KR101129275B1 - Method for manufacturing half pc(precast concrete) slab - Google Patents

Abstract

PURPOSE: A half PC slab manufacturing method is provided to automatically manufacture half PC slabs with shear bond strength secured by integrated reinforcing members. CONSTITUTION: A half PC slab manufacturing method comprises the steps of: setting reinforcing members(120) in the longitudinal direction of a half PC slab(100) within a form in order to reinforce the shear strength of the half PC slab, placing concrete in a form with a concrete placing device(300) from above the form so that the horizontally bent upper portions of the reinforcing members are exposed on the concrete placed in the form, and straightening the bent upper portions of the reinforcing members to protrude from the top of the half PC slab body formed out of the concrete.

Description

Method for manufacturing half PC slab {Method for manufacturing half PC (precast concrete) slab}

The present invention relates to a method for manufacturing a half PC slab, and more particularly to a method for manufacturing a half PC slab is produced in the form of a protruding reinforcing member.

Slab refers to the floor of reinforced concrete structures in construction and civil engineering.

Such slabs are constructed in the following ways.

First, there is an on-site casting method in which the entire slab is constructed by concrete pouring work on site.

Second, there is a precast method of dividing the slab into precast panels in a factory or the like, and then transporting and installing the slab to a site.

 Third, construct a part of the slab with a precast panel along the thickness direction of the slab. There is a half precast method in which the rest is constructed by on-site concrete casting. Hereinafter, for convenience of description, a part of the slab made of the precast panel in the half precast method is a half PC slab, and the remaining part of the slab constructed by site concrete placing is cast in place.

In the case of the half precast method, as shown in Figs. 1 and 2, in order to increase the coupling force between the half PC slab (2) and the in-site casting slab, when the concrete pouring work of the in-site casting slab to the half PC slab (2) A plurality of shear keys 2b having a groove or hole structure may be formed so that concrete can be poured. The half PC slab 2 shown in FIGS. 1 and 2 is a hollow core structure having a core 2a pierced along the longitudinal direction (arrow L) of the half PC slab 2.

The half PC slab 2 is manufactured in a predetermined unit that can be manufactured, transported and lifted, and then the half PC slab 2 is connected to each other along the width direction (arrow W) and the length direction (arrow L) in the field. Can be installed.

However, the half precast method according to the prior art is difficult to secure sufficient horizontal shear force only by the shear key 2b of the half PC slab 2, and the half PC slab is formed to form the shear key 2b of the half PC slab 2. (2) It is pointed out that the design of the formwork is not easy due to the complicated structure of the formwork for fabrication. Moreover, the half precast method has a disadvantage in that it is difficult to be performed by the automated method.

Republic of Korea Patent Registration 10-0644139 (Half slab having a hollow structure and its manufacturing method)

An object of the present invention is to provide a method for manufacturing a half PC slab for producing a half PC slab by an automatic production method while also ensuring a shear bonding force with a site-pouring slab by an integrally embedded reinforcing member. do.

According to the present invention, in the method of manufacturing a half PC slab, reinforcing members are installed along a longitudinal direction of the half PC slab to reinforce the shear force of the half PC slab on the floor or the frame, and the reinforcing member extends from the bottom to the top. Forming form of the concrete pouring apparatus by linearly moving the reinforcement member installation step of the upper portion is installed in the horizontal direction and the concrete pouring apparatus provided with the form foam of the frame or the half PC slab along the longitudinal direction By placing concrete in the pour area on the upper side of the pour area while forming the concrete pour area of the half PC slab where the reinforcing member is located, wherein the bent upper portion of the stiffened member is placed on the top surface of the poured concrete. Concrete pouring step to expose, and predetermined from the concrete pouring After a period of time, it provides a method of manufacturing a half PC slab comprising the step of unfolding the reinforcing member to extend the bent upper portion of the reinforcing member to protrude to the top of the body portion made of the concrete of the half PC slab.

In the present invention, the concrete placing device, when the concrete placing device or the frame moves linearly, may include a pour concrete contact portion made to be in close contact with the upper surface of the pour concrete.

In addition, according to another aspect of the present invention, in the manufacturing method of the half PC slab, the reinforcing member is installed in the formwork for the half PC slab for reinforcing the shear force of the half PC slab, the reinforcing member is the formwork The reinforcing member installation step of extending from the bottom to the top in the upper portion is bent in a horizontal direction and installed by the concrete pouring device while linearly moving the formwork or concrete pouring device along the longitudinal direction of the formwork Pouring concrete into the formwork at the upper side of the formwork, wherein the bent upper portion of the reinforcing member is exposed to the upper surface of the concrete poured into the formwork; Straightening the bent upper part of the reinforcing member said half PC slab It provides a process for the preparation of the half PC slab containing reinforcing members unfolding step of projecting to the upper body portion made of a concrete.

In the present invention, the concrete placing device, when the concrete placing device or the formwork moves linearly, may include a pour concrete contact portion made to be in close contact with the upper surface of the poured concrete.

The concrete pouring device may be made to pour concrete in the formwork while advancing along the longitudinal direction of the formwork and vibrating in at least one of front and rear and up and down directions.

In addition, according to another aspect of the present invention, in the manufacturing method of the half PC slab, the reinforcing member is installed in the form for the half PC slab installed on the frame to reinforce the shear force of the half PC slab, The reinforcing member extends from the bottom to the upper side within the formwork, and the reinforcing member installation step of installing the upper portion is bent in a horizontal direction, and the concrete is poured into the formwork in the form on the upper side of the formwork by the concrete pouring device The concrete placing step of causing the bent upper portion of the reinforcing member to be exposed on the upper surface of the concrete poured in the formwork, and vibrating the formwork, and after a predetermined time has passed from the concrete placing, bending of the reinforcing member Main body made of concrete of the half PC slab It provides a method for producing a half PC slab comprising a step of expanding the reinforcing member to protrude to the upper portion of the part.

The main body portion of the half PC slab may include a flat plate and ribs protruding perpendicularly to the flat plate along the longitudinal direction of the half PC slab.

The main body portion of the half PC slab may be formed to have a penetrated core along the longitudinal direction of the half PC slab.

The reinforcing member may be formed so that the upper portion exposed on the upper surface of the concrete poured in the formwork has a ring shape.

The reinforcing member may include a body portion bent in a '으로' along the width direction or the longitudinal direction of the half PC slab to have the annular shape.

The reinforcing member may include a plurality of main body parts spaced apart from each other along the longitudinal direction of the half PC slab.

The reinforcing member may further include a bent portion embedded in the concrete poured in the formwork and integrally formed with the main body portion of the reinforcing member to protrude from the main body portion of the reinforcing member along the width direction of the half PC slab.

The reinforcing member is formed to be embedded in a plurality of body parts spaced apart from each other along the longitudinal direction of the half PC slab, and to be embedded in the concrete poured in the formwork and formed between the body portion and the body portion to connect integrally It may include a plurality of connections.

The reinforcing member may be configured such that the plurality of body parts and the plurality of connecting parts are continuously connected to each other in one line.

Since the manufacturing method of the half PC slab according to the present invention can produce the half PC slab so that the upper part of the reinforcing member protrudes to the upper side of the main body portion made of concrete of the half PC slab, in situ casting with the half PC slab by the reinforcing member It may have an advantage that the shear bonding force between slabs can be improved.

In addition, in the method of manufacturing a half PC slab according to the present invention, as the reinforcing member replaces the shear key of the conventional groove or hole structure as described above, the formwork of the half PC slab can be more simplified, the half PC slab It can have the advantage that the design and fabrication of the can be easier.

In addition, the manufacturing method of the half PC slab according to the present invention, when manufacturing the half PC slab, the reinforcing member is installed in the formwork with the upper portion of the reinforcing member bent in the horizontal direction, the concrete poured in the formwork to a certain degree of strength As the upper part of the reinforcing member is unfolded in the vertical direction after being hardened to have it, automatic production of the half PC slab can be made by the concrete pouring device without interference by the reinforcing member, thereby reducing the labor cost due to mechanization and automated production, and production time. It may have the advantage of reduction, constant quality (ie, high quality).

1 is a view showing an on-site installation example of a half PC slab according to the prior art.
2 is a partial perspective view of a half PC slab according to the prior art.
3 is a partial perspective view of a half PC slab according to the first embodiment of the present invention.
4 is a cross-sectional view taken along the AA direction of FIG. 3.
5 is a longitudinal cross-sectional view of FIG.
6 is a longitudinal sectional view of a half PC slab according to a second embodiment of the present invention;
7 is a cross-sectional view of FIG. 6.
8 is a perspective view of the reinforcing member applied to FIG.
9 is a longitudinal sectional view of a half PC slab according to a third embodiment of the present invention.
10 is a cross sectional view of FIG. 9;
11 is a longitudinal sectional view of a half PC slab according to a fourth embodiment of the present invention.
12A to 12E are diagrams sequentially showing a manufacturing method for the automatic production of the half PC slab according to the first embodiment of the present invention.
FIG. 13 is a plan view of a plant for automated production shown in FIG. 12;
FIG. 14 is a front view of the installation for the automatic production shown in FIG. 12.
15 is a front view of a facility for automatic production according to another embodiment of a half PC slab of the present invention.
16 is a side view of a facility for automatic production according to another embodiment of a half PC slab of the present invention.
17 is a front view of FIG. 16.
18 is a perspective view of FIG. 16.

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

In the following description of the present invention, a detailed description of known functions and configurations will be omitted so as not to obscure the gist of the present invention.

3 to 11, the half PC slab 100 according to an embodiment of the present invention is a precast member manufactured by a precast method, the body portion 110 made of concrete cast in formwork, The half PC slab 100 may include a reinforcing member 120 integrally installed in the main body 110 so as to protrude upward of the main body 110 for reinforcement of shear force when the in situ slab is combined.

The main body 110 of the half PC slab 100 may be formed in various shapes according to the structure of the half PC slab 100 required.

Preferably, as shown in FIGS. 3 and 4, the half PC slab 100 has a main body 110 that is flat along the longitudinal direction (arrow L) of the flat plate 112 and the half PC slab 100. It may be made of a ribbed half PC slab comprising ribs 114 protruding perpendicularly to the portion 112. Only one rib 114 may be formed for each half PC slab 100, and as illustrated, a plurality of ribs 114 may be formed to be spaced apart from each other along the width direction (arrow W) of the half PC slab 100.

In addition, as shown in FIGS. 7 and 10, the half PC slab 100 has a hollow core structure in which the main body 110 has a core penetrated along the longitudinal direction (arrow L) of the half PC slab 100. It may be made of. Only one core may be formed for each half PC slab 100, or as shown in the figure, a plurality of cores may be formed to be spaced apart from each other along the width direction (arrow W) of the half PC slab 100.

The reinforcing member 120 may be any material as long as it can increase the shear coupling force between the half PC slab 100 and the in-situ slab. For example, the reinforcing member 120 may be formed of a circular rebar, bar, wire rope, steel wire, or the like.

The reinforcing member 120 is inserted into and integrated into the main body 110 of the half PC slab 100 when the main body 110 of the half PC slab 100 is manufactured. The main body of the half PC slab 100 is integrated. The buried portion 122 is installed to be embedded in the portion 110, and in the form of the half PC slab 100 is made integrally with the buried portion 122 in the formwork and extends from the bottom to the top half slab ( It may be made of an upper portion 124 protruding upward of the body portion 110 of the 100.

The upper portion 124 of the reinforcing member 120 may be made to have a ring shape, in particular as shown, so as a ring for the lifting of the half PC slab 100 in the future installation of the half PC slab 100 It may be advantageous in that it can be used for various purposes, such as used as a spacer for fixing the reinforcing bar of the site pour slab in the field pour operation of the site pour slab.

As such, the reinforcing member 120 has a width direction (arrow W) (see FIGS. 3 to 8) or a lengthwise direction of the half PC slab 100 such that the upper portion 124 of the reinforcing member 120 has an annular shape. It may be made to include a body portion of the shape bent in '∩' along the arrow L) (see FIGS. 9 to 11). That is, the main body of the reinforcing member 120 is composed of a portion 121 of the buried portion 124 of the reinforcing member 120 except for the connecting portion 123 or the bent portion 123 'and the upper portion of the reinforcing member 120. Can be.

As the reinforcing member 120 is formed such that the half PC slab 100 is long in the longitudinal direction (arrow L), a plurality of main body parts spaced apart from each other along the longitudinal direction (arrow L) of the half PC slab 100 is installed. It may be made to include. In addition, as shown in FIGS. 3 to 5 and 11, a plurality of body parts forming one reinforcing member 120 may be installed in a structurally separated state. In this case, as shown in FIGS. 3 to 5, the buried portion 121 of the main body may be formed only in a straight shape vertically in the vertical direction. Alternatively, as shown in FIG. 11, the reinforcing member 120 has a straight portion 121 of the main body portion formed as described above, and is embedded in concrete poured in formwork and is in the width direction of the half PC slab 100. Further comprising a bent portion 123 ′ integrally formed with the buried portion 121 of the main body portion of the reinforcing member 120 to protrude from the buried portion 121 of the main body portion of the reinforcing member 120 along the arrow (W). Can be. The bent portion 123 ′ of the reinforcement member 120 may be formed to extend from the lower end of the buried portion 121 of the main body portion of the reinforcement member 120, and thus the reinforcement member 120 may be formed in one line. The structure may be connected to each other, and may be easily formed by an operation of bending one line.

6 to 10, the reinforcing member 120 is structurally formed to be embedded in the concrete placed in the formwork between the buried portion 121 and the buried portion 121 of the body portion mutually A plurality of body parts may be integrated through the connection part 123. At this time, the reinforcing member 120 may be formed such that the connecting portion 123 extends from the lower end of the buried portion 121 of the main body portion such that the plurality of main body portions and the plurality of connecting portions are continuously connected to each other in one line.

On the other hand, for the reinforcement of the half PC slab 100 according to the present invention, the main body 110 of the half PC slab 100, the mesh (130), the reinforcement 140 in the lower side than the reinforcing member 120 ) May be installed to be further embedded.

As described above, the half PC slab 100 according to the present invention may be manufactured by an automatic production method by the following manufacturing method as shown in FIGS. 12 to 14. For reference, the reinforcing member 120 illustrated in FIGS. 12 to 14 is illustrated as being limited to the reinforcing member 120a according to the first embodiment as illustrated in FIGS. 3 to 5.

The formwork 200 for the production of the half PC slab 100 can be continuously produced automatically along the longitudinal direction (arrow L) of the half PC slab 100, the longitudinal direction of the half PC slab 100 (arrow L) It can be made long along). That is, one formwork 200 is manufactured so as to have the same length as a plurality of half PC slab 100 in succession along the longitudinal direction (arrow L), a plurality of half PCs manufactured in one formwork 200 The slab 100 can be cut and used.

When the formwork 100 is installed and prepared in the base B such as a frame or a bottom for supporting the formwork, as shown in FIG. 12A, the half PC slab 100 according to the present invention is mesh 130. In the case of including the reinforcing reinforcing bars 140, the mesh 130, the reinforcing bar 140, and the like are inserted into the formwork 200 installed thereon. 12A shows a state in which the mesh 130 and the reinforcing bar 140 are installed in the formwork 200.

Next, as shown in FIGS. 12B and 12C, the reinforcing member 120 is installed in the formwork 200. 12B shows a state in which the reinforcing member 120 is installed in the formwork 200, and FIG. 12C shows a state in which the reinforcing member 120 is installed in the formwork 200. Reinforcement member 120 is characterized in that the upper portion 124 is bent in the horizontal direction with respect to the vertical direction from the buried portion 122 of the reinforcement member 120 is installed in the formwork 200 Can be.

Such a reinforcing member 120 may be fixed by welding, a binding line, or the like on the mesh 130 pre-mounted in the formwork 200, the reinforcing bar 140, or the like.

Next, as shown in FIG. 12d, the concrete is poured into the formwork 200 at the upper side of the formwork 200 by the concrete placing device 300 capable of placing concrete in the formwork 200. However, only the buried portion 122 of the reinforcing member 120 is embedded in the concrete poured in the formwork 200 and the upper portion 124 bent in the horizontal direction of the reinforcing member 120 is cast concrete in the formwork 200. In order to be exposed on the upper surface of the concrete, it is desirable to make the casting. That is, the concrete pouring is made up to a predetermined height, that is, the concrete placing limit height (H) so that the upper surface of the concrete poured in the formwork 200 to reach below the bent upper portion 124 of the reinforcing member 120 as shown Although not shown, concrete pouring may be performed so that the upper surface of the concrete poured into the formwork 200 does not exceed the upper surface of the bent upper portion 124 of the reinforcing member 120.

In addition, as the formwork 200 is formed to be quite long as described above, the concrete placing is made while the formwork 200 or the concrete placing device 300 moves along the longitudinal direction (arrow L) of the half PC slab 100. In this case, the concrete placing apparatus 300 may be more advantageous because it does not have to be formed long corresponding to the length of the formwork 200. For example, as shown, the rail 330 may be installed to guide the linear movement of the concrete placing apparatus 300 to both sides of the formwork 200, the concrete pouring apparatus 300 is along the rail 330 Wheels 314 may be provided in the main body 310 in which a hopper 312 for placing concrete is installed so as to be linearly movable along the longitudinal direction (arrow L) of the half PC slab 100.

In addition, the concrete pouring device 300 is to be in close contact with the upper surface of the concrete poured in the formwork 200 when the concrete placing device 300 or the formwork 200 to move the compacted concrete in the formwork (200) It may further include a pour concrete contact portion 320 made to be. The pour concrete contact portion 320 is a concrete pour device 300 so that the bottom surface can be moved linearly along the longitudinal direction (arrow L) of the half PC slab 100 on the same line as the above-described concrete placing limit height (H). It may be made of a plate (plate) coupled to the rear of the body portion 310 of the. At this time, as the reinforcing member 120 is made of reinforcing bars or steel wires, the bent upper portion 124 of the reinforcing member 120 is so large that the thickness projected from the upper surface of the concrete cast on the formwork 120 can be ignored. The pouring concrete contact portion 320 may be linearly moved while being in close contact with the upper surface of the concrete poured in the formwork 200 without being disturbed by the bent upper portion 124 of the reinforcing member 120. However, the present invention is not limited thereto, and the bent upper portion 124 of the reinforcing member 120 is buried in the exposed state of the poured concrete, so that the upper portion 124 and the poured concrete upper surface. This horizontal plane may be achieved.

In addition, the pour concrete contact portion 320 is installed on the main body 310 of the concrete placing device 300 to vibrate in the vertical direction by vibrator or hydraulic cylinder, etc., the concrete poured in the form 200 while vibrating in the vertical direction It can be made to repeatedly compact the upper surface of.

On the other hand, the concrete pouring device 300 can be operated to pour concrete in the formwork 200 while advancing along the longitudinal direction (arrow L) of the formwork 200 and vibrating in the front and rear and up and down directions, thereby Compaction of the concrete poured in the formwork 200 may be made more robust. For the front and rear direction vibration of the concrete placing apparatus 300, the concrete placing apparatus 300 itself may be moved back and forth along the rail 30, and only the concrete placing portion in contact with the concrete 320 is vibrated in the front and rear direction by a vibrator or the like. Can be. Here, the vibrator for the front and rear direction vibration is a technology known in many technical fields, the present invention can be carried out by a known vibrator, a detailed description of the vibrator is omitted.

Next, as shown in FIG. 12E, after a predetermined time has passed from the concrete pouring before the concrete poured in the formwork 200 is completely cured, the bent upper portion 124 of the reinforcing member 300 is vertically upward. Unfold and protrude to the top of the body portion made of concrete of the half PC slab 100. That is, before the cast concrete is completely hardened and the bent upper portion 124 of the reinforcing member 120 adheres to the upper surface of the poured concrete, the bent upper portion 124 of the reinforcing member 120 can be easily unfolded. have. However, the present invention is not limited thereto, and if the upper portion 124 is somewhat spaced from the upper surface of the concrete, the upper portion 124 may be unfolded after the poured concrete is completely hardened.

After unfolding the upper portion 124 of the reinforcing member 120, if the predetermined time further flows to completely solidify the concrete poured in the formwork 200, the half PC slab 100 according to the present invention can be manufactured.

Meanwhile, in another embodiment, the half PC slab 100 according to the present invention may be manufactured by an automatic production method by the following manufacturing method as shown in FIG. 15.

Like the manufacturing method of the half PC slab 100 according to an embodiment of the present invention described above with reference to FIGS. 12 to 14 in which the reinforcing member 120 or the like is installed in the formwork 200 installed on the frame 210. After that, the pouring of concrete can be made as follows.

That is, the concrete is poured into the formwork 200 from the upper side of the formwork 200 by the concrete pouring device 300, the bent upper portion of the reinforcing member 120 is exposed on the upper surface of the concrete poured into the formwork 200 In addition, it may be characterized by vibrating the formwork 200 on the frame 210, and thus can be compacted and concrete is poured in the formwork 200.

Vibration of the formwork 200 may be carried out in various ways as follows.

First, as shown by the "arrow A", the frame 210 by vibrator or the like to install the frame guide rail 220 so as to be able to move along the longitudinal direction or the width direction of the half PC slab 100, formwork ( 200 may be vibrated with the frame 210. In this case, the formwork 200 is formed with a microcapacity capacity by the frame 210, and the formwork may be repeatedly mounted and separated on the frame sequentially for automatic production.

Second, the concrete pouring device 300 is pour concrete vibrating unit 340 to vibrate the concrete placed in the formwork 200 in the vertical direction from the upper side of the concrete placed in the formwork 200, 340 ) May be included. The pouring concrete vibrating unit 340, for example, the vibration plate 342 and the vibration plate 342 made to be in close contact with the upper surface of the concrete poured in the formwork 200 on the upper side of the concrete placed in the formwork 200, It may include a diaphragm drive unit 344 made by a hydraulic cylinder mechanism or the like to vibrate. At this time, as shown, the concrete placing apparatus 300 is fixed to the upper side of the formwork 200, the formwork 200 may be linearly moved along the longitudinal direction. Alternatively, although not shown, the concrete placing apparatus 300 may vibrate the formwork 200 while linearly moving along the formwork 200.

In addition, any one can be applied if the formwork 200 can be vibrated.

In another embodiment, the half PC slab 100 according to the present invention may be manufactured in an automatic production method by the following manufacturing method as shown in FIGS. 16 to 18.

That is, compared to the embodiment of the present invention described with reference to Figures 3 to 11, instead of the formwork is installed on the floor (B) or the frame of the manufacturing site of the half PC slab 100 to the concrete pouring device 300 The formwork foam 350 for forming the concrete pouring area C of the half PC slab 100 may be integrally provided.

Accordingly, the reinforcing members 120 are placed along the longitudinal direction (arrow L) of the half PC slab 100 in the same manner as the embodiment of the present invention described with reference to FIGS. And the reinforcing members 120 installed in this way are disposed in the concrete pouring apparatus 300 or the frame in the longitudinal direction (arrow L) such that the reinforcing members 120 are positioned in the pouring region C formed by the formwork foam 350 of the concrete pouring apparatus 300. If the linear movement along, the temporary work corresponding to the formwork of the embodiment of the present invention described with reference to Figures 3 to 11 can be made.

Subsequently, when the concrete is poured in the same place as the embodiment of the present invention described with reference to FIGS. 3 to 11, and the folded upper portion of the reinforcing member 120 is unfolded, the half PC slab is placed. 100 can be manufactured.

On the other hand, the formwork foam 350 of the concrete pouring apparatus 300 may be configured according to the shape of the half PC slab 100, etc., for example, as shown in the width direction of the half PC slab 100 (arrow W) It may include both sidewalls, and may further include any one or both of the front and rear sidewalls along the longitudinal direction (arrow L) of the half PC slab 100. The formwork foam 350 of the concrete placing apparatus 300 may always be fixed in position, and may be installed to be movable along the longitudinal direction (arrow L) or the vertical direction of the half PC slab 100.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100; Half PC slab 120; Reinforcement member
122; Buried portion 124; Upper part
200; Formwork 210; frame
300; Concrete Pourer 312: Hopper
320: pour concrete contact portion 340; Pour concrete vibrator

Claims (15)

In the manufacturing method of the half PC slab,
Reinforcement members are installed along the longitudinal direction of the half PC slab to reinforce the shear force of the half PC slab on the floor or the frame, wherein the reinforcement member extends from the lower portion to the upper portion and is installed with the upper portion bent in the horizontal direction. Member installation step;
While the concrete placing device with the form foam of the frame or the half PC slab is moved linearly along the longitudinal direction to form the concrete placing area of the half PC slab where the reinforcing member is positioned by the form foam of the concrete placing device. Placing concrete in the pour area from the upper side of the pour area, so that the bent upper portion of the reinforcing member is exposed on the top surface of the poured concrete, wherein the bent upper portion is in close contact with the top surface of the poured concrete Or burying the concrete to be buried in an exposed state on the upper surface of the poured concrete;
After the predetermined time has passed from the concrete casting, the method of manufacturing a half PC slab comprising the step of unfolding the reinforcing member to extend the bent upper portion of the reinforcing member to protrude to the top of the body portion made of concrete of the half PC slab. The method according to claim 1,
The concrete pouring device is a method of manufacturing a half PC slab comprising a pour concrete contact portion made to be in close contact with the upper surface of the pour concrete when the concrete pour device or the frame moves linearly. In the manufacturing method of the half PC slab,
A reinforcing member is installed in the formwork for the half PC slab to reinforce the shear force of the half PC slab, wherein the reinforcing member extends from the bottom to the top in the formwork, and the reinforcing member is installed with the upper portion bent in the horizontal direction. step;
The concrete is poured into the formwork at the upper side of the formwork by the concrete placing apparatus while linearly moving the formwork or concrete placing apparatus along the longitudinal direction of the formwork, and the bent upper part of the reinforcing member is cast on the formwork. A concrete placing step of exposing on a top surface of concrete, wherein the bent upper portion adheres to the top surface of the poured concrete or is buried in an exposed state of the top surface of the poured concrete;
After the predetermined time has passed from the concrete casting, the method of manufacturing a half PC slab comprising the step of unfolding the reinforcing member to extend the bent upper portion of the reinforcing member to protrude to the top of the body portion made of concrete of the half PC slab. The method according to claim 3,
The concrete pouring device is a method of manufacturing a half PC slab comprising a pour concrete contact portion made to be in close contact with the upper surface of the pour concrete when the concrete pour device or the formwork moves linearly. The method according to claim 2 or 4,
The method of manufacturing a half-PC slab repeatedly compacting the upper surface of the poured concrete while vibrating in the vertical concrete contact portion. The method according to any one of claims 1 to 4,
The concrete pouring device is a method of manufacturing a half PC slab made to pour the concrete while advancing along the longitudinal direction, vibrating in at least one of the front and rear and up and down directions. In the manufacturing method of the half PC slab,
A reinforcing member is installed in the formwork for the half PC slab on the frame to reinforce the shear force of the half PC slab, wherein the reinforcing member extends from the bottom to the top in the formwork, and the upper portion is bent in the horizontal direction. Reinforcing member installation step that is installed;
Placing concrete in the formwork from the upper side of the formwork by the concrete pouring device so that the bent upper portion of the reinforcing member is exposed on the upper surface of the concrete poured in the formwork, wherein the bent upper portion is A concrete pouring step of allowing the formwork to vibrate while being buried in close contact with the top surface of the poured concrete or in an exposed state;
After the predetermined time has passed from the concrete casting, the method of manufacturing a half PC slab comprising the step of unfolding the reinforcing member to extend the bent upper portion of the reinforcing member to protrude to the top of the body portion made of concrete of the half PC slab. The method according to any one of claims 1 to 4 and 7,
The body part of the half PC slab manufacturing method of the half PC slab comprising a flat plate, and ribs protruding perpendicularly to the flat plate in the longitudinal direction of the half PC slab. The method according to any one of claims 1 to 4 and 7,
The body part of the half PC slab manufacturing method of the half PC slab formed to have a core penetrated along the longitudinal direction of the half PC slab. The method according to any one of claims 1 to 4 and 7,
The reinforcing member is a manufacturing method of the half PC slab made so that the upper portion exposed on the upper surface of the concrete poured in the form has a ring shape. The method according to claim 10,
The reinforcing member is a half PC slab manufacturing method including a main body portion of the shape bent in the '∩' along the width direction or the longitudinal direction of the half PC slab to have the annular shape. The method according to claim 10,
The reinforcing member is a half PC slab manufacturing method comprising a plurality of main body parts spaced apart from each other along the longitudinal direction of the half PC slab. The method of claim 12,
The reinforcing member further includes a bent part that is embedded in the concrete poured in the formwork and is formed integrally with the main body portion of the reinforcing member so as to protrude from the main body portion of the reinforcing member along the width direction of the half PC slab. Manufacturing method. The method according to claim 10,
The reinforcing member is formed to be embedded in a plurality of body parts spaced apart from each other along the longitudinal direction of the half PC slab, and to be embedded in the concrete poured in the formwork and formed between the body portion and the body portion to connect integrally A method of manufacturing a half PC slab comprising a plurality of connections. The method according to claim 14,
The reinforcing member is a method of manufacturing a half PC slab is formed so that the plurality of the main body portion and the plurality of connecting portions are continuously connected to each other in one line.

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