KR101142183B1 - The double tee from slab system beams-slab the structural body which strengthens a junction bringing up for discussion all characteristic and the spatial-temporal method - Google Patents

Abstract

The present invention relates to a structure for strengthening the integrity of the PC beam and the double tee slab joint in the double tee slab system and a construction method thereof. In other words, after the double tee slab is seated and assembled on the upper surface of the PC beam, sufficient field concrete is poured into the joint section so that the structure of the PC beam and the double tee slab is sufficiently integrated. This aim is to improve the conventional case where both ends of the double tee slab are sharply lowered compared to the flexural stiffness of the double tee slab and to prevent cracking at the joint boundary between the PC beam and the double tee after hardening of the topping concrete placed on the joint and the double tee. It is effective in preventing and reducing the dance of double tee slabs. In addition, it is possible to improve the structural performance by increasing the cross-sectional rigidity of the PC beam due to sufficient concrete pouring at the joint. This is a rib 123 and a cover means having a PC beam 110 installed on the upper surface of the pillar 150 and a seating surface 122 whose tip is cut so that the double tee slab is seated on the upper surface of the PC beam 110. It is comprised by 130. In addition, the object is achieved, including the site-pouring topping concrete 140 for integrating the upper portion of the double T slab 120 and the PC beam 110.

Precast, Double Tee Slab, PC Beam, Topping Concrete

Description

The double tee from slab system beams-slab the structural body which strengthens a junction bringing up for discussion all characteristic and the spatial-temporal method}

The present invention relates to a structure for reinforcing the integrity of the PC beam and the slab joints in the floor structure double tee slab system, and a construction method thereof, and to improve the structural performance such as bending stiffness and shear stiffness of the double tee slab panel bonded to the beam The present invention relates to a structure for strengthening the integrity of a beam-slab joint in a double tee slab system in which structural breakage and cracking do not occur at the joint boundary, and a construction method thereof.

In general, the method of constructing the concrete floor slab in the construction site is to install the formwork and cast concrete directly on the site, and the concrete unit member is manufactured in the factory to a certain standard in advance, and the site is subsequently assembled to form the structure. The prefabricated method (hereinafter referred to as a precast concrete method) can be largely divided.

Among the above methods, on-site casting method requires a lot of manpower, materials, and construction period due to the production dismantling of the formwork and concrete pouring, so that the standardization of members is adopted by adopting the PC method that does not require the formwork and concrete pouring work. The trend is toward streamlining processes, streamlining processes and labor productivity.

As concrete slab panels used in the PC method as described above, various types are currently being developed and used. Currently, the floor system mainly used in Korea is a double t slab (DTS) and a hollow core slab ( Such as HCS (hollow core slab) and half PC slab.

Among the above, the double tee slab panel has an advantage of excellent rigidity and easy construction compared to its own weight, and thus there is a trend to construct a floor system using it.

1 is a view illustrating a double tee slab system using a conventional general double tee slab panel.

As shown, the double tee slab system 10 using a conventional general double tee slab panel has a protruded iron having an upper end step 11a so as to be seated on the upper surface between the pillar (not shown) and the pillar. (Iii) a PC beam 11 having a cross-sectional shape, a double tee slab panel 12 having both ends mounted on the stepped surface 11a formed on an upper surface of the PC beam 11, and the PC beam 11 And a topping concrete 13 that is cast to a predetermined thickness on the upper surface of the double tee slab panel 12 so as to integrally connect the double tee slab panel 12 with each other.

Here, the double tee slab panel 12 is projected downward in the longitudinal direction on the bottom plate 12a and the front surface of the bottom plate 12a having a predetermined size as shown in FIG. It is formed of a pair of reinforcing ribs 12b formed.

Here, both ends of the pair of reinforcing ribs 12b are provided with cutout surfaces 12c cut out to be seated on the stepped surfaces 11a of the PC beams 11.

In order to have a double tee slab system using a conventional double tee slab panel made as described above, first, after installing a plurality of double tee slab panels having a cutting surface on the stepped surface formed on the side of the PC beam, Completed by pouring topping concrete to a predetermined thickness on top of the double tee slab panel.

However, the double tee slab system using the conventional general double tee slab panel made as described above, the topping concrete cast on top of the double tee slab panel as shown in Figure 1 so as to connect both sides of the double tee slab panel. Since it is placed only on the upper surface rather than being poured, both ends of the reinforcing rib of the double tee slab panel are deteriorated with respect to the bending stiffness of the center over time, and thus stress is concentrated on the cutting surface where both ends of the reinforcing rib of the double tee slab panel are cut. There was a problem that the topping concrete is cracked after curing.

In view of this, as shown in Korean Patent Application No. 10-2007-021419, a double tee type slab is shown to be able to strengthen the integrity of the beam-slab joint. However, when the double tee-type slab is integrally manufactured with support parts formed on both sides, there is a problem that the manufacturing process is very complicated and expensive. The present invention has been devised as a proposal for solving the problem more easily.

Accordingly, the present invention has been made to solve the above-mentioned problems, and after the double tee slab is installed on the PC beam of the rectangular cross section, the cover means is installed inside the end joint of the PC beam and the double tee slab. This makes it possible to pour the seating surface of the double tee slab panel. Accordingly, the purpose of the present invention is to provide a structure and a construction method thereof that not only prevent cracks from being transmitted smoothly but also strengthen the integrity of the beam-slab joint in a double tee slab system.

 The present invention for achieving the above object in the double-tee slab system of the beam (PC beam) -slab junction, both ends are respectively seated on the upper surface of each of the pillars 150 placed in the square and the rebar is reinforced on the upper surface PC beam 110 having a cross section of the shape; The double tee slab 120 is provided with a pair of ribs 123 each having a recessed mounting surface 122 formed on the front and rear surfaces thereof so as to be seated on the upper surface of the PC beam 110. ; On-site pour topping concrete which is installed between the ribs 122 of the double tee slab 120, and is placed between the reinforcing ribs 123 so that the upper part of the double tee slab 120 and the PC beam 110 can be integrated. It characterized in that it comprises a cover means 130 provided respectively to prevent the 140 to leak.

Here, the cover means 130, the fixing groove 131 is formed on both ends of the lower surface of the upper plate 121 of the double tee slab 120 and both ends of the rib 123, the fixing groove 131 Cover panel provided to block the front and rear end between the fixing piece 132 protruding the fixing projection 132a to be inserted and a pair of ribs 123 protruding downward from the bottom of the double tee slab 120 ( 133).

As described above, according to the structure and the construction method for reinforcing the integrity of the beam-slab joint in the double tee slab system according to the present invention, the following effects are expected. In other words, the cover means is used to fill the concrete beams of the PC beam and the double T slab with sufficient concrete, so that the cross-section bending rigidity and shear stiffness of the PC beam are increased, which is advantageous for sag.

In addition, it ensures sufficient cross-sectional integrity under end continuous conditions of double tee slabs to prevent cracking even after elapsed after in situ topping concrete. In the related art, only the topping concrete part is integrated, and many cracks are generated, which has many problems.

Furthermore, according to the structure and the construction method for strengthening the integrity of the beam-slab joint in the double tee slab system according to the present invention, the effect of reducing the cross-section of the PC beam and the dance of the double tee slab to reduce the cost There is.

Hereinafter, an embodiment of a structure and a construction method for enhancing the integrity of the beam-slab joint in the double tee slab system according to the present invention will be described in detail.

First of all, it should be noted that in the drawings, the same components or parts represent the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

2 is a view showing a structure for reinforcing the integrity of the beam-slab joints in the double tee slab system according to the present invention, Figure 3 is a unity of the beam-slab joint in the double tee slab system of the present invention Figure 4 is an exploded perspective view showing a double tee slab of the structure to reinforce the structure, Figure 4 is a perspective view showing a double tee slab of the structure to enhance the integrity of the beam-slab joint in the double tee slab system in the present invention.

First, the PC beam 110 of the structure 100 to strengthen the integrity of the beam-slab joints in the double tee slab system according to the present invention, is installed on the upper surface of the pillar 150, as shown in FIG. . The double tee slab 120 is projected in the form of a top plate 121 and a reinforcing rib 123 standardized to a predetermined size as shown in Figures 2 and 3, both ends of the PC beam 110. It is seated on the upper surface of). When the topping concrete 140 is poured, a portion of the reinforcing rib 123 that is not cut together with the upper plate 121 of the double tee slab 120 may be cast together as shown in FIG. 2. Not only does not reduce the strength in the 122, it is possible to prevent the occurrence of cracks on the upper surface of the topping concrete 140.

At this time, the cover means 130 are respectively provided to prevent leakage of the site-pouring topping concrete 140 between the reinforcing ribs 123 of the double tee slab 120.

The cover means 130 is fixed between both ends of the reinforcing rib 123 of the double tee slab 120 to prevent leakage between the reinforcing ribs 123 when the topping concrete 140 is poured. It may be fixed at the time of manufacturing the slab 120 or fixed installation in the field.

That is, the cover means 130, a pair of fixing grooves 131 spaced a predetermined distance from both ends of the lower surface of the upper plate 121 of the double tee slab 120 and both ends of the reinforcing rib 123. And a plurality of fixing pieces 132 and a fixing protrusion 132a protrudingly formed at one end thereof are inserted into and fixed to the fixing groove 131, and fixed to fit in the fixing groove 131. It consists of a cover panel 133 provided to be fixed by penetrating the fixing projections (132a) of the fixing piece (132).

Here, the fixing groove 131 is formed in the insert form at the factory when manufacturing the double tee slab 120.

And the fixing piece 132, as shown in Figure 3, one end is fixed to the fixing groove 131 formed on both ends of the lower surface of the upper plate 121 and both ends of the reinforcing rib 123, the cover panel A fixing protrusion 132c having a circular cross section is formed on one surface of the rectangular support plate 132b so as to support the 133, and a fixing protrusion 132a of a circular cross section is formed on the front surface thereof. One cover panel 133 is formed in a rectangular plate shape, a plurality of fixing holes (133a) are formed to pass through the fixing projections (132a) of the circular cross-section in the upper and both front end portions.

On the other hand, the cover means 130 is composed of a groove 132a and a cover panel 133 to be fixed to the fixing piece 132.

In addition, the cover means of the present invention is not limited thereto, and as shown in FIG. 4, the cover means 1300 is provided between a pair of reinforcing ribs 123 protruding from the lower surface of the double tee slab 120. It is provided to be inserted, but may be composed of the upper support member 1320 and the lower support member 1330 of the "C" shape to fix the cover panel (not shown).

In addition, the construction method and procedure for reinforcing the integrity of the beam-slab joint in the double tee slab system according to the present invention with reference to the accompanying drawings 6 as follows.

As shown in Figure 6 (a) in the factory is produced by purchasing the insert to fasten the fixing piece 132 on the upper both sides of the reinforcement ribs of the double tee slab and the bottom surface of the double tee slab plate (S200). At this time, the insert may be a screw type or a threaded type.

Thereafter, the fixing piece 132 is inserted into the fixing groove 131 at the factory or in the field before the double tee slab assembly as shown in FIG. 6 (b) (S210).

Thereafter, the cover panel 133 is fastened as shown in FIG. 6C (S220). The cover panel 133 may also be fastened by screwing or inserting and fixing both. In this way, the cover panel 133 may be assembled by lifting the cover panel 133 in the ground, but the cover panel may be fastened by pushing the cover panel in a state where the double tee slab is assembled on the beam.

Subsequently, the double tee slab to which the cover panel 133 is fastened on the ground as shown in FIG.

Thereafter, the topping concrete 140 is poured as shown in FIG. 6E to integrate the pillar, beam, and double tee slab (S240).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

1 is a view showing a structure for enhancing the integrity of the beam-slab joint in a conventional double tee slab system

2 shows a structure for enhancing the integrity of a beam-slab joint in a double tee slab system according to the present invention.

Figure 3 is an exploded perspective view showing the double tee slab and the cover means of the structure to enhance the integrity of the beam-slab joint in the double tee slab system according to the present invention;

4 is a view showing a state in which the cover means is fixed to the double tee slab of the structure to enhance the integrity of the beam-slab joint in the double tee slab system according to the present invention;

5 is a flowchart illustrating a method of constructing a structure for reinforcing the integrity of a beam-slab joint in a double tee slab system according to another embodiment of the present invention.

6 is a view showing a construction step of a structure for strengthening the integrity of the beam-slab joint in the double tee slab system by the construction method of FIG.

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

100; Beam-slab joint structure 110; PC report

120; Double tee slab 130,1300; Cover means

140; Topping concrete 150; Pillar

Claims (5)

In the joint of a beam (PC beam) -slab in a double tee slab system, Both ends are respectively seated on the upper surface of each of the pillars 150 and the PC beam 110 having a rectangular cross-section that is reinforced bar on the upper surface; The double tee slab 120 is provided with a pair of reinforcing ribs 123 each having a recessed mounting surface 122 formed on the front and rear surfaces thereof so as to be seated on the upper surface of the PC beam 110. )Wow; Sites are installed in front and rear between the reinforcing ribs 123 of the double tee slab 120 and the upper part of the double tee slab 120 and the PC beam 110 can be integrally placed between the reinforcing ribs 123. Cover means 130, respectively provided to prevent the pouring topping concrete 140 to leak; A structure for enhancing the integrity of the beam-slab joint in a double tee slab system, characterized in that it comprises a. The method of claim 1, The cover means 130, the fixing groove 131 is formed on both sides of the lower surface of the upper plate 121 of the double tee slab 120 and both ends of the reinforcing rib 123, the fixing groove 131 Cover provided to block the front and rear ends between the fixing piece 132 protruding the fixing projection 132a to be inserted and a pair of reinforcing ribs 123 protruding downward from the bottom of the double tee slab 120. Structure to reinforce the integrity of the beam-slab joint in a double tee slab system, characterized in that consisting of a panel (133). The method according to claim 1 or 2, The fixing piece 132 of the cover means 130, one end is inserted into the fixing groove 131 formed on both ends of the lower surface of the upper plate 121 and both ends of the reinforcing rib 123, the cover panel 133 Fixing protrusions 132c having a circular cross section on one surface of the rectangular support plate 132b protrude so as to support the pair, and the fixing protrusions 132a of the circular cross section protrude and are formed on the front surface of the cover panel. 133 is formed in the shape of a square plate, a double tee slab characterized in that a plurality of fixing holes 133a are formed to pass through the fixing projections (132a) of the circular cross-section in the upper and both front end portions, respectively; Structures that enhance the integrity of the beam-slab joints in the system. The method of claim 1, The cover means, the "c" to secure the cover panel provided to block the front and rear ends of the pair of reinforcing ribs 123 protruding downward on the bottom surface of the top plate 121 of the double tee slab 120. A structure for reinforcing the integrity of the beam-slab joint in a double tee slab system, characterized in that the upper support member (1320) and the lower support member (1330) of the shape. In the construction method of the structure for strengthening the integrity of the beam-slab joint in the double tee slab system, Manufacturing a double tee slab 120 such that a plurality of pairs of fixing grooves 131 are formed on both surfaces of the lower surface of the upper plate 121 and the reinforcing ribs 123 (S200); Fixing the fixing pieces 132 of the cover means 130 to the fixing grooves 131 of the double tee slab 120 manufactured by the step S200; Fixing the cover panel 133 by fitting the fixing piece 132 to the lower surface of the double tee slab 120 by the step S210; When the cover panel 133 is fixed by the step (S220), both ends of the double tee slab 120 is seated in the longitudinal direction of the PC beam 110 to the PC beam 110 installed on the pillar 150 to be fixed. Step S230; When the plurality of double tee slab 120 is seated in the longitudinal direction of the PC beam 110 by the step (S230), the upper surface of the PC beam 110 and a part of the reinforcing rib 123 of the double tee slab 120. Including the topping concrete (140) pouring step (S240) for integrating by pouring; A method of constructing a structure for enhancing the integrity of the beam-slab joint in a double tee slab system, characterized in that made.

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