KR101184362B1 - T-typed Precast Concrete Slab and Contstruction Method Thereof - Google Patents

Abstract

The present invention, the nib panel portion 150 formed on the deep end 155 and protruding from the tee-shaped PC slab both ends of the representative view of Fig. A tee-type PC slab comprising a shear key 170 formed thereon; An abdomen (200) extending downward on the bottom of the flange panel portion (100) formed thinner than the nib panel portion (150) within a predetermined distance into the tee-type PC slab end portion of the same representation of Figure 1; And a shear key 170 'protruding to the same depth and shape as the shear key 170 on both sides of the panel portion.
According to the concrete structural design standard, the height difference with the tee type slab installed adjacent to the tee type PC slab side in the erection process of the slab should be installed within the allowable range. In this invention, it is possible to easily satisfy the allowable range only by topping concrete placement without additional reinforcement, and secures the aesthetics at the bottom of the slab and secures the same transverse direction as the reinforced concrete by completing the side continuity between slabs even after completion. .
Conventional tee PC slab can be said that the end is simply supported. The load loss and sag increase due to the simple support is enormous, which greatly reduces the competitiveness of the tee PC slab. Tee PC slab PC is a structural material that is commonly used as a heavy load, long span slab material. By installing a concrete shear key on the side of the tee PC slab, the construction air and cost can be significantly reduced, and the resulting structure can exhibit a much improved load carrying capacity than the existing tee PC slab. The more efficient way to make the tee PC slab used for high load and long span is the continuity at the end and the continuity between the adjacent tee PC slab. Single tee continuous with concrete side shear key has 50% more load bearing capacity than single tee based on vehicle live load. The proposed tee PC slab has much higher load bearing capacity than the four tee PC slabs of the same cross section because of the four sides of the quadrilateral support slab (contiguous end and lateral side). Durable tee type PC slab construction with drastically improved droop is possible.

Description

T-typed Precast Concrete Slab and Contstruction Method Thereof}

The present invention relates to a tee (T-type) precast concrete slab, and more specifically, when installing the PC slab can be installed so as to smooth the height with other PC slabs installed adjacent to only the shear key installed at the end of the longitudinal direction of both sides of the slab. T-type PC slab and slab that can be integrated with adjacent slab by the combination of shear key and shear key to be effective for continuity between slabs after construction. It is about a construction method.

In general, T-type PC slabs (double tee) and hollow slabs are the most widely used products for construction. In particular, T-type PC slab is precast concrete, which is produced in advance in the factory, which has the advantages of quality control, fire resistance durability, and shortening of air.

However, this conventional T-type PC slab (T-type PC slab) is difficult to uniformly match the height of the slab that is installed adjacent to the construction, and since the joint of the slab and the slab does not have a unity, There is a problem in that the bearing capacity is broken, causing cracking and sagging of adjacent slabs.

In addition, looking at the prior art in this field, the slab structure using a precast concrete slab panel capable of supporting the lateral force of Patent No. 0639153 (prior art 1), by successively installing a precast concrete slab panel capable of supporting a plurality of lateral forces Load-bearing precast slab panel layer; And

The non-bearing upper concrete layer formed by pouring topping concrete on top of the precast slab panel layer is configured to include,

The precast concrete slab panel capable of supporting the lateral force is a precast concrete slab panel including a bottom plate manufactured in the form of a panel having a predetermined size and a plurality of reinforcing ribs formed in one direction on the bottom surface of the bottom plate. ,

Lower protrusion jaw horizontally projected to a predetermined size is provided at both lower portions of the bottom plate so that a space portion upwardly open can be formed at a portion meeting the adjacent panel after installation.

The non-bearing upper concrete layer is constructed by placing concrete together in an upwardly open space of the precast concrete slab panel capable of supporting the lateral force (see FIG. 9).

The tee PC slab of the prior art 1 is installed so that both ends of the end of the "D" type of the end of the adapter formed a step D is formed across the beam. That is, in the prior art 1 so that the dip end is spread over both beams, the beam should also be formed with a jaw of "ㅗ" type on both sides as shown in Figure 9, in the inner edge of the deep end portion by the vertical load when used after construction There is a problem of cracking and at the center of the slab span due to the difference in the tension of the camber difference between the camber difference and the T-type PC slab itself at the center and the point of the prestressed concrete beam, which are the pillars of the tee PC slab at both ends. There is a problem that the height difference occurs remarkably frequently.

In another prior art Patent Publication No. 0340115 of the T-type PC slab end portion and a method of constructing a structure using the same, the thickness of both ends supported by the PC beam (9) as a rectangular plate is more than the thickness of the middle portion of the beam A flange 6 thickly formed; And a web (7) formed at right angles to the lower surface of the flange (6), the length of which is shorter than the length of the flange (6) and is formed at a predetermined length inwardly from both ends of the flange (6); As the prior art 2 forms both ends of the slab larger than the flange thickness of the existing both ends, the overall cross section can support the shear force due to the external load, but the shear keys are not formed in the length direction of both sides. There is a problem that the work for the uniform installation of the adjacent slab and the installation is difficult and the connection between the slab and the slab is weak (see Fig. 10).

In addition, the prior art 3 is a flange of the T-type PC slab of Patent No. 0423126 is formed flat and long in a rectangular cross-section and the thickness of both ends is thicker than the thickness of the middle portion; In the T-type PC slab consisting of a web formed at least one or more long in the longitudinal direction from the lower surface of the flange and the end is provided across the PC beam and the adapter is provided to accommodate the installation duct,

T-type PC slab is known that the flange (11b, 11c) is flat on the lower surface and both ends of the upper surface is formed higher than the middle portion. The prior art 4 is formed on both ends of the slab and the cross section of the adapter portion is formed thicker than the slab section, the space portion for the duct can be installed in the adapter portion, but the thickness of the central portion of the upper surface of the slab at the construction is thinner than both ends Since it is buried by the topping concrete placed in the recess, not only does not have the effect of pursuing the same slab as a general slab, but also there is a problem that continuity and integration are not achieved because there is no shear key (see FIG. 11).

In addition, the prior art 4 is a hollow tee slab of Patent No. 0930516 has a plurality of hollow portion 110 formed along the longitudinal direction of the core portion 100; By presenting a hollow slab including a lower abdomen (120) extending downward on the bottom of the main body 100, even when the slab is long span or high load, efficient design is possible due to the increase in flexural strength and flexural rigidity, economical Not only that, but also to obtain an advantageous structure in terms of manufacturing, transportation and other workability. Prior art 3 has the effect of reducing the weight by forming a number of hollows in the slab, but also difficult to maintain a uniform level of the slab adjacent to the slab during construction, and because there is no shear key at both ends cracks and imbalances after installation There is a problem that may occur (see Figure 12).

Therefore, the prior art 1 having the shear key flows down the topping concrete from the end to the leg so that there is no continuity at the end and the end is just installed in a simple supporting state. In this case, when excessive load is applied, cracking occurs at the upper end of the topping concrete due to the rotation of the end, and excessive end rotation does not cause the deflection and crack suppression effect, which is the main effect in the present invention, and the effect of increasing the load support. There is a small problem.

In addition, if there is no shear key on the side of the tee-type PC slab concrete as in the prior arts 2 to 4, it is possible to correct problems such as failure to integrate with adjacent slabs, failure to prevent cracking, and imbalance between the slab and the slab after installation. There is nothing that can be done so far. This poor construction has caused cracks due to continuity defects, which is one of the biggest problems of precast concrete construction.

In other words, the slab side continuity is an important factor in the construction of tee type PC slab, so in the field, it was solved by embedding the side angle on the flange side every 2.0m, welding it and placing the topping concrete. If 2 inches out of workability is also poor and there is a problem that can not satisfy the continuity.

In addition, WT of the prior art 2, the end is continuous, can reduce the external moment and deflection in the center of the slab span, and because the duct is included in the abdomen of the tee-type PC slab, it is possible to reduce the construction cost due to the height reduction effect, but the prior art 1 and Similarly, there is no way to improve the slab height difference in the center of the side slab span.

In some sites, in order to ignore the difference between the height of the slab and the slab, in order to maintain continuity, the D16 rebars are installed at 20cm intervals, arranged at right angles to the side joints on the PC, and the topping concrete is poured to increase the integrity between the slabs. It is extremely inefficient to solve the shear force between slabs by the action, and the effect is doubted, and the cost increase due to reinforcement is also great.

That is, the inability to improve the height difference beyond the allowable range in the slab installation means that the construction of good quality cannot be guaranteed; Ultimately, continuity cannot be guaranteed, but it is an important factor in determining the success or failure of PC construction, but in order to achieve this effectively, proper sequencing should be accompanied, and proper cross-section arrangement and reinforcement should be accompanied for continuity and lateral continuity. .

The present invention is to solve the above problems, and comprises a shear key shape to enable the lateral continuity of the tee-type PC slab, double tee (hereinafter referred to as "tee-type PC slab") continuously installed on both sides of the slab and the slab, The shear key prevents the inherent deterioration of the tee type PC slab; Efficient in production, demoulding, transportation, installation, and placing process, while minimizing the weight of T-type PC slab itself and pursuing economic feasibility. By installing the steel cheolgolbo made uniformly to the height of the adjacent double tee and then curing the reinforcing bars and mortar to the joint of the shear key to improve the cracks and sagging after the construction, and to ensure that the constructed slab structure is smooth and integral The present invention relates to a tee type precast concrete slab and a slab construction method.

Tee-type PC slab (tee-type PC slab) according to the present invention for achieving the above object is a nib panel portion formed with a protruding end 155 made of a space portion so that the duct can be installed at the bottom of both ends and protruded to one side thereon ( 150);

 A plurality of reinforcing bars (110) protruding from the nib ends (180) of the nib panel portion for continuation of the tee PC slab (1);

A shear key 170 formed to have a plurality of grooves in both longitudinal directions of the nib panel portion;

Grooves (100 ') formed on a bottom surface of the center portion of the lower end portion so as to have a thinner thickness of the central flange panel portion (100) between both ends of the abdomen (200) than the thickness of the nib panel portion (150) from the end of the knee to the deep end;

The abdomen 200 of the repair formed extending downwards is formed thinner toward the lower end than the thickness formed on the bottom surface of the flange panel, and a plurality of female thread inserts 130 are formed on the upper flange panel 100 corresponding to both sides of the abdomen. It is characterized in that the tee type PC slab 1 is provided.

The nib panel portion 150 is formed to be thicker than the thickness of the flange panel portion 100 so as to support the excessive shear force of the tee-type PC slab end, and the shear key 170 does not protrude downward from both sides of the nib panel portion 150. It is characterized in that formed in both longitudinal directions with the same thickness as the thickness of the knee panel portion.

The shear key 170 is formed at the same height from one end to both ends, but the thickness of the center portion of the flange panel portion 100 corresponding to the abdominal length, which is the center portion of the slab span, is smaller than the thickness of the nib panel portion 150. The central cross-sectional shape is characterized in that the shear key 170 has a shape protruding downward from both side flange ends, but the thickness of both sides of the center portion of the slab span is the same thickness as the shear key 170.

 In addition, the plurality of abdominal parts 200 are spaced at the bottom of the nib panel portion of the flange panel portion 100 by being spaced apart at predetermined intervals from the ends of the knee portions of both side nib panel portions of the flange panel portion 100. The deep end is formed, characterized in that the duct 350 is installed in the lower region.

In addition, by installing the female thread insert 130 in the upper center of the abdomen installed at a certain distance from the center or the end of the slab span, it is possible to maintain the upper surface smoothness of the connected slab by fixing a plurality of adjacent slabs with steel beams.

On the other hand, the slab construction method according to the invention, the step of installing a PC beam 300 for supporting the slab; Continuously installing the slab of the tee-type PC slab on the PC beam (300) by using the end of the knee portion of the nib panel portion (150); If the height difference in the center of the slab span among the tee PC slabs installed above is out of the allowable range, install the steel beam at the center of the span on 2-3 adjacent tee PC slabs including the tee PC slab, and the tee PC slab center leg from the steel beam Adjusting the tee-type PC slab height by fastening the bolts to the female thread inserts 130 and 130 'installed on the upper surface, and gently adjusting the height by gently lifting the crane if necessary; Partially adjusting a portion of the shear key 170 after the predetermined adjustment to the tee-type PC slab; After the inserted concrete hardens to reach a certain strength, the steel beam is removed from the tee PC slab, and the upper parent cement reinforcing rod 120 is installed in the slab length direction on the end nib panel portion 150 of the continuously installed tee PC slab. The method may include: placing topping concrete (400) between the continuously installed tee-type PC slab and the side shear key (170, 170 ') region of the whole area; And curing the poured concrete 400.

When the PC slab is installed, the present invention can be installed to smooth the height of other PC slabs that are adjacently installed by using only shear keys installed at both ends of the slab in the longitudinal direction of the slab, and integrated with the adjacent slab by combining the shear key and the shear key. After construction, it is an effective method for sequencing between the slabs, thereby significantly reducing cracks and sags, and providing tee type precast concrete slabs and slab construction methods that can effectively improve the construction cost of tee PC slabs.

The first effect of the present invention is to propose a small weight, high efficiency slab continuous quadrilateral. For this purpose, since the continuity for bending is required at the end, two types of reinforcing bars (110, 120) are used to realize the end of the steel first, and the sequential side of the slab requires continuity for shearing, so it is faithful to the fundamental theory. The main concept is to use concrete shear keys.

For continuity of bending and shearing, maximizing the shear key shape, and for convenience of construction, the height of the nib end determined by the shear strength at the point of supporting force is the same as the side shear key height. When viewed from the bottom of the slab span, the shear key protrudes, but since the end heights in both longitudinal directions are the same, there is no fear of damage in transportation or storage, and there is no problem in production, construction, and expression of the target function.

In addition, for the convenience of construction, an efficient alternative to improve the height difference caused by the camber difference due to the tension force is used by using the steel beam and the crane in use.The insert is installed on the surface of the tee type PC slab for construction. It was.

In order to minimize the weight of the tee PC slab, the length of the legs was cut and the unnecessary flange depth was removed from the center of the slab span to pursue the minimum weight tee PC slab.

According to the present invention, it is possible to easily adjust the horizontal level with other slabs adjacently installed in the construction process of the slab, it is possible to prevent the occurrence of cracks at the joint between the slab even after construction, the constructed slab structure is reinforced It is possible to behave as a quadrilateral support like a concrete structure. In addition, according to the present invention, by installing the duct in the lower region of the end portion of the panel in the construction of the slab it is possible to significantly lower the height of the building.

1 is a perspective view showing the structure of a tee-type PC slab according to the present invention.
Figure 2a is a view showing an AA cross section of the tee PC slab according to the invention in Figure 1,
FIG. 2B is a cross-sectional view taken along line BB of FIG.
Figure 3 is a cross-sectional view showing the construction state of the tee-type PC slab according to the present invention.
Figure 4 is a cross-sectional view showing a coupling structure through the shear key with the adjacent slab of the tee-type PC slab according to the present invention.
Figure 5 is a bottom perspective view showing the bottom configuration of the tee-type PC slab according to the present invention.
6 is a bottom perspective view showing a state in which the bottom deep nib of the nib panel portion is formed small as another embodiment of the present invention.
Figure 7 is an illustration of the race condition of the steel beam and tee PC slab of the present invention
Figure 8 is a perspective view showing a state in which the shear key is installed on both sides showing a conventional tee-type PC slab.
9 to 11 is a conventional tee type PC slab, a perspective view showing a state without a shear key.
12 is an exemplary view showing a hollow tee type slab as a conventional tee type PC slab.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a perspective view showing the structure of a tee-type PC slab according to the present invention, referring to Figure 1, T-type PC slab described in the present invention is a tee-type PC slab collectively tee-type PC slab, single tee, tee-type lead slab It is called. Accordingly, the tee PC slab includes a flange panel portion 100, a nib panel portion 150, an abdomen 200, and a shear key 170.

In the following description, both front end keys and both side end key symbols corresponding to the lengths of the groove portions 100 'formed on the bottom surface of the center portion of the flange panel portion 100 are 170', and both sides of the flange panel portion both side nib panel portions However, the shear key portion 170 will be described.

The nib panel portion 150 constituting both ends of the flange panel portion of the present invention is further extended at both end portions of the bottom abdomen 200 of the flange panel portion 100, and is formed of the tee PC slab end portion in the constructed state. It is formed to a thickness of about 100-150mm thicker than 50mm thickness of the flange panel portion 100 to support the excessive shear force.

In addition, the abdomen 200 extends downward from the bottom of the panel portion 100, and has a shape in which the cross section becomes thinner toward the lower end portion than the thickness formed close to the bottom of the flange panel portion 100, thereby producing Easily get out of the permanent formwork while reducing unnecessary weight.

In the present invention, the tee-type PC slab is formed at the bottom of the flange panel portion, and the abdomen of the reinforcing rib-shaped legs may be selectively manufactured at one of two, three, and supplied at the factory.

That is, in the practice of the present invention, the abdomen 200 is formed by one or a plurality, the tee-type PC slab according to the present invention may be manufactured in the shape of a single tee, tee-type PC slab.

Shear keys 170 formed on both sides of the flange panel portion of the present invention with the same thickness are protruded on both sides of the panel portion 100, the tee type PC slab according to the present invention is provided with a shear key 170 on the side, In the construction process, it is possible to easily adjust the horizontal height with the adjacent slabs installed, and after construction prevents the occurrence of cracks with adjacently installed slabs, and allows the constructed slab structure to be integrally behaved.

On the other hand, as shown in Figure 1, the abdomen 200 is installed so that both ends of the abdomen to be inwardly spaced apart from both ends of the nib of the flange panel portion 100, the nib of the flange panel portion 100 during construction The duct 350 may be installed at the deep end, which is a lower end area, and in this case, the floor height of the building may be significantly lowered.

2A is a view showing an A-A cross section of a tee-type PC slab according to the present invention in FIG. 2, the tee-type PC slab according to the present invention has a tee-type PC slab shape, it can be seen that the shear key 170 protrudes on both sides of the flange panel portion 100. The shear key is formed so that the lower edge portion protrudes outwardly more than the upper surface of the flange panel portion, the shear key is formed in a polygonal groove portion on the inner surface to correspond to the groove portion of the shear key that is adjacently installed at a later construction to form an integrated connection. FIG. 2A is a longitudinal sectional view of both front end portions 170 'of the groove portion 100' formed at the bottom of the span center portion of the flange panel portion. As shown in FIG. 2A, both shear keys of the groove portion are lower than the thickness of the upper flange panel portion. When viewed from the outside surface, the thickness of the shear key is the same thickness from both the nib panel portion to the center span portion.

FIG. 2B is a cross-sectional view taken along the line B-B in FIG. 1 and shows a longitudinal section of the nib panel portion 150 of the flange panel portion 100. FIG.

That is, the flange panel has a thickness of 100-150 mm on both side nib panel portions 150 and a thickness of 50 mm on the groove portion 100 'of the center span portion to support excessive shear force at the ends of the tee PC slab after construction. It would be.

3 is a view for explaining the construction of the tee-type PC slab according to the present invention. Referring to FIG. 3, in constructing a tee-type PC slab according to the present invention, first, after installing the PC beam 300 supporting the slab, the upper moment reinforcement 120 is disposed and the tee-type PC slab according to the present invention. It is installed continuously on the PC beam 300 using the end 150 of.

In the practice of the present invention, it is preferable to extend the nib panel portion 150 so that the duct 350 is installed in the lower portion of the nib panel portion 150, thereby significantly lowering the floor height of the building. Can be.

Then, the topping concrete 400 of about 5 cm on the continuously installed tee-type PC slab is integrated, and the construction of the tee-type PC slab according to the present invention is completed by curing the poured concrete 400.

Figure 4 is a view showing a coupling structure through the shear key of the tee-type PC slab adjacent to the slab according to the invention, Figure 5 is a bottom perspective view showing the bottom configuration of the tee-type PC slab according to the present invention, Figure 6 is a view of the present invention Another embodiment is a bottom perspective view showing a state where the bottom deep knee portion of the nib panel portion is formed small, and FIG. 7 is an exemplary view illustrating a coupling state between the steel beam and the tee PC slab according to the present invention.

Referring to FIG. 4, the shear keys 170 protruding from both sides of the flange panel portion 100 of the tee PC slab according to the present invention are installed to be in contact with the shear key 170 of the adjacent tee PC slab. If the shear key is greater than or equal to a certain size, in the installed state as shown in FIG. 4, the worker installs the connecting reinforcement 450 in the groove portion corresponding to the shear key and the shear. When the groove portion of the shear key forms a polygonal structure corresponding to the adjacent shear key, the polygons of the groove portions are formed so that the surfaces facing each other are parallel to each other and are connected by installing the connecting reinforcement 450 to the groove portion 170a by placing the letter X and placing mortar. Tee type PC slab is integrated and the top surface is smoothed.

  In addition, when installing the connecting reinforcing bar in the polygonal groove formed by the shear key and the shear key adjacent to each other by hitting with a hammer or the like to install diagonally, finely adjust the height of the two adjacent tee-type PC slab. In addition, the worker hits with a hammer in the state spaced apart from the first installed reinforcing bar 450 by a predetermined interval to install the connecting bar 450 in the opposite diagonal direction, thereby finely raising the height of two adjacent tee-type PC slab Will be adjusted.

At this time, if the height difference between two adjacent tee PC slabs is severe, put the reinforcing beams on both ends of the tee PC slabs and join the bolts to the female thread inserts (130, 130 ') to tighten the tee PC slabs that are apart from the steel beams. As it is built, it is close to the steel beams and can be aligned with the adjacent tee type PC slab (see Fig. 7).

After adjusting the height, the tee PC slabs installed are uniform in height when the connecting bar is installed in the connection space formed by the groove part of the shear key and the groove part of the adjacent shear key. .

By installing and curing the concrete 400 in a state in which the heights of two adjacent tee-type PC slabs are adjusted through the installation of the connecting reinforcing bars 450, construction of the coupling structure of the shear key 170 is completed.

Moreover, the part joined to the end side of the abdomen provided in the bottom face of a flange panel part is provided with the inclination part which has a reinforcement rib, and prevents the occurrence of a crack etc. by an upper load.

 Referring to the construction method of the tee-type PC slab of the present invention configured as described above are as follows.

Step 1: install the tee PC slab

In this step, a PC beam 300 supporting a tee-type PC slab is installed. PC beam 300 is a conventional practice, if the column and the beam is installed to stretch or remodel the building is arranged as arranged to install a tee-type PC slab between the beam and the beam. The tee-type PC slab is continuously installed on the PC beam 300 by using the knee end portion 155 of the nib panel portion 150.

Step 2: adjusting the height of the tee PC slab and the tee PC slab

If the height difference in the center of slab span among the tee PC slabs installed above is out of the allowable range, install the cheolgolbo in the center of the span on 2-3 adjacent tee PC slabs including tee PC slab, and on the tee PC slab center leg Adjust the tee-type PC slab height by fastening bolts to female thread inserts 130 and 130 'installed on the surface, and if necessary, gently lift the crane to adjust the height.

That is, when a tee type PC slab is installed between the beams and another tee type PC slab is installed on one side of the beam, when the heights of adjacent tee type PC slabs are different from each other due to the horizontal or other requirements of the beams, the spans of the tee type PC slabs are different. If you put the reinforcing beam in the center and tighten the bolt so that the female thread insert 130 and the steel beam are combined, the height of the tee type PC slab can be adjusted.If the bolt is not tightened, the steel beam can be easily lifted with a crane and then joined. have.

Process 3: Placing Connecting Reinforcing Bars and Maltar

After adjusting the height of the tee type PC slab in the above process, after installing the connecting bars in the space portion (space portion formed by the polygon corresponding to the groove portion and the groove portion corresponding to the shear key and the shear key), install the X letter and stiffen the mortar after pouring it. .

Fourth Process: Separation of Cheolgolbo

After the concrete inserted between the shear keys hardened to reach a certain strength, the cheolgolbo is removed from the tee-type PC slab.

5th step: installation of parent cement reinforcing bar and topping concrete

On the upper part of the nib panel portion 150 of the nib end of the tee-type PC slab continuously installed, the parental reinforcement 120 is installed in the slab length direction.

After installing the parent cement reinforcing rod 120 in the slab length direction, the topping concrete 400 is cast and cured on the tee-type PC slab continuously installed between the tee-type PC slab and the side shear keys 170 and 170 '. The installation is complete.

While the above has been shown and described with respect to preferred embodiments and applications of the present invention, the present invention is not limited to the specific embodiments and applications described above, the invention without departing from the gist of the invention claimed in the claims Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1: Tee type PC slab 100: Flange panel part
100 ': groove 110: rebar
120: parent moment reinforcement 130: female thread insert
150: nib panel portion 155: deep end
170,170 ': shear key 180: nib end
200: Abdomen 350: Duct
500: steel beam

Claims (8)

A nib panel portion 150 having a deep end portion 155 formed of a space portion so as to allow a duct to be installed at both ends thereof and protruding to one side thereof;
A plurality of reinforcing bars (110) protruding from the nib ends (180) of the nib panel portion for continuation of the tee PC slab (1);
A shear key 170 formed to have a plurality of grooves in both longitudinal directions of the nib panel portion;
Grooves (100 ') formed on the bottom of the nib end to the inside of the deep end to the thickness of the central panel portion (100) between the two ends of the abdomen (200) than the thickness of the nib panel portion 150 from the tip end portion;
The plurality of abdominal parts 200 extending downwards are formed thinner toward the lower end than the thickness formed on the bottom surface of the flange panel part, and a plurality of female thread inserts 130 and 130 are disposed on the upper flange panel part 100 corresponding to both abdomen parts. Tee type precast concrete slab, characterized in that ') is installed to form a tee type PC slab (1). The method of claim 1,
The tee PC slab includes: an abdomen (200) extending downward on the bottom of the flange panel portion (100) formed thinner than the nib panel portion (150) within a predetermined distance into the nib end portion; Tee-type precast concrete slab, characterized in that the shear key 170 'formed on both sides of the recess portion of the flange panel portion and both shear keys 170 of the nib panel portion 150 are formed to the same thickness. The method of claim 1,
The nib panel portion 150 is formed to be thicker than the thickness of the flange panel portion 100 so as to support the excessive shear force of the tee type PC slab end, and for continuity of the tee type PC slab, the tee type PC slab nib end portion ( Tee-type precast concrete slab, characterized in that it comprises a plurality of reinforcing bars (110) protruding from the 180. The method of claim 1,
The abdomen 200 is installed on the inner side at intervals from the end of the flange panel portion 100, the tee 350 precast concrete slab characterized in that the duct 350 is installed in the lower region of the nib panel portion 150 . The method of claim 1,
The abdomen 200 is a tee-type precast concrete slab, characterized in that formed in one or a plurality. The method of claim 1, wherein
Tee-type PC slab is a T-shaped precast concrete slab, characterized in that the female thread insert 130 is installed on the center surface of the flange panel portion is configured to align the steel beams with a bolt to level. Installing a PC beam 300 supporting the slab;
Continuously installing a tee-type PC slab on the PC beam 300 by using an end portion of the nib panel portion 150;
If the height difference in the center of the slab span is out of tolerance among the tee PC slabs installed above, install the cheolgolbo in the middle of the span on 2-3 tee PC slabs including the tee PC slab, and in the cheolgolbo tee PC slab Fastening a bolt to the female thread insert 130 installed at the height of the tee-type PC slab to adjust the height constantly;
Partially inserting a predetermined size of the bibeam mortar of a predetermined size into the groove of the shear key (170, 170 ') after the constant adjustment;
After the inserted mortar hardened to reach a certain strength, the steel beam was removed from the tee PC slab, and the upper parental reinforcement 120 was placed on the end nib panel portion 150 of the continuously installed tee PC slab in the slab length direction. Steps to install:
Placing topping concrete (400) between the continuously installed tee-shaped PC slab and the side shear keys (170, 170 ') all over the area; And tee type precast concrete slab construction method comprising a slab construction step comprising the step of curing the poured concrete (400). The method of claim 7, wherein
Another step for adjusting the heights of the two adjacent tee-type PC slabs, with the shear keys 170 and 170 'of the tee-type PC slab being installed to abut against the shear keys 170 and 170' of the lateral-type tee PC slab. The slab construction method comprising the step of adjusting the height by hitting the connecting bar 450 installed in a diagonal direction in the space where the shear key 170 of the adjacent two tee-type PC slab abuts.

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