods 44, is positioned between the inner end of the gap adjusting rods 44 and the side surface of the foam E, ) To disperse the force pressing the side of the foam (E) to minimize the local collapse of the side of the foam (E).

6 is a perspective view of a subfluid mold according to another embodiment of the present invention.

The auxiliary fluid frame 1 according to another embodiment of the present invention includes a spring 1070 and at least one spring 1070 which are provided on at least one corner of the bottom of the bottom portion 1010, (Not shown).

The concrete (concrete dough, C) injected (poured) into the auxiliary fluid mold 1 has high fluidity when it contains a large amount of water, but takes a long time for curing and low fluidity when water is contained in a small amount It is preferable that the concrete (C) injection becomes difficult so that appropriate moisture is included.

The spring 1070 can compensate for the low fluidity of the concrete (concrete dough, C) and allows the concrete (C) to be injected to flow easily.

6, when the spring 1070 is provided at the lower part of the mold half 1, the elastic force of the spring 1070 when the side wall part 20 is pressurized, (1) flows in the direction opposite to the pressing direction and the pressing direction, including the vertical direction, and the concrete (C) injected into the fluidic mold (1) flows together by the flow of the fluidic mold It is possible to uniformly inject concrete (C) into the secondary fluid mold (1).

For example, the subfluid mold 1 may be removably inserted between the support frame 1080 and the bottom portion 1010, and the bottom portion 1010 may be directly supported by the support frame 1080 A fixed frame 1090 may further be provided.

For example, the fixed frame 1090 may be formed as a rigid body (for example, a box) having the same height as the gap between the bottom portion 1010 and the support frame 1080.

Since the bottom 1010 and the support frame 1080 are integrally fixed to each other, the fixed frame 1090 prevents the fluidic mold 1 from flowing even if the side wall 20 or the like is pressed, (C) does not flow when the curing agent (C) is cured so that the curing is performed in a fixed state.

7 is a perspective view of a subfluid mold according to another embodiment of the present invention.

The auxiliary fluid frame 1 according to another embodiment of the present invention may be formed such that at least a part of each spring 2070 provided on the corner side of each of the bottom portions of the bottom portion 2010 has a different elastic modulus have.

For example, the springs 2072 and 2076 located in mutually diagonal directions may have the same elastic modulus, and the springs 2072 and 2074 located in mutually adjacent directions may be configured to have different elastic moduli.

In this case, as shown in Fig. 7, since the elastic modulus of the respective springs 2072 and 2074 are not equal to each other at the time of pressing one side of the side wall portion 2020, the smaller the elastic modulus is, Flow diagonal flow force.

Therefore, the auxiliary mold 1 can more easily flow in various directions including the up-and-down direction, the opposite direction of the pressing direction and the pressing direction as well as the other side direction other than the pressing direction, The concrete (C) to be injected flows more rapidly and the outside of the foam (E) is quickly wrapped as compared with the case where only the concrete (1070) is used.

Hereinafter, a method for manufacturing a float fluid using the float mold 1 will be described with reference to the drawings.

4A to 4E are cross-sectional views illustrating respective steps of a method of manufacturing a float according to an exemplary embodiment of the present invention. FIG. 5 is a cross- FIG.

The method for manufacturing a float fluid using the float fluid mold 1 is characterized in that the concrete C1 is injected into the float mold 1 assembled in a state in which the float limiter 30 is separated or rotated ). ≪ / RTI >

That is, as shown in FIG. 4A, the concrete C1 is injected by a first height h1 corresponding to the thickness of the floor concrete of the sub-fluid set in advance in the float mold 1 opened at the upper side (S1) .

Preferably, the concrete (C1) may be injected somewhat less than the thickness of the bottom concrete of the float considering the volume of the reinforcing bar (R).

It can be understood that the injection of the concrete C1 puts the concrete C1 in a paste state.

Next, as shown in FIG. 4B, the foamed part 100 (see FIG. 4), in which the reinforcement R is placed in the form of wrapping the outer surface of the hexahedron foam E, Is inserted into the interior of the auxiliary fluid mold 1 in a state in which the interval ha from the side wall portion 20 is maintained (S2).

The foam part 100 has a structure in which a reinforcing bar R is previously laid on a foam material E and a space hb between the reinforcing bar R and the foam material E is formed by the plurality of second spacers S described above .

The foam part 100 is inserted such that the lower surface of the foam E contacts the upper surface of the concrete C1 injected by the first height h1.

The spacing ha between the side wall portion 20 and the inserted foam portion 100 is maintained by the first spacer 40 described above after step S2.

For example, after the foam part 100 is inserted into the mold frame at a predetermined distance ha from the inner side surfaces of the respective side wall parts 20, the first spacer 40 provided on the side wall part 20, The gap adjusting rods 44 are rotated in the clockwise direction by using the gap adjusting portion 46 of the other side wall portion 20 to closely contact the side surface of the foamed body E at positions corresponding to the gap adjusting rods 44, The spacing adjusting rods 44 are rotated in the clockwise direction by using the spacing adjusting portions 46 of the other first spacers 40 so that the spacing adjusting rods 44 are aligned with the spacing rods 44 of the other first spacers 40 The spacing ha between the side wall portion 20 and the foam portion 100 is maintained.

At this time, between the inner end of each of the gap adjusting rods 44 and the side of the foam (E) corresponding thereto, the inner end of the gap adjusting rod 44 locally pressurizes the side surface of the foam (E) A supporting plate 50 'for dispersing the foam can be further provided, and the local distortion of the side surface of the foamed body E can be minimized in the supporting plate 50'.

For example, the spacing ha may be maintained in all four side wall portions 20, and even if a force is applied to the foam portion 100 due to the placement of the concrete C, the spacing of the first spacers 40 The lateral position of the foam E can be fixed by adjusting the lateral position by the rotation of the control rod 44 and the spacing ha between the foam part 100 and the side wall part 20 can be maintained It is possible to form a concrete (C) outer wall having a predetermined thickness in the float.

4B, the flotation restricting portion 30 is coupled to the side wall portion 20 and the lower end portion of the height restricting means 34 and 36 and the foamed portion E The height of the height restricting means 34 and 36 is set to a height that limits the rise of the foam portion 100 due to the buoyancy of the concrete C injected into the mold (S3).

Next, as shown in FIGS. 4C and 4D, the concrete C2 is injected into the auxiliary fluid mold 1 up to the second height h2 corresponding to the predetermined height of the predetermined float (S4).

The second height h2 is set to a first height h1 corresponding to the foam height h and the thickness of the float bottom concrete so that the concrete C1 or C2 uniformly surrounds the outer surface of the foam E, And the thickness of the float upper concrete having the same thickness as the first height h1.

h ₂ = 2 x h ₁ + h

After completion of the injection of the concrete (C1, C2), the concrete (C1, C2) is cured as shown in FIG. 4D (S5).

After curing, as shown in Fig. 4E, the floating restricting portion 30 and each first spacer 40 are separated (removed), and the floating fluid is separated from the floating fluid mold 1, (S6).

For example, in order to separate the lifting restricting portion 30, the height adjusting portion 36 is rotated counterclockwise so that the lower end of the height adjusting rod 34 is exposed to the outside of the upper concrete C of the float The support frame 32 is removed by separating the support frame 32 and the coupling bolt 38 fastened to the connection frame 22.

For example, each of the first spacers 40 may be separated by rotating the gap adjusting part 46 in a counterclockwise direction so that the inner end of the gap adjusting rod 44 is positioned on the inner side of the side wall part 20 To move outward.

It is possible to separate the float from the float mold 1 by separating the float limiter 30 and the first spacer 40 and to separate the wall surface of the one side wall 20 from the bottom of the float 1, The float can be easily separated from the mold 10 by separating it from the mold 10.

Since the lifting limiter 30 and the first spacer 40 are formed in the form of male screw, they can be easily separated from the large crate C which has been cured or progressed to some extent by screw rotation.

In addition, it is also possible to fill the holes (not shown) formed by the height adjusting rods 34 and the gap adjusting rods 44 after separating the lifting limiter 30 and the first spacer 40 .

6), a spring 1070 provided on at least one corner of each bottom portion of the bottom portion 1010 and elastically supporting the mold frame, And a support frame 1080 for supporting the spring 1070.

At this time, at least one of the steps S1 and S4 presses the side face of the auxiliary fluid frame 1 so that the auxiliary fluid frame 1 is caused to flow by elasticity.

That is, when the concrete C is injected at the first height h1 or the second height h2, the side face of the fluidity mold 1 is pressed by the elasticity, The flow of the concrete C is more easily performed, and it is possible to form a float having a uniform outer wall of concrete (C).

When the concrete (C1) is injected in step S1, the installation of the float limiter 30 and the first spacer 40 is performed. At this time, if the auxiliary fluid frame 1 is moved by an external force, the installation process can not be easily performed, and therefore the auxiliary fluid frame 1 is preferably fixed.

When the concrete (C) is injected in step S4, the curing process of the concrete (C) is performed. Similarly, when the float mold 1 is moved by an external force, It is preferable that the auxiliary mold 1 is fixed.

Accordingly, a fixing frame 1090 (not shown) is provided between the bottom portion 1010 and the support frame 1080 so that the bottom portion 1010 is directly supported by the support frame 1080 after the step S1 and / So that the auxiliary fluid frame 1 is prevented from flowing.

Although the fixed frame is expressed in a rectangular parallelepiped shape for the sake of understanding, the fixed frame may be formed in various shapes as long as the bottom 1010 is directly supported by the support frame 1080 to prevent the fluidic mold 1 from being moved by an external force. have.

Although the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings, it will be apparent to those skilled in the art that many other obvious modifications can be made therein without departing from the scope of the invention. Accordingly, the scope of the present invention should be interpreted by the appended claims to cover many such variations.

1: Floating mold 10, 1010, 2010: Floor
20, 1020, 2020: side wall portion 22: connection frame
30, 1030, 2030: restraining member 32: support frame
34: height adjusting rod 36: height adjusting portion
38: coupling bolts 40, 1040, 2040: first spacer
42: auxiliary frame 44:
46: spacing adjusting part 50, 1050, 2050:
50 ': support plate 60, 1060, 2060: fastening bolt
1070, 2070, 2072, 2074, 2076: Springs 1080, 2080: Support frame
1090: Fixed frame C, C1, C2: Concrete
ha, hb: spacing h1: first height
h2: second height h: foam height
100, 1100, 2100: foam part E: foam
R: Rebar S: Second spacer

Claims (13)

A mold for forming a float by injecting and curing concrete in the form of surrounding a foam part in a state where a foam part formed by reinforcing a reinforcing bar is wrapped around an outer surface of a hexahedral foam,
The bottom of the rectangle;
A sidewall portion extending to the upper side of each side of the bottom portion to form a rectangular wall surface;
One or more float restricting portions that are horizontally disposed so as to mutually connect upper portions of two sidewall portions opposed to each other and restrict the rise of the foam portion due to the buoyancy of the concrete injected into the mold to the height restricting means provided on the upper side of the foam portion;
At least one or more at least one corner on the bottom side of the bottom portion, the spring elastically supporting the frame; And
And a support frame for supporting the respective springs.
The method according to claim 1,
Wherein,
A first state in which the upper portion of the foam is pressed and a second state in which the upper portion is not pressed.
The method according to claim 1,
Wherein,
A support frame frame having upper and lower through holes formed at both sides of the two side wall parts, respectively, the center side of which is located above the side wall part,
At least one height adjusting rod inserted into the through hole and having a male screw portion screwed to the female screw portion so as to be adjustable in height by rotation,
And a height adjuster provided at an upper end of the height adjusting rod to rotate the height adjusting rod.
The method of claim 3,
Wherein the foam is provided between an upper surface of the foam and the height adjusting rod,
And a dispersing plate for dispersing a force of the lower end of the height adjusting rod pressing the upper surface of the foam due to the buoyancy of the concrete injected into the mold.
The method according to claim 1,
Wherein each of the side walls is provided with at least one first spacer for maintaining a space between the foam and the mold,
Wherein the first spacer comprises:
At least one gap adjusting rod formed in the side wall portion and inserted into a transverse through hole having a female screw portion and having a male screw portion threadably engaged with the female screw portion so as to adjust the lateral position by rotation,
And a gap adjusting part provided at an outer end of the gap adjusting rod to rotate the gap adjusting rod.
6. The method of claim 5,
And a gap between the side surface of the foam and the gap adjusting rod,
Further comprising: a support plate for dispersing a force that an inner end of the spacing rod presses the side surface of the foam.
delete The method according to claim 1,
Each of the springs
The springs positioned in the mutually diagonal direction are made to have the same elastic modulus,
Characterized in that the springs located in mutually adjacent directions are of different elastic moduli.
A method for manufacturing a float fluid using a float mold according to claim 1,
1) injecting concrete into the submersible mold with a first height corresponding to a preset floor concrete thickness of the subfluid;
2) inserting the foamed part formed by enclosing the outer surface of the foamed foam in the form of a reinforcing bar into the interior of the fluidized mold so that the foamed part is spaced from the sidewall part;
3) Dispersing plate is disposed between the lower end portion of the height restricting means and the upper surface of the foam, and the height of the height restricting means is set to be larger than the height of the foam portion due to the buoyancy of the concrete injected into the mold. To a limiting height;
4) injecting concrete into the fluidized mold up to a second height corresponding to a total height of the predetermined floated fluid;
5) curing the concrete; And
6) separating the float from the float mold,
Wherein at least any one of steps 1) and 4) is performed to pressurize the side face of the sub-fluid form so that the fluid form is caused to flow by elasticity.
10. The method of claim 9,
Wherein a plurality of second spacers for maintaining spacing with the foam are coupled to the reinforcing bar.
10. The method of claim 9,
Wherein each of the side walls is provided with at least one first spacer for maintaining a space between the foam and the mold,
Wherein the first spacer comprises:
And at least one spacing bar inserted in a lateral through hole formed in the side wall portion and having a female thread portion and having a male screw portion threadably engaged with the female thread portion so as to adjust the lateral position by rotation,
After the step 2)
Wherein the lateral position of the foam is fixed by adjusting the lateral position of the spacing rods of the respective first spacers.
delete 10. The method of claim 9,
After the step 1) or after the step 4)
Further comprising inserting a fixing frame between the bottom and the support frame such that the bottom is directly supported by the support frame.

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