KR20170128659A - the lamp structure using the precast concrete column and the precast concrete beam and the construction method thereof - Google Patents

Abstract

The present invention relates to an inclined ramp structure which a person or a vehicle passes. The inclined ramp structure comprises: a PC column (200) comprising a column main body (220) and a corbel unit (210) protruding from an upper end of the column main body (220) and having a horizontal bracket (230) and an inclined bracket (250), which individually protrude from a side of the corbel unit (210) and a side of the column main body (220); and a PC beam (100) having a beam steel frame (110) protruding from an end of beam concrete (130) and connected to the horizontal bracket (230) and the inclined bracket (250). The PC beam (100) is horizontally connected to the horizontal bracket (230), and the inclined bracket (250) protrudes upward and downward to be inclined. So, the PC beam (100) is connected to be inclined to correspond to an inclination of a ramp in the ramp structure using the PC column and the PC beam. Also, a construction method for the same comprises (1) a PC column installing step, (2) an inclined beam installing step, (3) a ramp installing step, (4) a horizontal beam installing step, (5) a reinforced plate connecting step, and (6) a slab installing step.

Description

[0001] The present invention relates to a lamp structure using a PC column and a PC beam, and a method of constructing the lamp structure using the PC column and the PC beam,

The present invention improves the conventional lamp structure used in a parking lot or the like. By using a factory-built PC deviating from a lamp structure constructed by a steel frame or a ramen structure, an unskilled worker can quickly and safely construct a predetermined quality, The present invention relates to a lamp structure using a PC column and a PC beam that does not require a refractory sheath, and a construction method thereof.

In many cases, parking lots with a lamp structure are constructed with steel or ramen structures.

It has been pointed out that the steel frame structure requires a separate refractory coating and thus takes a long time for construction and a high construction cost. It has been pointed out that the construction of the ramen requires a long construction time by a typical wet method.

Accordingly, the present inventor has recognized the above-mentioned problems and has improved the conventional lamp structure used in a parking lot and so on. By using a PC manufactured at a factory outside of a lamp structure that was constructed by a steel frame or a ramen structure, This paper proposes a lamp structure using a PC column and a PC beam that can be safely installed and does not require a separate refractory sheath, and a construction method thereof. Especially, the precast structure is applied to the new concept parking structure which can simultaneously park in the ramp section, thereby improving the economical efficiency and construction workability.

[Patent Document 1] Korean Patent No. 10-1578902 'Construction PC slab structure and its construction method', December 14, 2015 [Patent Literature 2] Korean Patent No. 10-1164573 'Dam PC Gallery Structure for Self-leveling and Construction Method thereof', July 04, 2012

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The objective is to improve the conventional lamp structure used in parking lots and so that it is possible to quickly and safely construct the unskilled worker with the predetermined quality by using the factory-produced PC, which is deviated from the lamp structure which was constructed by the steel frame or the ramen structure. Especially, it is necessary to secure the rigidity of the structure and secure the slab space of the long span, so that the parking space can be parked in the ramp section simultaneously. The precast member is applied to improve economical efficiency and workability.

According to an aspect of the present invention, there is provided an inclined ramp structure to which a person or a vehicle passes,

And a claw portion 210 protruding from an upper end of the column main body portion 220. Horizontal brackets 230 are formed on the side of the cobbled portion 210 and the side surfaces of the column main body portion 220, A PC column 200 in which an inclined bracket 250 is protruded; And a PC beam 100 protruding from the end portion of the beam concrete 130 to the horizontal bracket 230 and the inclined bracket 250. The horizontal bracket 230 Wherein the PC beam 100 is coupled horizontally and the inclined bracket 250 is inclined upward or downward so that the PC beam 100 is inclinedly coupled to the slope of the ramp. To provide a lamp structure.

In addition, the lamp structure using the PC column and the PC beam is used,

(1) a PC column 200 in which the inclined bracket 250 is inclined downward and a PC column 200 in which the inclined bracket 250 is inclined upward are installed so that the inclined brackets 250 face each other, Column installation phase; (2) an inclined beam mounting step of coupling the steel beam 110 of the PC beam 100 to the inclined bracket 250; (400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100); (4) a horizontal beam mounting step of coupling the steel beam 110 of the PC beam 100 to the horizontal bracket 230; (5) a reinforcing plate joining step of joining the reinforcing plate 300 to an upper part of the joining part of the horizontal bracket 230 and the supporting steel frame 110; (6) A slab installation step of continuously installing a slab (not shown) on the reinforcing plate 300 and the beam concrete 130. [ Provides a construction method.

According to the present invention, the conventional lamp structure used in a parking lot, etc. is improved. By using a factory-built PC deviating from the lamp structure which was constructed by a steel frame or a ramen structure, an unskilled worker can quickly and safely construct a predetermined quality, In particular, it is necessary to secure the rigidity of the structure and secure the slab space of the long span, so that it is possible to park the lamp section at the same time. The precast member is applied to improve economical efficiency and workability.

FIG. 1 conceptually shows a lamp structure using a PC column and a PC beam according to the present invention and a parking lot to which the construction method is applied.
2 is a detailed view of Fig.
FIG. 3 is a side view of FIG. 1; FIG.
4 is a view illustrating a lamp structure using a PC column and a PC beam according to the present invention, and a PC beam used in the construction method thereof.
5 is a perspective view of FIG.
6 is a view illustrating a lamp structure using a PC column and a PC beam according to the present invention and a PC column used in the construction method thereof.
7 is a plan view, a front view, and a side view of a PC column and a PC column used in the method of constructing the lamp structure using the PC column and the PC beam according to the present invention.
8 shows a lamp structure using a PC column and a PC beam according to the present invention.
9 is a detailed view of 'A' in FIG.
10 is a detailed view of 'B' in FIG.
11 is a detailed view of 'C' in FIG.
12 is a plan view as viewed from above of Fig.
FIG. 13 is a view showing the construction of the slab structure in FIG. 12. FIG.
14 is a perspective view of Fig.
Fig. 15 is a detailed view of Fig.
16 shows the PC beam of the lamp part.
FIG. 17 is a view showing a state in which the construction up to the slab structure is completed in FIG.
Figs. 18 to 22 show the construction method of the lamp structure using the PC column and the PC beam according to the present invention in order.
23 shows a PC column used in another embodiment of the lamp structure using the PC column and the PC beam according to the present invention and its construction method.
24 is a plan view, a front view and a side view of Fig.
Fig. 25 shows another embodiment of the PC beam installed on the opposite side of Fig.
FIG. 26 shows a PC frame used in another embodiment of the lamp structure using the PC column and the PC beam according to the present invention and the construction method thereof.
FIGS. 27 to 32 illustrate another embodiment of the method of constructing the lamp structure using the PC column and the PC beam according to the present invention.
FIG. 33 shows a PC beam of a lamp part.
34 to 35 illustrate that the inclined beam connecting plate can be installed in a free position in the present invention.
36 to 38 show another embodiment of a method of constructing a lamp structure using PC columns and PC beams according to the present invention in order.

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

FIG. 1 conceptually shows a lamp structure using a PC column and a PC beam according to the present invention and a parking lot to which the construction method is applied. FIG. 2 is a detailed view of FIG. 1, and FIG. 3 is a side view of FIG. 1.

In the present invention, the red dotted line portion in FIG. 3 represents a case where the PC beam is coupled horizontally, and the blue dotted line portion is a lamp portion that slopes the PC beam. The same is applied hereinafter.

FIG. 4 is a view showing a lamp structure using a PC column and a PC beam according to the present invention and a PC beam used in the method. FIG. 5 is a perspective view of FIG.

FIG. 6 is a view showing a lamp structure using a PC column and a PC beam according to the present invention and a PC column used in the method; FIG. 7 is a view showing a lamp structure using a PC column and a PC beam according to the present invention, A front view, and a side view, and FIG. 8 illustrates a lamp structure using a PC column and a PC beam according to the present invention.

FIG. 9 is a detailed view of 'A' of FIG. 8, FIG. 10 is a detail view of 'B' of FIG. 8, and FIG. 11 is a detail view of 'C' of FIG.

FIG. 12 is a top plan view of FIG. 8, FIG. 13 is a view showing the construction up to the slab structure in FIG. 12, and FIG. 14 is a perspective view of FIG. And Fig. 15 is a detailed view of Fig.

FIG. 16 shows the PC beam of the lamp part, and FIG. 17 shows the construction up to the slab structure in FIG.

The lamp structure using the PC column and the PC beam of the present invention relates to a sloped lamp structure to which a person or a vehicle passes,

And a claw portion 210 protruding from an upper end of the column main body portion 220. Horizontal brackets 230 are formed on the side of the cobbled portion 210 and the side surfaces of the column main body portion 220, A PC column 200 in which an inclined bracket 250 is protruded;

And a PC beam 100 protruding from the ends of the beam concrete 130 protruding from the horizontal bracket 230 and the inclined bracket 250,

The PC beam 100 is horizontally coupled to the horizontal bracket 230 and the inclined bracket 250 is inclined upward or downward so that the PC beam 100 is sloped .

6 (b), the inclined bracket 250 may protrude to a predetermined position from the upper end (a) to the lower end (b) of the column main body 220, And it is possible to cope with the inclination and height of various lamps according to the installation position of the lamp 200.

Also, a plurality of the claw portions 210 may protrude from the upper end of the column main body portion 220 with different protruding directions.

8 to 11, the present invention is characterized in that on the upper part of the joining part of the horizontal bracket 230 and the supporting steel frame 110 or the joining part of the inclined bracket 250 and the supporting steel frame 110,

Since the T-shaped reinforcing plate 300 is joined so that the upper end of the reinforcing plate 130 is equal in height to the upper end of the beam concrete 130 in order to ensure continuity of the upper surface of the beam concrete 130,

And a slab (not shown) may be continuously installed on the reinforcing plate 300 and the beam concrete 130.

9, 11, and 16 to 17, the PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130, and the anchor bolts AB, And a slab structure 400 such as a double tee slab or a deck plate is fastened to the bolts AB.

The joining portion of the horizontal bracket 230 and the supporting steel frame 110 or the joining portion of the inclined bracket 250 and the supporting steel frame 110 is provided with a mold, It is preferable to fill the mortar.

Figs. 18 to 22 show the construction method of the lamp structure using the PC column and the PC beam according to the present invention in order.

The method of constructing the lamp structure using the PC column and the PC beam of the present invention uses the lamp structure using the PC column and the PC beam,

(1) a PC column 200 in which the inclined bracket 250 is inclined downward and a PC column 200 in which the inclined bracket 250 is inclined upward are installed so that the inclined brackets 250 face each other, Column installation phase;

(2) an inclined beam mounting step of coupling the steel beam 110 of the PC beam 100 to the inclined bracket 250;

(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);

(4) a horizontal beam mounting step of coupling the steel beam 110 of the PC beam 100 to the horizontal bracket 230;

(5) a reinforcing plate joining step of joining the reinforcing plate 300 to an upper part of the joining part of the horizontal bracket 230 and the supporting steel frame 110;

(6) a slab installation step of continuously installing a slab (not shown) on the reinforcing plate 300 and the beam concrete 130.

FIG. 23 is a plan view, a front view, and a side view of the lamp structure using the PC column and the PC beam according to the present invention and the PC column used in another embodiment of the method. FIG.

Fig. 25 shows another embodiment of the PC beam installed on the opposite side of Fig. 23, Fig. 26 shows a PC beam used in another embodiment of the lamp structure using the PC column and PC beam according to the present invention and its construction method .

Another embodiment of the lamp structure using the PC column and the PC beam of the present invention relates to an inclined ramp structure to which a person or a vehicle passes,

And a claw portion 210 protruding from the upper end of the column main body portion 220. The side surface of the claw portion 210 and the side surface of the column main body portion 220 are respectively connected to a horizontal beam connecting plate 270 A PC column 200 to which an inclined beam connecting plate 270 'is attached;

And a PC beam 100 attached to an end of the beam concrete 130 with a beam plate 150 coupled to the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 ' The PC beam 100 is horizontally coupled to the beam connecting plate 270 and the PC beam 100 is coupled to the inclined beam connecting plate 270 in an inclined manner in accordance with the inclination of the ramp.

34 to 35 illustrate that the inclined beam connecting plate can be installed in a free position in the present invention.

The inclined beam connecting plate 270 can be attached at a predetermined position from the upper end (a) to the lower end (b) of the column main body 220, So that it can cope with the inclination and height of various lamps.

Figs. 27 to 32 show another embodiment of the method of constructing the lamp structure using the PC column and the PC beam according to the present invention, and Fig. 33 shows the PC beam of the lamp part.

32 and the like, the PC beam 100 includes a compensating portion reinforcing bar 160, a reinforcing steel frame 110, and a beam lower reinforcing bar 160 'in order from the top to the bottom of the beam plate 150 Bonded,

The beam reinforcing member 160 and the beam member 110 and the beam member 160 are both enclosed in the beam concrete 130. The beam member 130 and the beam plate 150 A concrete miter tongue 180 is formed on the upper part to expose a part of the compensating part reinforcing bar 160 and a part of the supporting steel frame 110 so that the concrete miter tongue part 180 is exposed through the concrete miter tongue 180, An inner bolt IR is fastened between the connecting plate 270 and the inclined beam connecting plate 270 so that the beam plate 150 and the horizontal beam connecting plate 270, The inclined beam connecting plates 270 'are firmly adhered to each other and stress transmission between the PC beam 100 and the PC column 200 is performed.

29 to 32 and the like, in the present invention, instead of joining the compensating portion reinforcing bar 160 to the beam plate 150,

The compensating portion reinforcing bar 160 passes through the beam plate 150 and is fastened to the rear surface of the beam plate 150 so that a nut is projected therebetween and the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 ' The nut inserting portions 271 and 271 'are formed by guiding the nut from the upper portion thereof.

29, the guide G protrudes from the side of the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 ', and the guide plate G' 150 are vertically lowered.

33 shows that the PC beam is inclinedly coupled to the PC column in the ramp portion. As shown in FIG. 33, the compensating portion reinforcing bar 160 is bent just before passing through the beam plate 150, And penetrates vertically.

8, the PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130. The slab structure 400 is attached to the anchor bolts AB, Is fastened.

18 to 22, another embodiment of the method of constructing the lamp structure using the PC column and the PC beam of the present invention uses another embodiment of the lamp structure using the PC column and the PC beam,

(1) a PC column mounting step in which the two PC columns 200 are installed so that the inclined beam connecting plates 270 'face each other;

(2) an oblique beam mounting step of connecting the beam plate 150 to the oblique beam connecting plate 270 'while the PC beam 100 is being loaded;

(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);

(4) a horizontal beam installing step of coupling the beam plate 150 to the horizontal beam connecting plate 270 by using the PC beam 100;

(5) a slab installing step of continuously installing a slab (not shown) on the beam concrete 130.

36 to 38 show another embodiment of a method of constructing a lamp structure using PC columns and PC beams according to the present invention in order.

36 to 38, another embodiment of the method of constructing the lamp structure using the PC column and the PC beam of the present invention,

One end of the buried coupler 292 having the column fixing barb 290 coupled to the other end thereof is joined to the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 '

And a bolt passing through the beam plate 150 is fastened to one end of the buried coupler 292.

A plurality of the embedded couplers 292 are installed and a compensating portion reinforcing bar 160 passing through the beam plate 150 is fastened to one end of the buried coupler 292.

37, a beam filler plate BPP is provided between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 'and the beam plate 150, In addition,

And the gap between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 'and the beam plate 150 is adjusted.

In another embodiment, a beam filler plate (BPP) is installed between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 'and the beam plate 150 A bolt passing through the beam plate 150 and the beam filler plate BPP is fastened to one end of the buried coupler 292,

The beam filler plate BPP adjusts the gap between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 ' do.

As a result, the present invention improves the conventional lamp structure used in a parking lot, etc. By using a factory-built PC deviating from a lamp structure constructed by a steel frame or a ramen structure, an unskilled worker can quickly and safely construct the lamp with a predetermined quality In particular, it provides a ramp structure using PC columns and PC beams that do not require separate refractory sheathing, and a construction method thereof. In particular, a new concept parking structure The precast member is applied to improve the economical efficiency and the workability.

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.

AB: Anchor bolt
IR: internal bolt
G: Guide
BPP: Beam filler plate
100: PC Bo
110:
130: beam concrete
150: Beam plate
160:
160`: Beam bottom reinforcement
180: Concrete miter shoe
200: PC column
210:
220:
230: Horizontal bracket
250: Slope bracket
270: Horizontal beam connecting plate
270`: Beam connection plate
271, 271 ': nut insertion portion
292: Buried coupler
300: reinforcing plate
400: slab structure

Claims (31)

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sloped lamp structure,
And a claw portion 210 protruding from an upper end of the column main body portion 220. Horizontal brackets 230 are formed on the side of the cobbled portion 210 and the side surfaces of the column main body portion 220, A PC column 200 in which an inclined bracket 250 is protruded;
A PC beam 100 protruding from the ends of the beam concrete 130 protruding from the horizontal bracket 230 and the inclined bracket 250;
, ≪ / RTI >
The PC bracket 100 is horizontally coupled to the horizontal bracket 230,
Wherein the inclined bracket (250) is inclined upwards or downwards so that the PC beam (100) is inclined to the inclination of the ramp.
The method of claim 1,
Since the inclined bracket 250 may protrude to a predetermined position from the upper end (a) to the lower end (b) of the column main body 220, various inclination and height of the lamp And a lamp structure using a PC column and a PC beam.
3. The method according to claim 1 or 2,
On the upper portion of the joint between the horizontal bracket 230 and the steel frame 110 or the upper portion of the joint between the inclined bracket 250 and the steel frame 110,
Since the T-shaped reinforcing plate 300 is joined so that the upper end of the reinforcing plate 130 is equal in height to the upper end of the beam concrete 130 in order to ensure continuity of the upper surface of the beam concrete 130,
Wherein a slab (not shown) can be continuously installed on the reinforcing plate (300) and the beam concrete (130).
3. The method according to claim 1 or 2,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
4. The method of claim 3,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
The lamp structure using the PC column and the PC beam of claim 4 is used,
(1) a PC column 200 in which the inclined bracket 250 is inclined downward and a PC column 200 in which the inclined bracket 250 is inclined upward are installed so that the inclined brackets 250 face each other, Column installation phase;
(2) an inclined beam mounting step of coupling the steel beam 110 of the PC beam 100 to the inclined bracket 250;
(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);
(4) a horizontal beam mounting step of coupling the steel beam 110 of the PC beam 100 to the horizontal bracket 230;
(5) a reinforcing plate joining step of joining the reinforcing plate 300 to an upper part of the joining part of the horizontal bracket 230 and the supporting steel frame 110;
(6) installing a slab (not shown) continuously on the reinforcing plate 300 and the beam concrete 130;
The method of claim 1, further comprising:
The lamp structure using the PC column and the PC beam of claim 5 is used,
(1) a PC column 200 in which the inclined bracket 250 is inclined downward and a PC column 200 in which the inclined bracket 250 is inclined upward are installed so that the inclined brackets 250 face each other, Column installation phase;
(2) an inclined beam mounting step of coupling the steel beam 110 of the PC beam 100 to the inclined bracket 250;
(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);
(4) a horizontal beam mounting step of coupling the steel beam 110 of the PC beam 100 to the horizontal bracket 230;
(5) a reinforcing plate joining step of joining the reinforcing plate 300 to an upper part of the joining part of the horizontal bracket 230 and the supporting steel frame 110;
(6) installing a slab (not shown) continuously on the reinforcing plate 300 and the beam concrete 130;
The method of claim 1, further comprising:
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sloped lamp structure,
And a claw portion 210 protruding from the upper end of the column main body portion 220. The side surface of the claw portion 210 and the side surface of the column main body portion 220 are respectively connected to a horizontal beam connecting plate 270 A PC column 200 to which an inclined beam connecting plate 270 'is attached;
A PC beam 100 to which a beam plate 150 attached to the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 'is attached to an end of the beam concrete 130;
, ≪ / RTI >
The PC beam 100 is horizontally coupled to the horizontal beam connecting plate 270,
The ramp structure using the PC column and the PC beam is characterized in that the PC beam 100 is coupled to the inclined beam connecting plate 270 'in an inclined manner according to the inclination of the ramp.
9. The method of claim 8,
The inclined beam connecting plate 270 may be attached at a predetermined position from the upper end (a) to the lower end (b) of the column main body 220. Therefore, depending on the mounting position of the PC column 200, And the height of the ramp can be matched with that of the PC column and the PC beam.
10. The method according to claim 8 or 9,
The compensating part reinforcing bar 160, the supporting steel frame 110 and the beam lower reinforcing bar 160 'are sequentially joined to the lower part of the PC plate 100 from above the beam plate 150,
The beam reinforcing bar 160, the beam member 110 and the beam member 160 'are all wrapped with the beam concrete 130,
A concrete miter portion 180 is formed at an upper portion of the joining portion of the beam concrete 130 and the beam plate 150 such that a part of the compensating portion reinforcing bar 160 and a part of the beam supporting frame 110 are exposed,
An inner bolt (IR) is fastened between the beam plate 150 and the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 'through the concrete miter tongue 180,
The inner bolt (IR) tightens the contact between the beam plate 150 and the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 ', and the PC beam 100 and the PC column 200) is transmitted through the PC column and the PC beam.
11. The method of claim 10,
Instead of the compensating portion reinforcement 160 being bonded to the beam plate 150,
The compensating portion reinforcing bar 160 is inserted through the beam plate 150 and is fastened to the back surface of the beam plate 150 so as to project a nut,
And the nut insertion portions 271 and 271` are formed in the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 ' Lamp structure.
10. The method according to claim 8 or 9,
A guide G protrudes from the side of the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 '
And the guide plate (150) is guided to vertically descend due to the guide (G).
12. The method of claim 11,
A guide G protrudes from the side of the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 '
And the guide plate (150) is guided to vertically descend due to the guide (G).
12. The method of claim 11,
Wherein the compensating portion reinforcing bar (160) is bent immediately before passing through the beam plate (150) to vertically penetrate the beam plate (150).
The method of claim 13,
Wherein the compensating portion reinforcing bar (160) is bent immediately before passing through the beam plate (150) to vertically penetrate the beam plate (150).
10. The method according to claim 8 or 9,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
11. The method of claim 10,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
12. The method of claim 11,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
The method of claim 12,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
The method of claim 13,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
The method of claim 14,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
16. The method of claim 15,
The PC beam 100 is manufactured by embedding anchor bolts AB projecting upward into the beam concrete 130,
And the slab structure (400) is fastened to the anchor bolt (AB).
The lamp structure using the PC column and the PC beam of claim 16 is used,
(1) a PC column mounting step in which the two PC columns 200 are installed so that the inclined beam connecting plates 270 'face each other;
(2) an oblique beam mounting step of connecting the beam plate 150 to the oblique beam connecting plate 270 'while the PC beam 100 is being loaded;
(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);
(4) a horizontal beam installing step of coupling the beam plate 150 to the horizontal beam connecting plate 270 by using the PC beam 100;
(5) a slab installing step of continuously installing a slab (not shown) on the beam concrete 130;
The method of claim 1, further comprising:
The lamp structure using the PC column and the PC beam of claim 17 is used,
(1) a PC column mounting step in which the two PC columns 200 are installed so that the inclined beam connecting plates 270 'face each other;
(2) an oblique beam mounting step of connecting the beam plate 150 to the oblique beam connecting plate 270 'while the PC beam 100 is being loaded;
(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);
(4) a horizontal beam installing step of coupling the beam plate 150 to the horizontal beam connecting plate 270 by using the PC beam 100;
(5) a slab installing step of continuously installing a slab (not shown) on the beam concrete 130;
The method of claim 1, further comprising:
The lamp structure using the PC column and the PC beam of claim 18 is used,
(1) a PC column mounting step in which the two PC columns 200 are installed so that the inclined beam connecting plates 270 'face each other;
(2) an oblique beam mounting step of connecting the beam plate 150 to the oblique beam connecting plate 270 'while the PC beam 100 is being loaded;
(400) to the anchor bolt (AB) so that the end of the slab (3) extends over the PC beam (100);
(4) a horizontal beam installing step of coupling the beam plate 150 to the horizontal beam connecting plate 270 by using the PC beam 100;
(5) a slab installing step of continuously installing a slab (not shown) on the beam concrete 130;
The method of claim 1, further comprising:
3. The method according to claim 1 or 2,
Wherein a joining portion of the horizontal bracket 230 and the supporting frame 110 or a joining portion of the inclined bracket 250 and the supporting steel frame 110 is molded and filled with concrete or mortar. And lamp structure using PC beam.
10. The method according to claim 8 or 9,
One end of the buried coupler 292 having the column fixing barb 290 coupled to the other end thereof is joined to the horizontal beam connecting plate 270 and the inclined beam connecting plate 270 '
And a bolt passing through the beam plate (150) is fastened to one end of the buried coupler (292).
28. The method of claim 27,
Wherein a plurality of the embedded couplers 292 are installed and a compensating portion reinforcing bar 160 passing through the beam plate 150 is fastened to one end of the buried coupler 292 among the buried couplers 292. [ Lamp structure.
10. The method according to claim 8 or 9,
A beam filler plate BPP is provided between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 and the beam plate 150,
And the gap between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 'and the beam plate 150 is adjusted. rescue.
28. The method of claim 27,
A beam filler plate BPP is installed between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 and the beam plate 150, 292 are bolted through the beam plate 150 and the beam filler plate BPP,
The beam filler plate BPP adjusts the gap between the horizontal beam connecting plate 270 and the beam plate 150 or between the beam connecting plate 270 ' Lamp structure using PC columns and PC beams.
3. The method according to claim 1 or 2,
Wherein a plurality of the cobbles (210) protrude from the upper end of the column main body (220) with different protruding directions.

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