TH49600A - A set of prefabricated reinforced concrete formwork used as a permanent replacement for wood in construction. - Google Patents

Abstract

DC60 (05/10/44) A set of prefabricated reinforced concrete formwork used as a permanent replacement for wood. In this construction is a new invention that brings solid concrete. To be a component of the whole house This increases the service life and also separates them into smaller parts for light weight. Quick and easy assembly Can be assembled by local labor, thus saving construction costs. Prefabricated reinforced concrete formwork sets used as a permanent replacement for wooden ones In this construction is a new invention that brings solid concrete. To be a component of the whole house This increases the service life and also separates them into smaller parts for light weight. Quick and easy assembly Can be assembled by local labor, thus saving construction costs.

Claims (1)

1. Set of prefabricated reinforced concrete formwork used as a permanent replacement for wood in the construction. Constructed according to this invention, it consists of prefabricated foundation shells (1) prefabricated stanchions (2) prefabricated beam enclosures (3) prefabricated column enclosures (4) modular prefabricated walls (small pieces) (5) and prefabricated beams (6). The unique characteristics are - The precast foundation shell (1) is a rectangular reinforced concrete slab that has a smooth surface. And has a high water density The inside was rough and there was a steel protruding at the corners. To help Stick together in a square box Use the cover on the needle that has already been hammered. Used to be assembled with steel bases and prefabricated buns (2) - Prefabricated Bunting (2) looks like a solid cast square bar. Have the required height and shoulder for finished beams There are two protrusions on both sides with the shoulder protruding to grasp. With steel poles below The protruding iron is bent. To attach to the foundation steel Installed with Prefabricated steel foundations When pouring concrete foundations ready. And covered the soil The upper part with the shoulders Use the finished beam shell for further assembly. The prefabricated beam shell (3) is used in combination with the prefabricated pier (2) - prefabricated beam shell (3) is characterized by a reinforced concrete beam shell with steel beams protruding at both ends, smooth outer surface. Can decorate the pattern, rough inside and this inside has Steel sheath protruding In order to keep the concrete that is poured in afterwards to adhere well There are holes at the end of the beam on both sides to facilitate assembly. A flat beam shell, called a prefabricated beam shell (3.1), is characterized by a flat sheet. No overhangs, angled beams Protruding at right angles is called the orthogonal beam shell (3.2). It is characterized by a flat sheet on two sides, sandwiched at right angles. And the beam shell with a U-shaped cross-section is called a prefabricated U-shaped beam shell (3.3), also known as a hemp-shaped beam shell. It is characterized by a U-shaped beam shell. This U-groove is useful for reinforcing special steel to form concrete inserts. To strengthen This U-shaped prefabricated beam Will be good as a beam Do not have a beam. Flat prefabricated beam shell (3.1) and prefabricated beam shell (3.2) used to interlace prefabricated wall (5.1) as a beam for the floor and second-floor wall well. Once the shell can be placed in the desired position and checked for accuracy, secure it permanently. Therefore put the reinforcement in the correct form Structural engineering Install prefabricated pillar shells, angle, beams and prefabricated column base shells, check the joints well, then pour concrete inserts. In order to hold the beam and the stanchion to be homogeneous, then install the outer prefabricated shell at a right angle. And finished pole shell The outer is flat in the middle. - Prefabricated column shell (4) is characterized by a reinforced concrete pillar shell, rough inner surface and a steel sheath protruding through this rough surface. The outer surface is smooth or decorated with patterns, divided into prefabricated outer pillar shell at right angles (4.1) central prefabricated pillar shell (4.2) inner prefabricated pillar shell (4.3) prefabricated pillar base shell, right angle (4.4) central prefabricated base shell ( 4.5) Precast reinforced concrete column shell This is used in conjunction with the beam. Prefabricated reinforced concrete (3) when the precast shell (4) has been installed around the building Therefore take the finished wall, small pieces, separate Set around the building before laying the prefabricated floor that can be purchased in the market. - Modular prefabricated walls (5) are characterized by smooth reinforced concrete walls on both sides and have high water solid values. Used to assemble with finished columnar shell (4). Each wall is used to stack several panels to reach the total wall height. Each plate has a male wedge head on top and a female wedge at the bottom. When they are stacked together, they will become a waterproof barrier from entering the interior. Two holes are drilled near the sides of each wall to facilitate installation. And is used to install scaffolding for work storage, which will collect work from top to bottom When the upper scaffold legs are removed first, this scaffold hole will be sealed and finished. This small modular wall Allows for easy installation without the need Heavy tools help Because each wall is small, 0.40 meters wide, 1.50 meters to 4.00 meters long and only 7 cm-12 cm thick, this precast reinforced concrete wall. It consists of precast concrete wall, lower part (5.1), precast concrete wall for lower window jamb (5.2), precast concrete wall for window jamb (5.3) precast concrete wall part. That is attached to the top window frame (5.4) and the wall that is attached to the next floor will be a wall like a wall. The lower part of precast concrete (5.1) and all solid walls without windows will Similar to the lower precast concrete wall (5.1), it can be stacked on top of each other when installing the entire bottom layer of the outer wall and then the floor is finished. Bind the steel and pour concrete on the face. According to the structural engineering drawings By the bottom round of all of these Acts as a barrier when pouring Concrete top with floor And continue to set the wall from the bottom of the wall until the desired height is reached Therefore install the beam to support the floor, the second floor, put the steel reinforcement beam Pour concrete, insert gaps, beams neatly Then install the lower 2nd floor wall. Follow the method of assembling all the 1st floor walls until the roof structure beam between the second floor beam and the 1st floor beam must insert the alley beam to receive the wall and the alley beam to receive the finished staircase. - The prefabricated stair treads (6) are characterized by being reinforced concrete slabs. The steel is split into small plates, separated for light weight. And easy to install Which will be separated into prefabricated stair treads, outer perimeter (6.1) prefabricated stair treads, split center (6.2) prefabricated stair treads, separate inner sections (6.3) prefabricated stair treads split into reinforced concrete floors The iron that is part of the bow iron is. And this steel extends at both ends to be well attached to the ladder beam. The surface of the stomach is smooth on the top and rough. And there is a steel reinforced steel casing that will be attached to the belly reinforcement. And steel steps that will be added later according to the specified structural engineering drawings before pouring additional concrete The thickness of this finished stair tread is only 5 cm thick. An additional 7 cm must be poured. If desired, the thickness of the stairs is 12 cm. Along with reducing and allowance for the thickness of the material Finish the surface first