KR101429137B1 - PC Beam Unit Connection Structure For Expensive Space And Construction Method Thereof - Google Patents

Abstract

The present invention is for extending the PC beam unit 100 to a space of a ramen structure by connecting a PC beam unit 100 to an existing slab S and a conventional wall W for modeling a wall structure.
A plurality of connecting stud bolts 210, one end of which is embedded in the ends of the existing slab S and the existing wall W to expose the space and the other end is exposed; A PC beam unit (100) comprising a compensator core (110), a beam lower main beam (120), a beam lower concrete (130) and a beam steel frame (150) partially embedded in the beam lower concrete (130). A plurality of connecting stud bolt fastening holes 162 are formed to connect the compensating yoke 110, the beam lower main stem 120 and the supporting steel frame 150 to the connecting stud bolt fastening holes 162, A lower end plate 160 through which the bolts 210 are inserted and fastened; And a slab concrete (SC) laid in the PC beam unit (100)
The secondary end plate 160 is coupled to the connecting stud bolt 210 and then the compensating secondary hoop 110, the lower secondary hoop 120 and the supporting steel hoop 150 are joined together, The lower beam main beam 120, and the beam steel frame 150 are joined together and then fastened to the connecting stud bolts 210. FIG.
In addition, as a method for constructing the PC beam unit connection structure for expanding the space,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) passing the connecting stud bolts 210 through the connecting stud bolt fastening holes 162 of the lower end plate 160 to fasten the PC beam unit 100; (3) a PC beam unit joining step of joining the compensating cushion root 110, the beam lower main beam 120 and the beam steel frame 150 to the lower end plate 160; And (4) a slab concrete pouring step for pouring the slab concrete (SC) into the slab concrete (SC).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PC beam unit connection structure for expanding a space,

The present invention relates to a method for expanding a PC beam unit to an existing slab and a conventional wall for modeling a wall structure to expand into a space of a ramen structure. The present invention can be easily manufactured with a simple structure, And a method of constructing the same.

As the lifespan of the old buildings has been exhausted, the remodeling of the buildings has been on the rise.

In the conventional remodeling method, after removing only the existing slab S and the existing wall (bearing wall W) existing in the wall structure, all the ends of the existing slab S and the existing wall W are punched at regular intervals, And reinforced with a wall structure based on a fixed reinforcing bar.

Since the conventional remodeling method is a manual operation of a large amount of reinforcing steel work, the workforce of many skilled workers is required, and it is pointed out that the air delay is disadvantageous because the upper layer construction can not proceed before the entire lower wall is completed .

Therefore, it is urgent to develop a construction method that can construct the upper layer construction when the framing of the beam is completed by constructing the stretched part with the space of the ramen structure using the PC beam unit.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, a PC beam unit connection structure for expanding the space to the space of the ramen structure by connecting the PC beam unit to the existing slab and the existing wall for the modeling of the wall structure is provided, and its construction method is provided.

Secondly, we intend to provide a PC beam unit connection structure and a construction method thereof for expanding the space that can maintain quality of specification safely even for an unskilled worker because the pre-manufactured PC beam unit is constructed by simple dry process.

Third, it is possible to construct a PC frame unit connection structure and its construction method for expanding the space where air space is saved by constructing the stretched part as a space of a ramen structure using a PC beam unit, .

In order to solve the above-mentioned technical problems, the present invention is to extend the existing slab S and the existing wall W to the space of the ramen structure by connecting the PC beam unit 100 to model the wall structure.

A plurality of connecting stud bolts 210, one end of which is embedded in the ends of the existing slab S and the existing wall W to expose the space and the other end is exposed; A PC beam unit (100) comprising a compensator core (110), a beam lower main beam (120), a beam lower concrete (130) and a beam steel frame (150) partially embedded in the beam lower concrete (130). A plurality of connecting stud bolt fastening holes 162 are formed to connect the compensating yoke 110, the beam lower main stem 120 and the supporting steel frame 150 to the connecting stud bolt fastening holes 162, A lower end plate 160 through which the bolts 210 are inserted and fastened; And a slab concrete (SC) laid in the PC beam unit (100)

The secondary end plate 160 is coupled to the connecting stud bolt 210 and then the compensating secondary hoop 110, the lower secondary hoop 120 and the supporting steel hoop 150 are joined together, The lower beam main beam 120, and the beam steel frame 150 are joined together and then fastened to the connecting stud bolts 210. FIG.

In addition, as a method for constructing the PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) passing the connecting stud bolts 210 through the connecting stud bolt fastening holes 162 of the lower end plate 160 to fasten the PC beam unit 100; (3) a PC beam unit joining step of joining the compensating cushion root 110, the beam lower main beam 120 and the beam steel frame 150 to the lower end plate 160; And (4) a slab concrete pouring step for pouring the slab concrete (SC) into the slab concrete (SC).

According to the present invention, the following effects are expected.

First, a PC beam unit connection structure for expanding the space to the space of the ramen structure by connecting the PC beam unit to the existing slab and the existing wall for modeling the wall structure is provided, and its construction method is provided.

Second, since the prefabricated PC beam unit is constructed by simple dry installation, it provides a PC beam unit connection structure and its construction method for expanding the space that can maintain quality of specification safely for the unskilled worker.

Third, it is possible to construct a PC frame unit connection structure and its construction method for expanding the space where air space is saved by constructing the stretched part as a space of a ramen structure using a PC beam unit, to provide.

Figs. 1 to 4 show an embodiment of a construction method of a PC beam unit connection structure for expanding a space.
5 to 8 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.
9 to 12 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.
13 to 16 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.
Fig. 17 is an example in which steel bars are composed of I type, T type and inverted T type in the present invention.
18 is an example in which the upper main muscle is omitted in the present invention.
19 is an example in which the height of at least one of the sub-plate and the amble plate is reduced in the present invention.
Fig. 20 shows an example in which the reinforcing member is made of a rectangular steel pipe in the present invention.
FIGS. 21 to 24 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.
25 to 30 show another embodiment of a method of constructing a PC beam unit connection structure for expanding a space.
31 is an example in which a hole of a reinforcing hole to which a reinforcing stud stud bolt is fastened is formed as a slot.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. PC beam unit connection structure for space expansion

The PC beam unit connection structure for expanding the space of the present invention can be realized by connecting the PC beam unit 100 to the existing slab S and the existing wall W for modeling of the wall structure as shown in FIG. To expand into space,

A plurality of connecting stud bolts 210, one end of which is embedded in the ends of the existing slab S and the existing wall W to expose the space and the other end is exposed; A PC beam unit (100) comprising a compensator core (110), a beam lower main beam (120), a beam lower concrete (130) and a beam steel frame (150) partially embedded in the beam lower concrete (130). A plurality of connecting stud bolt fastening holes 162 are formed to connect the compensating yoke 110, the beam lower main stem 120 and the supporting steel frame 150 to the connecting stud bolt fastening holes 162, A lower end plate 160 through which the bolts 210 are inserted and fastened; And a slab concrete (SC) laid in the PC beam unit (100)

The secondary end plate 160 is coupled to the connecting stud bolt 210 and then the compensating secondary hoop 110, the lower secondary hoop 120 and the supporting steel hoop 150 are joined together, The beam lower main stem 120 and the beam steel frame 150 are joined together and then fastened to the connecting stud bolts 210.

FIG. 17 is an example in which the steel bars are formed of I-shaped, T-shaped and inverted T-shaped steel bars in the present invention, and FIG. 18 is an example in which the upper steel bars are omitted in the present invention.

As shown in FIG. 17, the steel frame 130 may be formed of an I-type, a T-type, an inverted T-type, and the like. So that the compensating auxiliary root 110 can be omitted.

In another embodiment of the present invention, as shown in FIG. 8, the compensating cantilever 110 is joined and a hole corresponding to the connecting stud bolt fastening hole 162 is formed, and the connecting stud bolt The reinforcing angle 170 is provided between the lower end plate 160 and the compensating rib 110. The reinforcing angle 170 is formed between the lower end plate 160 and the compensating rib 110, The reinforcing bar 110 may be joined to the connecting stud bolt 210 and then the compensating bar 110 may be joined to the beam lower main bar 120 and the supporting steel bar 150.

12, between the end plate 160 and the ends of the existing slab S and the existing wall W, a plurality of grooves (not shown) having the same shape as the end plate 160 The amble plate 200 is installed at an end of the existing slab S and the existing wall W in advance and the auxiliary plate 160 is installed at the end of the compensating sub- And is fastened to the connecting stud bolt 210 after the root 110, the beam lower main stem 120, and the beam steel frame 150 are joined together.

4, 8, and 12, a reinforcement 300 is further provided at the intersection of the existing slab S and the existing wall W, and the existing slab S And the reinforcement hole 300 is coupled to the reinforcement hole by the stud bolt 310.

Fig. 20 shows an example in which the reinforcing member is made of a rectangular steel pipe in the present invention.

Further, the reinforcing tool 300 may be an L-shaped steel shown in Figs. 4, 8 and 12, or a rectangular steel pipe shown in Fig.

And a web bracket 164 is preliminarily joined to the lower end plate 160 so that the web of the support beam 150 is fitted and engaged.

21,

An interval plate 180 consisting of an interval plate horizontal portion 182 and an interval plate vertical portion 184,

The web brackets 164 are formed in two opposing shapes, each having a vertical portion 166 and a horizontal portion 165,

The gap plate vertical portion 184 and the webs of the support steel frame 150 form inclined surfaces corresponding to each other,

And the web bracket 164 is positioned by its own weight when the web of the supporting steel frame 150 is inserted and fastened to the web bracket 164.

19 is an example in which the height of at least one of the sub-plate and the amble plate is reduced in the present invention. As shown in FIG. 19, according to the present invention, the height of at least one of the lower end plate and the upper end plate can be lowered, and when the height of the lower end plate and the upper end plate is lowered, (110) is directly embedded at the intersection of the existing slab (S) and the existing wall (W).

31 is an example in which a hole of a reinforcing hole to which a stud bolt is fastened is formed as a slot. In the reinforcing hole 300, a slot (not shown) May be formed.

The existing slab S and the existing wall W are constructed of a wall-structured spot-laid concrete, and even if a precise construction is carried out, a construction error may be inherently provided as long as it is not a PC member.

Therefore, when the PC beam unit of the present invention is connected to the existing slab S and the existing wall W, the original construction error of the conventional wall structure can be succeeded by the expansion structure having the ramen structure.

Therefore, all the fastening holes of the lower end plate 160, such as the connecting stud bolt fastening hole 162, the reinforcing angle 170, the amble plate 200, and the reinforcement hole 300 shown in FIG. 31, it is possible to flexibly cope with the position selection.

2. Construction method of PC beam unit connection structure for expansion of space

Each of FIGS. 1 to 16 (a) is a top view and (b) is a bottom view.

Figs. 1 to 4 show an embodiment of a construction method of a PC beam unit connection structure for expanding a space.

An embodiment of a method of constructing a PC beam unit connection structure for expanding a space according to the present invention is a method for constructing a PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) As shown in FIG. 1, the connecting stud bolts 210 are passed through the connecting stud bolt fastening holes 162 of the lower end plate 160 and fastened to the PC beam unit 100, Phase step; (3) a PC beam unit joining step of joining the compensating cantilever 110, the beam lower main beam 120 and the beam steel frame 150 to the lower end plate 160 as shown in FIG. 2; And (4) a slab concrete pouring step of placing the slab concrete (SC) as shown in FIG. 3.

As shown in FIG. 1, the web bracket 164 may be previously joined to the lower end plate 160 to allow the web of the support beam 150 to be fitted and engaged.

5 to 8 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.

Another embodiment of the method of constructing the PC beam unit connection structure for expanding the space of the present invention is a method for constructing the PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) As shown in FIG. 5, the lower end plate 160 is installed so that the connecting stud bolts 210 pass through. After the reinforcing angle 170 is joined to the compensating supporting roots 110, (170) and the PC beam unit (100); (3) As shown in FIGS. 6 and 7, the PC beam unit engaging step is performed by passing the connecting stud bolt 210 through the hole of the reinforcing angle 170, and fastening the same. And (4) a slab concrete casting step for casting the slab concrete (SC) as shown in FIG. 8.

As shown in FIG. 5, the web bracket 164 may be previously joined to the lower end plate 160 so that the web of the support beam 150 is fitted and engaged.

9 to 12 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.

Another embodiment of the method of constructing the PC beam unit connection structure for expanding the space of the present invention is a method for constructing the PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) As shown in FIG. 9, the amble plate 200 is installed to penetrate the connecting stud bolts 210 and the supporting plate 160 is fixed to the compensating supporting bar 110, the beam lower main bar 120, A step of joining the bottom end plate 160 and the PC board unit 100 after joining to the supporting frame 150 and the PC board unit 150; (3) As shown in FIGS. 10 and 11, the PC beam unit coupling step of connecting the connecting stud bolts 210 to the connecting stud bolt fastening holes 162 of the lower end plate 160 and fastening them; And (4) a slab concrete casting step for casting the slab concrete (SC) as shown in FIG. 12.

13 to 16 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.

Another embodiment of the method of constructing the PC beam unit connection structure for expanding the space of the present invention is a method for constructing the PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) As shown in FIG. 13, a PC beam forming the combined body by joining the compensating cushion muscle 110, the beam lower main muscle 120, the beam steel frame 150 and the reinforcing tool 300 to the lower end plate 160 Unit combining step; 14, the connecting stud bolt 210 is passed through the connecting stud bolt fastening hole 162 of the lower end plate 160, and the reinforcing stud bolt 310 is used A first fixing step of installing the reinforcing tool (300) on the existing slab (S) and the existing wall (W); (4) securing the connecting stud bolt 210 to the connecting stud bolt fastening hole 162 of the lower end plate 160, as shown in FIG. 15; And (5) a slab concrete casting step for casting the slab concrete SC as shown in FIG. 16.

FIGS. 21 to 24 show another embodiment of a construction method of a PC beam unit connection structure for expanding a space.

Another embodiment of the method of constructing the PC beam unit connection structure for expanding the space of the present invention is a method for constructing the PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) As shown in FIG. 21, the connecting stud bolts 210 are passed through the connecting stud bolt fastening holes 162 of the lower end plate 160 and fastened to the PC beam unit 100, Phase step; (3) As shown in FIGS. 22 and 23, the web of the support beam 150 is fitted to the web bracket 164 and the compensating support roots 110 and the beam lower main rods 120 A PC beam unit joining step of joining the PC beam unit; And (4) a slab concrete casting step for casting the slab concrete (SC) as shown in FIG. 25.

25 to 30 show another embodiment of a method of constructing a PC beam unit connection structure for expanding a space.

Another embodiment of the method of constructing the PC beam unit connection structure for expanding the space of the present invention is a method for constructing the PC beam unit connection structure for expanding the space,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) As shown in FIGS. 25 to 27, after installing the amber plate 200 so that the connecting stud bolts 210 pass through the connecting stud bolts 210, A PC beam unit piercing through the stud bolt fastening holes 162 and fastening the PC beam unit 100; (3) As shown in FIGS. 28 and 29, the web of the supporting steel frame 150 is fitted to the web bracket 164, and the compensating supporting frame 110 and the beam lower part A PC beam unit joining step of joining the main beam 120; And (4) a slab concrete pouring step for pouring the slab concrete (SC) as shown in FIG. 30.

A slot may be formed in the reinforcement hole 300 to adjust the position of the reinforcement hole when the stud bolt 310 is coupled to the reinforcement hole. In this case,

(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space; (2) a PC beam unit coupling step of joining the compensating cushion root 110, the beam lower main beam 120, the beam steel frame 150, and the reinforcement hole 300 to the lower end plate 160 to form a combined body; (3) The connecting stud bolt 210 is passed through the connecting stud bolt fastening hole 162 of the lower end plate 160, and the reinforcing pin stud bolt 310 is used as shown in FIG. 31 A first fixing step of installing the reinforcing tool 300 on the existing slab S and the existing wall W and adjusting the position of the reinforcing tool 300 through the slot; (4) securing the connecting stud bolt (210) to the connecting stud bolt fastening hole (162) of the lower end plate (160); And (5) a slab concrete pouring step for pouring the slab concrete (SC).

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

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

S: existing slab
W: Original wall
SC: Slab Concrete
100: PC beam unit
110: The reward
120: Beam main stem
130: Beam lower concrete
150:
160: Lower end plate
162: Connecting stud bolt tightening hole
164: web bracket
165:
166:
170: Reinforcement angle
180: spacing plate
182: interval plate horizontal portion
184: spacing plate vertical section
200: Amber plate
210: Connecting stud bolt
300: Reinforcement hole
310: Stud bolt

Claims (19)

For expanding the PC beam unit 100 to the space of the ramen structure by connecting the PC beam unit 100 to the existing slab S and the existing wall W for modeling the wall structure,
A plurality of connecting stud bolts 210, one end of which is embedded in the ends of the existing slab S and the existing wall W to expose the space and the other end is exposed;
A PC beam unit (100) comprising a compensator core (110), a beam lower main beam (120), a beam lower concrete (130) and a beam steel frame (150) partially embedded in the beam lower concrete (130).
A plurality of connecting stud bolt fastening holes 162 are formed to connect the compensating yoke 110, the beam lower main stem 120 and the supporting steel frame 150 to the connecting stud bolt fastening holes 162, A lower end plate 160 through which the bolts 210 are inserted and fastened; And
A slab concrete (SC) installed in the PC beam unit (100);
And a PC frame unit connected to the PC frame unit.
The method of claim 1,
Wherein the compensating supporting ribs (110) are omitted when the supporting frame (150) is T-shaped or I-shaped.
The method of claim 1,
A reinforcing angle 170 in which the compensating cushion muscle 110 is joined and a hole corresponding to the connecting stud bolt fastening hole 162 is formed and the connecting stud bolt 210 is inserted and fastened through the hole In addition,
The reinforcing angle 170 is provided between the lower end plate 160 and the compensating cam follower 110,
Wherein the lower end plate 160 is joined to the connecting stud bolt 210 and then the compensating lower limb 110, the lower beam main stem 120 and the supporting steel bar 150 are joined. PC beam unit connection structure.
4. The method according to any one of claims 1 to 3,
Wherein a web bracket (164) is previously attached to the lower end plate (160), and the web of the backing frame (150) is fitted and engaged.
The method of claim 1,
An amble plate 200 having the same shape as that of the lower end plate 160 is further disposed between the lower end plate 160 and the ends of the existing slab S and the existing wall W,
The amble plate 200 is installed at the ends of the existing slab S and the existing wall W in advance,
Wherein the lower end plate 160 is fastened to the connecting stud bolt 210 after the compensating lower limb 110, the lower beam main stem 120 and the supporting steel bar 150 are joined together. PC beam unit connection structure.
The method according to claim 1 or 2 or 3 or 5,
A reinforcement 300 is installed at the intersection of the existing slab S and the existing wall W,
Wherein the reinforcement hole (300) is coupled to at least one of the existing slab (S) and the existing wall (W) by a reinforcement stud bolt (310).
The method of claim 6,
Wherein the reinforcing member (300) is an L-shaped steel or a rectangular steel pipe.
A method for constructing a PC beam unit connection structure for space expansion according to claim 1,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) passing the connecting stud bolts 210 through the connecting stud bolt fastening holes 162 of the lower end plate 160 to fasten the PC beam unit 100;
(3) a PC beam unit joining step of joining the compensating cushion root 110, the beam lower main beam 120 and the beam steel frame 150 to the lower end plate 160; And
(4) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
A method for constructing a PC beam unit connection structure for space expansion according to claim 3,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) The lower end plate 160 is installed such that the connecting stud bolts 210 pass through. After the reinforcing angle 170 is joined to the compensating supporting roots 110, A step in the PC beam unit for coping with the combination of the PC beam unit 100;
(3) a PC beam unit engaging step in which the connecting stud bolts 210 are inserted into the holes of the reinforcing angle 170 and fastened; And
(4) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
A method for constructing a PC beam unit connection structure for space expansion according to claim 5,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) The amble plate 200 is installed so that the connecting stud bolts 210 pass through and the lower end plate 160 is connected to the compensating supporting roots 110, the beam lower main rope 120, 150) and then joining the lower end plate (160) and the PC board unit (100);
(3) a PC beam unit coupling step of connecting the connecting stud bolts 210 to the connecting stud bolt fastening holes 162 of the lower end plate 160 and fastening them; And
(4) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
A method for constructing a PC beam unit connection structure for space expansion according to claim 6,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) a PC beam unit coupling step of joining the compensating cushion root 110, the beam lower main beam 120, the beam steel frame 150, and the reinforcement hole 300 to the lower end plate 160 to form a combined body;
(3) The connecting stud bolt 210 is passed through the connecting stud bolt fastening hole 162 of the lower end plate 160 and the reinforcing rod stud bolt 310 is inserted through the reinforcing hole 300) to the existing slab (S) and the existing wall (W);
(4) securing the connecting stud bolt (210) to the connecting stud bolt fastening hole (162) of the lower end plate (160); And
(5) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
A method for constructing a PC beam unit connection structure for space expansion according to claim 4,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) passing the connecting stud bolts 210 through the connecting stud bolt fastening holes 162 of the lower end plate 160 to fasten the PC beam unit 100;
(3) A webbing for fastening the web of the reinforcement frame 150 to the web bracket 164 and fastening the compensating camber 110 and the beam lower main muscle 120 to the lower end plate 160 Unit combining step; And
(4) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
5. The method of claim 4,
An interval plate 180 consisting of an interval plate horizontal portion 182 and an interval plate vertical portion 184,
The web brackets 164 are formed in two opposing shapes, each having a vertical portion 166 and a horizontal portion 165,
The gap plate vertical portion 184 and the webs of the support steel frame 150 form inclined surfaces corresponding to each other,
And a position of the web bracket (164) is adjusted by its own weight when the web of the supporting frame (150) is inserted and fastened to the web bracket (164).
5. The method of claim 4,
An amble plate 200 having the same shape as that of the lower end plate 160 is installed between the lower end plate 160 and the ends of the existing slab S and the existing wall W PC beam unit connection structure for space expansion.
The method of claim 13,
An amble plate 200 having the same shape as that of the lower end plate 160 is installed between the lower end plate 160 and the ends of the existing slab S and the existing wall W PC beam unit connection structure for space expansion.
A method for constructing a PC beam unit connection structure for space expansion according to claim 13,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) passing the connecting stud bolts 210 through the connecting stud bolt fastening holes 162 of the lower end plate 160 to fasten the PC beam unit 100;
(3) A webbing for fastening the web of the reinforcement frame 150 to the web bracket 164 and fastening the compensating camber 110 and the beam lower main muscle 120 to the lower end plate 160 Unit combining step; And
(4) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
A method for constructing a PC beam unit connection structure for space expansion according to claim 15,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) After installing the amber plate 200 so that the connecting stud bolt 210 passes through the connecting stud bolt 210, the connecting stud bolt 210 is passed through the connecting stud bolt fastening hole 162 of the lower end plate 160 And a PC beam unit for loading the PC beam unit 100;
(3) A webbing for fastening the web of the reinforcement frame 150 to the web bracket 164 and fastening the compensating camber 110 and the beam lower main muscle 120 to the lower end plate 160 Unit combining step; And
(4) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.
The method of claim 6,
Wherein a slot is formed in the reinforcement hole so as to adjust the position of the reinforcement hole when the stud bolt is coupled to the reinforcement hole.
A method for constructing a PC beam unit connection structure for space expansion according to claim 18,
(1) a connection stud bolt installation step of burying one end of a plurality of connecting stud bolts 210 at the ends of the existing slab S and the existing wall W to tear off the non-proof wall and enlarge the space;
(2) a PC beam unit coupling step of joining the compensating cushion root 110, the beam lower main beam 120, the beam steel frame 150, and the reinforcement hole 300 to the lower end plate 160 to form a combined body;
(3) The connecting stud bolt 210 is passed through the connecting stud bolt fastening hole 162 of the lower end plate 160 and the reinforcing rod stud bolt 310 is inserted through the reinforcing hole 300) is installed in the existing slab (S) and the existing wall (W), and the position is adjusted through the slot;
(4) securing the connecting stud bolt (210) to the connecting stud bolt fastening hole (162) of the lower end plate (160); And
(5) a slab concrete casting step of placing the slab concrete SC;
Wherein the PC frame unit is connected to the PC frame unit.

Images