WO2016010488A1 - A method for constructing cast-in-place walls with binder - Google Patents

A method for constructing cast-in-place walls with binder Download PDF

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Publication number
WO2016010488A1
WO2016010488A1 PCT/TH2015/000044 TH2015000044W WO2016010488A1 WO 2016010488 A1 WO2016010488 A1 WO 2016010488A1 TH 2015000044 W TH2015000044 W TH 2015000044W WO 2016010488 A1 WO2016010488 A1 WO 2016010488A1
Authority
WO
WIPO (PCT)
Prior art keywords
formwork
binder
filling
walls according
constructing cast
Prior art date
Application number
PCT/TH2015/000044
Other languages
French (fr)
Inventor
Rawat SURIYAPANANONT
Aumjai PINTAPATE
Original Assignee
Siam Mortar Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from TH1401004091A external-priority patent/TH153651A/en
Application filed by Siam Mortar Co., Ltd. filed Critical Siam Mortar Co., Ltd.
Publication of WO2016010488A1 publication Critical patent/WO2016010488A1/en

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G11/00Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs
    • E04G11/06Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for walls, e.g. curved end panels for wall shutterings; filler elements for wall shutterings; shutterings for vertical ducts
    • E04G11/08Forms, which are completely dismantled after setting of the concrete and re-built for next pouring
    • E04G11/18Forms, which are completely dismantled after setting of the concrete and re-built for next pouring for double walls
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G11/00Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs
    • E04G11/06Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for walls, e.g. curved end panels for wall shutterings; filler elements for wall shutterings; shutterings for vertical ducts
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • E04G21/02Conveying or working-up concrete or similar masses able to be heaped or cast
    • E04G21/04Devices for both conveying and distributing
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • E04G21/02Conveying or working-up concrete or similar masses able to be heaped or cast
    • E04G21/04Devices for both conveying and distributing
    • E04G21/0418Devices for both conveying and distributing with distribution hose
    • E04G21/0472Details of connection of the hose to the formwork, e.g. inlets
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/84Walls made by casting, pouring, or tamping in situ
    • E04B2/86Walls made by casting, pouring, or tamping in situ made in permanent forms
    • E04B2002/8682Mixed technique using permanent and reusable forms

Definitions

  • the present invention is in the field of engineering related to a method for constructing cast-in-place walls with binder.
  • a TH petty patent no. 5218 discloses a method for building wall panels by injecting lightweight concrete composition into the forms at the construction site. Said method comprises the steps of; installing the formwork with an opening for filling the composition and a hole for venting air; mixing; and injecting the composition through the opening for filling the composition; sealing the opening; leaving the composition to cure for 12 hours; and removing the formwork.
  • a published JP patent application no. JP 10-068226 discloses a cementitious material injection device and dispensing the cementitious material with the cementitious material injection device consisting of the following main components such as, a raw material storage tank, a material feeding tank, a material transferring device, mixing apparatus and injector.
  • the cementitious material is transferred from the storage tank to the feeding tank and to the mixing apparatus by the transferring device.
  • the cementitious material is mixed with water by the mixing apparatus and then injected via the injector.
  • the cementitious material is automatically transferred to the mixing apparatus and the cementitious material is continuously injected.
  • US patent no. US 5,882,540 discloses a wall construction method consisting of the steps of preparing a footing form to outline a horizontal dimension for the wall; pouring wall forming material between opposing sides of said footing form; allowing said poured wall forming material to set to provide a wall footing; attaching the first formwork to a side of the footing form to define the vertical dimension of the wall to be built; attaching the wall component structure to the inner surface of a first formwork at the desired location for said wall component on the wall; attaching a second formwork to an opposite side of the footing form at a predetermined distance from the first wall form according to a desired width of the wall; pouring wall forming material between the first and second wall forms to form a wall, said wall forming material being poured around said wall component structure; and allowing said wall forming material to set between the wall forms and around said wall component structure.
  • a published PCT application no. WO 2012/075071 A 1 discloses a wall construction method involving the steps of; placing a concrete form having a cavity; placing a steel reinforcement within the cavity; pouring a mix of aggregate, sand, cement, fly ash, and mineral fibers into the cavity; and allowing the mix to cure.
  • the present invention relates to a cast-in-place wall construction method comprising the steps of: determining the wall line; forming kicker along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork 1 ; installing the formwork 1 along the wall line such that there is a gap between the two panels of the formwork 1 or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the mortar into the gap of the formwork 1 ; leaving said mortar to harden and to cure within the formwork; and removing the formwork 1 (as shown in Fig. 1).
  • the filling of mortar into the gap of the formwork 1 is carried out by positioning an end of at least one mortar filling tube 2 above the slurry surface level at which the mortar is to be filled, with at least one mortar filling tube 2 being moved vertically or horizontally or with at least one mortar filling tube 2 being moved both vertically and horizontally in a relative manner.
  • This method reduces the steps involved in the construction of cast-in-place walls for low-rise and high-rise building.
  • the resulting wall has a homogenous and seamless surface with no limitation in terms of area and dimension.
  • the resulting wall has minimal porosity or air bubbles in the texture, resulting in a wall having the desired strength.
  • This method allows the construction of walls having a complicated shape.
  • the wall casting can be carried out without limitations in terms of length, height, and thickness of the wall to be built.
  • This method saves costs in cement transporting because it does not require the step of transporting gravels and sand required in the conventional construction system.
  • Fig. 1 shows the block diagram of the steps of wall construction method according to the present invention.
  • Fig. 2 shows the filling of binder into the gap of the formwork by inserting an end of one binder filling tube from the top of the formwork such that the tube is vertically movable.
  • Fig. 3 shows the vertical movement by interval of a binder filling tube.
  • Fig. 4 shows the filling of binder into the gap of the formwork by inserting an end of at least two binder filling tubes from the top of the formwork such that the tube is vertically movable.
  • Fig. 5 shows the vertical movement by interval of at least two binder filling tubes.
  • Fig. 6 shows the filling of binder into the gap of the formwork by inserting an end of at least one binder filling tube from the top of the formwork such that the tube is vertically movable and said at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
  • Fig. 7 shows the vertical movement by interval of at least one binder filling tube and said at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
  • Fig. 8 shows the filling of binder into the gap of the formwork by positioning an end of the binder filling tubes above the slurry surface level at which the binder is to be filled with the binder filling tubes being moved both vertically and horizontally by interval, in a relative manner according to the present invention.
  • Fig. 9 shows the relative vertical and horizontal movement of the binder filling tube from one side of the formwork to the other side of the formwork in a continuous manner, by interval.
  • Fig. 10 shows the relative vertical and horizontal movement of the binder filling tube in a continuous manner, by interval, in alternation with the continuous horizontal movement.
  • Fig. 1 1 shows the horizontal movement by interval of binder filling tube from one side of the formwork to the other side of the formwork in alternation with the continuous vertical movement.
  • Fig. 12 shows at least one binder filling tube provided at the top of the formwork.
  • Fig. 13 shows at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
  • Fig. 14 shows at least one binder filling tube provided at the bottom of the formwork.
  • Fig. 15 shows at least one binder filling tube provided at the front of the formwork.
  • Fig. 16 shows at least one binder filling tube provided at the top of the formwork and at least one binder filling tube being provided at the front of the formwork.
  • Fig. 17 shows at least one binder filling tube provided at the top of the formwork and at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
  • Fig. 18 shows at least one binder filling tube provided at the bottom of the formwork and at least one binder filling tube being provided at one lateral side or both lateral sides of the formwork.
  • Fig. 19 shows at least one binder filling tube provided at the bottom of the formwork and at least one binder filling tube provided at the front of the formwork.
  • Fig. 20 shows at least one binder filling tube provided at the front of the formwork and at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
  • a method for constructing cast-in-place walls according to the present invention comprises the steps of: determining the wall line; forming kicker along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork; installing the formwork 1 along the wall line such that there is a gap between the two panels of the formwork 1 or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the binder into the gap of the formwork 1 ; leaving said binder to harden and to cure within the formwork 1 ; and removing the formwork 1 , wherein the filling the binder into the gap of the formwork 1 is carried out be positioning an end of at least one binder filling tube 2 above the slurry surface level at which the binder is to be filled, with at least one binder filling tube 2 being moved vertically or horizontally or with at least one binder filling tube 2 being
  • filling the binder into the gap of the formwork 1 is carried out by inserting an end of one binder filling tube 2 from the top of the formwork 1 such that the tube is vertically movable; by inserting an end of at least two binder filling tubes 2 from the top of the formwork 1 such that the tube is vertically movable; or by inserting an end of at least one binder filling tube 2 from the top of the formwork 1 such that the tube is vertically movable and providing at least one binder filling tube 2 at one lateral side or both lateral sides of the formwork.
  • the relative movement of at least one binder filling tube 2 in the vertical and horizontal directions as shown in Fig.
  • Fig. 8 may start from one side or one position of the formwork 1 to the other side or position of the formwork 1 in a continuous manner, by interval (as shown in Fig. 9), or the relative movement in the vertical and horizontal directions in alternation with the continuous horizontal movement starts from one side or one position of the formwork 1 to the other side or position of the formwork 1 (as shown in Fig. 10).
  • the movement of at least one binder filling tube 2 also includes the movement in the horizontal direction from one side or one position of the formwork 1 to the other side or position of the formwork 1, in a continuous manner, by interval, in alternation with the continuous movement in the vertical direction (as shown in Fig. 11).
  • the filling of binder into the gap of the formwork 1 is carried out by positioning an end of the binder filling tube 2 above the slurry surface level at which the binder is to be filled, with at least one binder filling tube 2 being moved vertically or horizontally or with at least one binder filling tube 2 being moved both vertically and horizontally in a relative manner, by intervals, each being 30-300 cm, preferably, 30-120 cm, more preferably 30-50 cm in length.
  • a method for constructing cast-in-place walls further comprises horizontally arranging the binder filling tube 2 at 30-2000 cm apart, preferably at 30-1000 cm apart, more preferably at 30-200 cm apart.
  • the filling of binder into the gap of the formwork 1 is carried out by filling the binder from at least one binder filling tube 2 provided at at least one of the sides of the formwork 1 (at the top, the lateral side, the bottom and/or the front).
  • filling the binder into the gap of the formwork 1 is also carried out by filling the binder from at least one binder filling tube 2 provided at the top of the formwork 1 by inserting the filling tube through the upper floor, which is advantageous in that the gap between the top edge of the wall and the upper floor is minimal.
  • the inner surface of the formwork 1 is smooth or textured, which is advantageous in that the steps of finishing the wall surface can be excluded.
  • the texture on the wall will be more durable than ones resulting from other conventional methods as it is integrated into the wall.
  • the formwork 1 is of a flat shape, curved shape or geometric shape, which is advantageous in that it is possible to build walls of different shapes as a single piece, giving the walls higher strength than those of the same appearance which are built by other methods.
  • the formwork 1 can be made from at least one material selected from metal, wood, plastic, cement fiber board, foam board or gypsum board, as appropriate.
  • the heat protection material includes foam, sand, wood, asphalt, cement fiber board, or gypsum board.
  • the sound protection material includes foam, sand, wood, corrugated paper, asphalt, water protection plastic sheet, cement fiber board or gypsum board.
  • the water protection material includes foam, wood, fiber, asphalt, water protection plastic sheet, cement fiber board, natural rubber or foil. Said heat protection material or the sound protection material or the water protection material is provided at a position of the formwork 1 such as the heat protection material or the sound protection material or the water protection material is provided in the middle of the gap between the form work panels or closer to one of the panels of the formwork 1.
  • a method for constructing cast-in-place walls further comprises a step of providing a reinforcement material within the formwork 1 , wherein said reinforcement material includes at least one of the following: wire mesh, plastic mesh, deformed bars or wooden reinforcement mesh.
  • a method for constructing cast-in-place walls further comprises a step of managing the sanitation system, electricity system and cooling system before or during the step of installing the formwork 1.
  • the step of forming kicker along the predetermined wall line is carried out simultaneously with the installation of sanitation system, electricity system and cooling system.
  • the installation of the formwork 1 along the wall line further comprises a step of providing openings for windows, doors and/or skylights.
  • the walls cast from said binder is seamless and thus does not require application of binder to seal the adjoining edges of the boards as in conventional systems.
  • said binder is a cement-based material which includes concrete.
  • said binder includes gypsum.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Mechanical Engineering (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Forms Removed On Construction Sites Or Auxiliary Members Thereof (AREA)

Abstract

The present invention relates to a cast-in-place wall construction method comprising the steps of: determining the wall line; forming kicker along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork; installing the formwork along the wall line such that there is a gap between the two panels of the formwork or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the binder into the gap of the formwork; leaving said binder to harden and to cure within the formwork; and removing the formwork. According to the invention, the filling of binder into the gap of the formwork is carried out by positioning an end of at least one binder filling tube above the slurry surface level at which the binder is to be filled, with at least one binder filling tube being moved vertically or horizontally or with at least one binder filling tube being moved both vertically and horizontally in a relative manner.

Description

A METHOD FOR CONSTRUCTING CAST-IN-PLACE WALLS WITH BINDER
Field of the Invention
The present invention is in the field of engineering related to a method for constructing cast-in-place walls with binder.
Background of the Invention
In the conventional wall construction method such as brick laying and plastering for building wall consists of several steps including preparing cement and sand, transporting cement and sand, mixing cement and sand in a tray, plastering and disposing of cement bags. The conventional method obviously involves too many steps, thus requires considerable time. The cement also causes dust pollution and extra space is required for storing the cement and sand. In case of high-rise building construction, cranes and elevators must be used for conveying building materials which complicates the construction process, leading to spending a larger amount of cost. Another wall construction method using precast wall panels also involves steps, such as, transporting the precast wall panels to the intended site and installing the precast walls. Similarly, in case of high-rise building construction, cranes and elevators must also be used for conveying the wall panels and other materials involved. This can be dangerous and thus requires experts to supervise the installation. The cast-in-place construction method is therefore invented to improve the efficiency of the construction work.
Following our research on the prior cast-in-place wall constructions, we found several prior arts disclosing both conventional wall construction methods and cast-in-place wall construction methods as follow.
A TH petty patent no. 5218 discloses a method for building wall panels by injecting lightweight concrete composition into the forms at the construction site. Said method comprises the steps of; installing the formwork with an opening for filling the composition and a hole for venting air; mixing; and injecting the composition through the opening for filling the composition; sealing the opening; leaving the composition to cure for 12 hours; and removing the formwork. A published JP patent application no. JP 10-068226 discloses a cementitious material injection device and dispensing the cementitious material with the cementitious material injection device consisting of the following main components such as, a raw material storage tank, a material feeding tank, a material transferring device, mixing apparatus and injector. The cementitious material is transferred from the storage tank to the feeding tank and to the mixing apparatus by the transferring device. The cementitious material is mixed with water by the mixing apparatus and then injected via the injector. The cementitious material is automatically transferred to the mixing apparatus and the cementitious material is continuously injected. This publication describes various uses of the invention such as in ground reinforcement in tunnel excavation structure, in land adjustment in a residential construction project, in street surface adjustment, etc.
US patent no. US 5,882,540 discloses a wall construction method consisting of the steps of preparing a footing form to outline a horizontal dimension for the wall; pouring wall forming material between opposing sides of said footing form; allowing said poured wall forming material to set to provide a wall footing; attaching the first formwork to a side of the footing form to define the vertical dimension of the wall to be built; attaching the wall component structure to the inner surface of a first formwork at the desired location for said wall component on the wall; attaching a second formwork to an opposite side of the footing form at a predetermined distance from the first wall form according to a desired width of the wall; pouring wall forming material between the first and second wall forms to form a wall, said wall forming material being poured around said wall component structure; and allowing said wall forming material to set between the wall forms and around said wall component structure.
A published PCT application no. WO 2012/075071 A 1 discloses a wall construction method involving the steps of; placing a concrete form having a cavity; placing a steel reinforcement within the cavity; pouring a mix of aggregate, sand, cement, fly ash, and mineral fibers into the cavity; and allowing the mix to cure.
Summary of the Invention
The present invention relates to a cast-in-place wall construction method comprising the steps of: determining the wall line; forming kicker along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork 1 ; installing the formwork 1 along the wall line such that there is a gap between the two panels of the formwork 1 or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the mortar into the gap of the formwork 1 ; leaving said mortar to harden and to cure within the formwork; and removing the formwork 1 (as shown in Fig. 1). According to the invention, the filling of mortar into the gap of the formwork 1 is carried out by positioning an end of at least one mortar filling tube 2 above the slurry surface level at which the mortar is to be filled, with at least one mortar filling tube 2 being moved vertically or horizontally or with at least one mortar filling tube 2 being moved both vertically and horizontally in a relative manner.
The object of the present invention is to provide a method for constructing cast-in-place walls comprising the aforementioned steps which has the following advantages:
This method reduces the steps involved in the construction of cast-in-place walls for low-rise and high-rise building.
The resulting wall has a homogenous and seamless surface with no limitation in terms of area and dimension.
The resulting wall has minimal porosity or air bubbles in the texture, resulting in a wall having the desired strength.
This method allows the construction of walls having a complicated shape.
The wall casting can be carried out without limitations in terms of length, height, and thickness of the wall to be built.
This method saves costs in cement transporting because it does not require the step of transporting gravels and sand required in the conventional construction system.
This method minimizes the risks of accidents during the construction.
Brief Description of the Drawings
Fig. 1 shows the block diagram of the steps of wall construction method according to the present invention. Fig. 2 shows the filling of binder into the gap of the formwork by inserting an end of one binder filling tube from the top of the formwork such that the tube is vertically movable.
Fig. 3 shows the vertical movement by interval of a binder filling tube.
Fig. 4 shows the filling of binder into the gap of the formwork by inserting an end of at least two binder filling tubes from the top of the formwork such that the tube is vertically movable.
Fig. 5 shows the vertical movement by interval of at least two binder filling tubes.
Fig. 6 shows the filling of binder into the gap of the formwork by inserting an end of at least one binder filling tube from the top of the formwork such that the tube is vertically movable and said at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
Fig. 7 shows the vertical movement by interval of at least one binder filling tube and said at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
Fig. 8 shows the filling of binder into the gap of the formwork by positioning an end of the binder filling tubes above the slurry surface level at which the binder is to be filled with the binder filling tubes being moved both vertically and horizontally by interval, in a relative manner according to the present invention.
Fig. 9 shows the relative vertical and horizontal movement of the binder filling tube from one side of the formwork to the other side of the formwork in a continuous manner, by interval.
Fig. 10 shows the relative vertical and horizontal movement of the binder filling tube in a continuous manner, by interval, in alternation with the continuous horizontal movement.
Fig. 1 1 shows the horizontal movement by interval of binder filling tube from one side of the formwork to the other side of the formwork in alternation with the continuous vertical movement.
Fig. 12 shows at least one binder filling tube provided at the top of the formwork.
Fig. 13 shows at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
Fig. 14 shows at least one binder filling tube provided at the bottom of the formwork. Fig. 15 shows at least one binder filling tube provided at the front of the formwork.
Fig. 16 shows at least one binder filling tube provided at the top of the formwork and at least one binder filling tube being provided at the front of the formwork.
Fig. 17 shows at least one binder filling tube provided at the top of the formwork and at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
Fig. 18 shows at least one binder filling tube provided at the bottom of the formwork and at least one binder filling tube being provided at one lateral side or both lateral sides of the formwork.
Fig. 19 shows at least one binder filling tube provided at the bottom of the formwork and at least one binder filling tube provided at the front of the formwork.
Fig. 20 shows at least one binder filling tube provided at the front of the formwork and at least one binder filling tube provided at one lateral side or both lateral sides of the formwork.
Detailed Description of the Invention
The present invention will now be described further in detail with reference to the attached drawings.
As shown in Fig. 1 showing a method for constructing cast-in-place walls according to the present invention, a method for constructing cast-in-place walls according to the present invention comprises the steps of: determining the wall line; forming kicker along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork; installing the formwork 1 along the wall line such that there is a gap between the two panels of the formwork 1 or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the binder into the gap of the formwork 1 ; leaving said binder to harden and to cure within the formwork 1 ; and removing the formwork 1 , wherein the filling the binder into the gap of the formwork 1 is carried out be positioning an end of at least one binder filling tube 2 above the slurry surface level at which the binder is to be filled, with at least one binder filling tube 2 being moved vertically or horizontally or with at least one binder filling tube 2 being moved both vertically and horizontally in a relative manner. According to the present invention, said rigid body located on the opposite side of said panel may be, for example, a wall of a building.
As shown in Fig. 2 - 7 filling the binder into the gap of the formwork 1 is carried out by inserting an end of one binder filling tube 2 from the top of the formwork 1 such that the tube is vertically movable; by inserting an end of at least two binder filling tubes 2 from the top of the formwork 1 such that the tube is vertically movable; or by inserting an end of at least one binder filling tube 2 from the top of the formwork 1 such that the tube is vertically movable and providing at least one binder filling tube 2 at one lateral side or both lateral sides of the formwork. According to the present invention, the relative movement of at least one binder filling tube 2 in the vertical and horizontal directions (as shown in Fig. 8) may start from one side or one position of the formwork 1 to the other side or position of the formwork 1 in a continuous manner, by interval (as shown in Fig. 9), or the relative movement in the vertical and horizontal directions in alternation with the continuous horizontal movement starts from one side or one position of the formwork 1 to the other side or position of the formwork 1 (as shown in Fig. 10).
Furthermore, the movement of at least one binder filling tube 2 also includes the movement in the horizontal direction from one side or one position of the formwork 1 to the other side or position of the formwork 1, in a continuous manner, by interval, in alternation with the continuous movement in the vertical direction (as shown in Fig. 11). According to the present invention, the filling of binder into the gap of the formwork 1 is carried out by positioning an end of the binder filling tube 2 above the slurry surface level at which the binder is to be filled, with at least one binder filling tube 2 being moved vertically or horizontally or with at least one binder filling tube 2 being moved both vertically and horizontally in a relative manner, by intervals, each being 30-300 cm, preferably, 30-120 cm, more preferably 30-50 cm in length.
Furthermore, a method for constructing cast-in-place walls further comprises horizontally arranging the binder filling tube 2 at 30-2000 cm apart, preferably at 30-1000 cm apart, more preferably at 30-200 cm apart.
This method is advantageous in that the resulting walls have a homogenous and seamless surface with minimal porosity in the texture, resulting in a wall having the desired strength. As shown in Fig. 12 to 20, the filling of binder into the gap of the formwork 1 is carried out by filling the binder from at least one binder filling tube 2 provided at at least one of the sides of the formwork 1 (at the top, the lateral side, the bottom and/or the front).
Furthermore, filling the binder into the gap of the formwork 1 is also carried out by filling the binder from at least one binder filling tube 2 provided at the top of the formwork 1 by inserting the filling tube through the upper floor, which is advantageous in that the gap between the top edge of the wall and the upper floor is minimal.
According to the present invention, the inner surface of the formwork 1 is smooth or textured, which is advantageous in that the steps of finishing the wall surface can be excluded. The texture on the wall will be more durable than ones resulting from other conventional methods as it is integrated into the wall.
According to the present invention, the formwork 1 is of a flat shape, curved shape or geometric shape, which is advantageous in that it is possible to build walls of different shapes as a single piece, giving the walls higher strength than those of the same appearance which are built by other methods.
According to the present invention, the formwork 1 can be made from at least one material selected from metal, wood, plastic, cement fiber board, foam board or gypsum board, as appropriate.
According to the present invention, the heat protection material includes foam, sand, wood, asphalt, cement fiber board, or gypsum board. The sound protection material includes foam, sand, wood, corrugated paper, asphalt, water protection plastic sheet, cement fiber board or gypsum board. The water protection material includes foam, wood, fiber, asphalt, water protection plastic sheet, cement fiber board, natural rubber or foil. Said heat protection material or the sound protection material or the water protection material is provided at a position of the formwork 1 such as the heat protection material or the sound protection material or the water protection material is provided in the middle of the gap between the form work panels or closer to one of the panels of the formwork 1.
According to the present invention, a method for constructing cast-in-place walls further comprises a step of providing a reinforcement material within the formwork 1 , wherein said reinforcement material includes at least one of the following: wire mesh, plastic mesh, deformed bars or wooden reinforcement mesh.
According to the present invention, a method for constructing cast-in-place walls further comprises a step of managing the sanitation system, electricity system and cooling system before or during the step of installing the formwork 1.
According to the present invention, the step of forming kicker along the predetermined wall line is carried out simultaneously with the installation of sanitation system, electricity system and cooling system.
According to the present invention, the installation of the formwork 1 along the wall line further comprises a step of providing openings for windows, doors and/or skylights.
According to the present invention, the walls cast from said binder is seamless and thus does not require application of binder to seal the adjoining edges of the boards as in conventional systems.
According to the present invention, said binder is a cement-based material which includes concrete.
According to the present invention, said binder includes gypsum.
It should be appreciated that the practice of the method for constructing cast-in-place walls according to the present invention is not limited to the above-mentioned steps, apparatus and devices. Modifications and changes can be made to the method for constructing cast-in-place walls according to the present invention without departing from the scope and the spirit of the present invention.

Claims

Claims
1. A method for constructing cast-in-place walls comprising the steps of: determining the wall line; forming kicker along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork (1); installing the formwork (1) along the wall line such that there is a gap between the two panels of the formwork (1) or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the binder into the gap of the formwork (1); leaving said binder to harden and to cure within the formwork (1); and removing the formwork (1 ), characterized in that: the filling of binder into the gap of the formwork (1) is carried out by positioning an end of at least one binder filling tube (2) above the slurry surface level at which the binder is to be filled, with at least one binder filling tube (2) being moved vertically or horizontally or with at least one binder filling tube (2) being moved both vertically and horizontally in a relative manner.
2. The method for constructing cast-in-place walls according to claim 1 wherein the filling of binder into the gap of the formwork (1) is carried out by inserting an end of one binder filling tube (2) from the top of the formwork (1) such that the tube is vertically movable.
3. The method for constructing cast-in-place walls according to claim 1 wherein the filling of binder into the gap of the formwork (1 ) is carried out by inserting an end of at least two binder filling tubes (2) from the top of the formwork (1) such that the tubes are vertically movable.
4. The method for constructing cast-in-place walls according to claim 1 wherein the filling of binder into the gap of the formwork (1) is carried out by inserting an end of at least one binder filling tube (2) from the top of the formwork (1) such that the tube is vertically movable and providing at least one binder filling tube (2) at one of the lateral sides or both lateral sides of the formwork (1).
5. The method for constructing cast-in-place walls according to claim 1 wherein the filling of binder into the gap of the formwork (1) is carried out by inserting an end of at least one binder filling tube (2) from the top of the formwork (1) such that the tube is vertically and horizontally movable in a relative manner.
6. The method for constructing cast-in-place walls according to claim 1 or 5 wherein the relative vertical and horizontal movement of at least one binder filling tube (2) starts from one side of the formwork (1) to the other side of the formwork (1) by interval in a continuous manner.
7. The method for constructing cast-in-place walls according to claim 1 or 5 wherein the relative vertical and horizontal movement of at least one binder filling tube (2) starts from one position of the formwork (1) to the other position of the formwork (1) by interval in a continuous manner.
8. The method for constructing cast-in-place walls according to claim 1 or 5 wherein the relative vertical and horizontal movement of at least one binder filling tube (2) in alternation with the continuous horizontal movement starts from one side of the formwork (1) to the other side of the formwork (1).
9. The method for constructing cast-in-place walls according to claim 1 or 5 wherein the relative vertical and horizontal movement of at least one binder filling tube (2) in alternation with the continuous horizontal movement starts from one position of the formwork (1 ) to the other position of the formwork (1).
10. The method for constructing cast-in-place walls according to claim 1 or 5 wherein the movement of at least one binder filling tube (2) further includes the continuous horizontal movement by interval from one side of the formwork (1) to the other side of the formwork (1) in alternation with the continuous vertical movement.
1 1. The method for constructing cast-in-place walls according to claim 1 or 5 wherein the movement of at least one binder filling tube (2) further includes the continuous horizontal movement by interval from one position of the fonnwork (l ) to the other position of the formwork (1) in alternation with the continuous vertical movement.
12. The method for constructing cast-in-place walls according to any one of claims 1 to 1 1 wherein the filling of binder into the gap of the formwork (1) is carried out by positioning an end of the binder filling tube (2) above the slurry surface level at which the binder is to be filled, with at least one binder filling tube (2) being moved vertically or horizontally or with at least one binder filling tube (2) being moved both vertically and horizontally in a relative manner, by interval, each being 30-300 cm.
13. The method for constructing cast-in-place walls according to claim 12 wherein the filling of binder into the gap of the formwork (1) is carried out by positioning the end of the binder filling tube (2) above the slurry surface level at which the binder is to be filled, with at least one binder filling tube (2) being moved vertically or horizontally or with at least one binder filling tube (2) being moved both vertically and horizontally in a relative manner, by interval, each preferably being 30-120 cm.
14. The method for constructing cast-in-place walls according to claim 13 wherein the filling of binder into the gap of the formwork (1) is carried out by positioning the end of the binder filling tube (2) above the slurry surface level at which the binder is to be filled, with at least one binder filling tube (2) being moved vertically or horizontally or with at least one binder filling tube (2) being moved both vertically and horizontally in a relative manner, by interval, each more preferably being 30-50 cm.
15. The method for constructing cast-in-place walls according to any one of claims 1 to 1 1 further comprising arranging the binder filling tubes (2), in the horizontal direction, at 30-2000 cm apart.
16. The method for constructing cast-in-place walls according to claim 15 wherein the arrangement of the binder filling tubes (2), in the horizontal direction, is preferably at 30-1000 cm apart.
17. The method for constructing cast-in-place walls according to claim 16 wherein arrangement of the binder filling tube (2), in the horizontal direction, is more preferably at 30- 200 cm apart.
18. The method for constructing cast-in-place walls comprising the steps of: determining the wall line; forming kickers along the determined wall line; providing at least one of heat protection material or sound protection material or water protection material inside the formwork (1); installing the formwork (1) along the wall line such that there is a gap between the two panels of the formwork (1) or a gap between one panel of the formwork and a rigid body located on the opposite side of said panel; filling the binder into the gap of the formwork (1); leaving said binder to harden and to cure within the formwork (1); and removing the formwork (1), characterized in that: the filling of binder into the gap of the formwork (1) is carried out by filling binder from at least one binder filling tube (2) stationarily provided at at least one side of the formwork (1).
19. The method for constructing cast-in-place walls according to claim 18 wherein the filling of binder into the gap of the formwork (1) is carried out by filling binder from at least one binder filling tube (2) provided at the top of the formwork (1).
20. The method for constructing cast-in-place walls according to claim 18 wherein the filling of binder into the gap of the formwork (1) is carried out by filling binder from at least one binder filling tube (2) provided at one of the lateral sides or both lateral sides of the formwork (1).
21. The method for constructing cast-in-place walls according to claim 18 wherein the filling of binder into the gap of the formwork (1) is carried out by filling binder from at least one binder filling tube (2) provided at the bottom of the formwork (1) .
22. The method for constructing cast-in-place walls according to claim 18 wherein the filling of binder into the gap of the formwork (1) is carried out by filling binder from at least one binder filling tube (2) provided at the front of the formwork (1).
23. The method for constructing cast-in-place walls according to claim 19 wherein the filling of binder into the gap of the formwork (1) is further carried out by filling binder from at least one binder filling tube (2) provided at the front of the formwork (1).
24. The method for constructing cast-in-place walls according to claim 19 wherein the filling of binder into the gap of the formwork (1) is further carried out by filling binder from at least one binder filling tube (2) provided at one of the lateral sides or both lateral sides of the formwork (1)·
25. The method for constructing cast-in-place walls according to claim 20 wherein the filling of binder into the gap of the formwork (1) is further carried out by filling binder from at least one binder filling tube (2) provided at the bottom of the formwork (1).
26. The method for constructing cast-in-place walls according to claim 21 wherein the filling of binder into the gap of the formwork (1) is further carried out by filling binder from at least one binder filling tube (2) provided at the front of the formwork (1).
27. The method for constructing cast-in-place walls according to claim 20 wherein the filling of binder into the gap of the formwork (1 ) is further carried out by filling binder from at least one binder filling tube (2) provided at the front of the formwork (1).
28. The method for constructing cast-in-place walls according to claim 18 wherein the filling of binder into the gap of the formwork (1) is carried out by filling binder from at least one binder filling tube (2) provided at the top of the formwork (1) by inserting the filling tube through the upper floor.
29. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the inner surface of the formwork (1) is smooth.
30. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the inner surface of the formwork (1) is textured.
31. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the formwork (1) has a flat shape.
32. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the formwork (1) has a curve shape.
33. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the formwork (1) has a geometric shape.
34. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the formwork (1) is made from at least one material selected from metal, wood, plastic, cement fiber board, foam board or gypsum board.
35. The method for constructing cast-in-place walls according to claim 1 or 18, wherein the heat protection material includes foam, sand, wood, asphalt, cement fiber board or gypsum board.
36. The method for constructing cast-in-place walls according to claim 1 or 18 wherein the sound protection material includes foam, sand, wood, corrugated paper, asphalt, water protection plastic sheet, cement fiber board or gypsum board.
37. The method for constructing cast-in-place walls according to claim 1 or 18 wherein the water protection material includes foam, wood, fiber, asphalt, water protection plastic sheet, cement fiber board, natural rubber or foil.
38. The method for constructing cast-in-place walls according to any one of claims 35 to 37 wherein at least one of the heat protection material or the sound protection material or the water protection material is provided at any position on the panel of the formwork (1).
39. The method for constructing cast-in-place walls according to claim 38 wherein at least one of the heat protection material or the sound protection material or the water protection material is provided in the middle of the gap between the form work panels or closer to any of the panels of the formwork (1).
40. The method for constructing cast-in-place walls according to claim 1 or 18 further comprising a step of providing a reinforcement material within the formwork (1).
41. The method for constructing cast-in-place walls according to claim 40 wherein the reinforcement material includes at least one of the following: wire mesh, plastic mesh, deformed bars or wooden reinforcement mesh.
42. The method for constructing cast-in-place walls according to claim 1 or 18 further comprising a step of providing the sanitation system, electricity system and cooling system before the step of installing the formwork (1).
43. The method for constructing cast-in-place walls according to claim 1 or 18 further comprising a step of providing the sanitation system, electricity system and cooling system during the step of installing the formwork (1).
44. The method for constructing cast-in-place walls according to claim 1 or 18 wherein the step of forming kicker along the determined wall line is carried out simultaneously with the provision of sanitation system, electricity system and cooling system.
45. The method for constructing cast-in-place walls according to claim 1 or 18 wherein the step of forming kicker along the determined wall line is carried out after the provision of sanitation system, electricity system and cooling system.
46. The method for constructing cast-in-place walls according to claim 1 or 18 wherein the installation of the formwork (1) along the wall line further comprises a step of providing openings for windows, doors and/or skylights.
47. The method for constructing cast-in-place walls according to one of the preceding claims, wherein the binder is a cement-based material or gypsum.
48. The method for constructing cast-in-place walls according to claim 47 wherein the cement-based material includes concrete.
PCT/TH2015/000044 2014-07-16 2015-07-16 A method for constructing cast-in-place walls with binder WO2016010488A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
TH1401004091A TH153651A (en) 2014-07-16 Method for constructing a wall in a construction with cement-based binder
TH1401004091 2014-07-16

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Cited By (1)

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Publication number Priority date Publication date Assignee Title
WO2021107431A1 (en) * 2019-11-26 2021-06-03 한국과학기술원 Self-heating formwork module for accelerated curing of concrete

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JPH0525938A (en) * 1991-07-24 1993-02-02 Maeda Corp Automatic concrete placing method and device
JPH05202615A (en) * 1992-01-27 1993-08-10 Kyokuto Kaihatsu Kogyo Co Ltd Concrete placement device
JPH10196113A (en) * 1997-01-07 1998-07-28 Kajima Corp Concrete-placing control method
KR19980053385A (en) * 1996-12-26 1998-09-25 정순착 Formwork for building wall slabs and construction method thereof
JP2002295018A (en) * 2001-03-30 2002-10-09 Penta Ocean Constr Co Ltd Concrete placing method and device

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Publication number Priority date Publication date Assignee Title
JPH0525938A (en) * 1991-07-24 1993-02-02 Maeda Corp Automatic concrete placing method and device
JPH05202615A (en) * 1992-01-27 1993-08-10 Kyokuto Kaihatsu Kogyo Co Ltd Concrete placement device
KR19980053385A (en) * 1996-12-26 1998-09-25 정순착 Formwork for building wall slabs and construction method thereof
JPH10196113A (en) * 1997-01-07 1998-07-28 Kajima Corp Concrete-placing control method
JP2002295018A (en) * 2001-03-30 2002-10-09 Penta Ocean Constr Co Ltd Concrete placing method and device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2021107431A1 (en) * 2019-11-26 2021-06-03 한국과학기술원 Self-heating formwork module for accelerated curing of concrete

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