KR20100106274A - Dry connection for a prefabricated beam-column structures and construction method by that connection - Google Patents

Abstract

PURPOSE: A dry type joint structure for a prefabricated beam-column structure and a construction method thereof are provided to reduce construction time by installing a column and a beam by connecting a PC column and a PC beam. CONSTITUTION: A dry type joint structure for a prefabricated beam-column structure is composed as follows. Reinforcing bars protruded from both ends of a PC beam are fixed to a reinforcing bar anchorages(32) of a steel block(30). Through holes(31) formed in both sides of the steel block correspond to elastic members(60) with through holes(61). Resistance washers(50) are formed on the rear surface of the steel block. Anchor bolts(40) fix the resistance washers, the through holes, and the elastic members to an anchorage(11) of a PC column(10).

Description

Dry Connection for a Prefabricated Beam-column Structures and Construction Method by that Connection}

Particular considerations in the construction of prefabricated buildings are election tolerances.

This error can be classified into various causes, such as errors occurring during the production or transportation of materials, errors occurring during construction, and errors caused by climate and construction loads.

In order to facilitate construction, some tolerances are necessary.

In the prefabricated buildings that are being constructed recently, the PC beams or steel beams are joined to the PC columns (PC columns), which are installed on the PC columns through steel block holes connected to the main beams (or steel beam flanges) of the PC beams. Steel joint structure can be seen in detail by fixing the anchor bolt to the anchorage with a nut.

In the present invention, it is possible to solve the problem of the initial stiffness deterioration that occurs mainly in the bolted joint structure as described above, and to propose a new bonding detail that can significantly increase the construction tolerance, the moment resistance ductility that can increase the seismic reinforcement performance The present invention relates to a dry joint structure of a prefabricated beam-column structure having excellent workability and economical efficiency through a simple construction, and a construction method thereof.

In general, in the construction and civil engineering, there are construction methods by placing concrete in the field, and construction methods for assembling the PC member manufactured in advance in the factory.

The PC member is manufactured in the factory in the most ideal condition by concrete, etc., and then transported and constructed to the site, which can shorten the construction period and thereby reduce the construction cost. There is a very good advantage, such as overcoming the quality degradation.

Which major structural joint details are used in the prefabrication process is an important factor in determining construction success. Therefore, in the prefabricated method, the details related to the joining of the PC column and the PC beam or the PC column and the steel frame beam are very important element technologies that determine the constructability, safety, efficiency, and quality of the PC construction.

FIG. 17 is a prior art filed by the applicant as a prior art filed in Japanese Patent No. 0919701, which is provided in the PC pillar 100 and is exposed to the outside; Steel block 130 is provided integrally with the PC beam 120, the opening hole 132 corresponding to the joining member 110 is formed; PC, characterized in that it comprises a fastening member 140 for fastening the steel block 130 and the joining member 110 so that the PC pillar 100 and the PC beam 120 can be joined. It can be seen that the joint structure of the pillar 100 and the PC beam 120 is known.

However, the Patent No. 0919701 has an advantage of improving the joinability of the PC pillar 100 and the PC beam 120, but when the PC beam is connected to the installed PC pillar is fitted in the opening of the joint and the opening of the steel block If the position of the alignment member and the fastening member does not exactly match, there was a lot of difficulty in connecting the PC beam to the PC pillar.

In other words, all concrete columns, such as pillars built and placed in the field, or columns using PC pillar members, generate errors as they rise from the ground to the upper part, and the errors range from a few millimeters (mm) to many cm (cm). Since the location of the joints pre-installed in the PC column and the opening hole position of the steel block fixed to both ends of the PC beam do not coincide on the horizontal line, it takes a lot of time and difficulty to connect the PC column and the PC beam using the fastening member. There is a problem that occurs.

In addition, the "initial stiffness reduction" that occurs frequently in such a bolted joint causes a critical problem in using it as a seismic structural joint.

In other words, the load displacement curves obtained in the test of these joints mainly show the form of initial increase in load, large deformation, and restoration of original stiffness when the load is above a certain portion.

The initial stiffness may be based on problems with steel block and column joint smoothness and errors due to back-lusch between bolt threads.

In existing bolted joints, there is only steel aggregate without any elastomer between the bolt and column anchor anchor.

Therefore, simply winding the bolt with a wrench does not generate prestressing force on the bolt body. Since the initial stiffness deterioration causes deformation without increasing the load, the final deformation increases indefinitely by the P-Δ effect, thereby providing a decisive cause for the loss of the function as the earthquake resistance due to dynamics.

 It can be said that the initial stiffness drop does not occur when the bolt is tensioned and its magnitude is greater than the load that restores the original stiffness. Therefore, if the restoring force due to the contraction of the elastic member is reduced to the bolt tension force by tightening the bolt by using an elastic body such as rubber, an error caused by the back block (lunch) phenomenon between the steel block and the column joint surface smoothness problem and the bolt thread The initial stiffness deterioration is thought to be largely solved.

The present invention is to solve the above problems, the amount of steel block through holes formed on both sides of the steel block to facilitate the workability of the joining of the PC column and PC beam and easier than the bolt itself diameter (1.5) ~ 3 times) to form an anchor bolt through hole, and place the elastic member on the front side of the through hole and the load bearing washer on the rear side, and form a large through hole formed between the elastic member and the load washer. It relates to the details of the joint structure of the PC column and PC beam (or PC column and steel ball) to correct the bolt simply and easily by fixing it even if the hole position is shifted to some extent.

In the present invention having the above object in connecting and connecting the PC beam to the PC pillar with anchor bolts, the steel blocks protruding from both ends of the PC beam through the steel anchor of the steel block, welding, screw thread or bolt nut coupling method The steel block is brought into the site in a sieve coupled to the lower and upper ends of the PC beam. In the erecting process, the PC beam approaches the end of the PC beam so as to correspond to the anchorage installed on the side of the PC pillar after lifting both sides. Is installed between the steel block and the steel block through hole, and installs a load washer on the back of the steel block through hole to connect the PC beam to the PC pillar by penetrating the load washer, through hole and elastic member to the anchorage of the PC pillar. Is done.

In the present invention connected in this way, the through-holes formed at both sides of the steel block block are formed to be larger than a certain size larger than the diameter of the joints installed in the PC pillar, so that the anchor bolts are used even if the position of the joints installed in the PC pillar does not coincide with the center of the Kanto hole. By adjusting to match the position of the junction in the through-hole can easily fasten the steel block to the PC pillar.

At this time, the anchor bolt is supported by a load-bearing washer having a larger inner diameter than the diameter of the through hole, and a generally used washer ring supports the anchor bolt head at the rear of the load washer.

In addition, the elastic member located between the front of the steel block and the PC pillar to compensate for the error of the post tilted back and forth, and a certain amount of tension caused by the contraction of the elastic member in the bolted joint is transmitted to the bolt body to prevent the initial stiffness deterioration Since the gap 21 between the column and the beam is in contact with each other, the amount of shrinkage of the elastic member that is generated allows for more advanced construction and structural analysis by predicting the magnitude of the initial tension force transmitted to the bolt.

The present invention as described above corrects the fastening position in the through hole of the steel block even if the through-hole of the steel block and the junction of the PC pillar is shifted in the error range extended vertically and horizontally in the connection construction of the PC pillar and PC beam It is to provide a joint structure of PC pillars and PC beams that can connect PC pillars and PC beams firmly and quickly.

The present invention has the effect of shortening the air and convenient construction by installing a column and a beam by connecting the PC column and PC beam.

 In particular, the present invention by making the diameter of the through-holes formed on both sides of the steel block greater than a certain size larger than the joints of the PC pillar by correcting the distance error of the left, right, top, bottom to facilitate the coupling of anchor bolts and joints, elastic member By correcting the error of the front and rear surface by using it can also easily and securely fasten the connection between the anchor bolt and the joint, there is an effect that can improve the joint construction of the PC column and PC beam.

1 is an exploded perspective view showing a connection state of the steel frame and the PC pillar of the present invention.
Figure 2 is an illustration of a state in which the anchor bolt of the present invention is located at the top and bottom in the steel block through hole connected to the junction of the PC pillar.
Figure 3 is an illustration of a state in which the anchor bolt of the present invention is located on the left and right in the steel block through hole connected to the junction of the PC pillar.
Figure 4 is an illustration of a state in which the anchor bolt of the present invention is connected to the junction of the PC pillar at one side within the steel block through hole.
Figure 5 is an illustration of a state in which the anchor bolt of the present invention is located on the left and bottom in the steel block through-holes respectively connected to the junction of the PC pillar.
Figure 6 is a partial perspective view showing a state connecting the PC column and the PC beam using the anchor bolt and steel block of the present invention.
Figure 7 is a side cross-sectional view showing a state of bonding the PC column and the PC beam using the anchor bolt and steel block of the present invention.
Figure 8 is a planar cross-sectional view showing a state of bonding the PC column and the PC beam using the anchor bolt and steel block of the present invention.
Figure 9 is an exploded perspective view showing a state of joining the PC column and PC beam of the present invention using a steel block and anchor bolt.
Figure 10 is a side view showing a state of bonding the PC column and PC beam of the present invention using a steel block and anchor bolt.
Figure 11 is a plan view showing a state of bonding the PC column and PC beam of the present invention using a steel block and anchor bolt.
Figure 12 is a perspective view showing a state in which the PC column and PC beam of the present invention bonded using a steel block and anchor bolt.
Figure 13 is a flow perspective view showing the process sequence showing the assembly process of the PC pillar and cheolgolbo as another embodiment of the present invention.
Fig. 14 is a cross section of a PC column as one example according to the present invention.
Figure 15 is an exploded perspective view showing the constitution of the PC pillar and cheolgolbo according to the present invention.
Figure 16a and Figure 16b is a process flow diagram for constructing a PC column and PC beam of the present invention using a steel block and anchor bolt,
(a) preparing the second floor construction;
(b) building a two-layer PC column by splice joints;
(c) the main flying foam installation step,
(d) assembling the PC beam and PC pillar by the bolt assembly method proposed in this study;
(e) the steps of installing the accessory flying foam and completing the bolt assembly process;
(f) reinforcing the slab reinforcement on the flying foam,
(g) pouring topping concrete,
(h) removing the flying foam,
(i) finishing after finishing work,
Figure 17 is a partial perspective view showing a combined state of the conventional PC column and PC beam.

Hereinafter, an embodiment of the present invention will be described in detail.

In the connection structure of the PC column and the PC column using the anchor bolt and the steel block,

Anchor bolt 40 through holes 31 fixed to both ends of the PC beam 20 and having a predetermined size or more (1.5 to 3 times) larger than the diameter of the anchor bolt anchorage 11 formed on the PC pillar 10 on both sides. Forming a steel block 30 is formed on the side and a plurality of reinforcement anchorage (32);

Located in the rear of the steel block 30 and the slot-shaped load-bearing washer hole 51 is formed, the load-bearing washer 50 and the body diameter is larger than the through hole 31 of the steel block 30;

An elastic member 60 positioned in front of the steel block 30 and having a slot-like elastic member through hole 61 formed therein, and having a larger body diameter than the through hole 31 of the steel block 30;

Reinforcing both ends of the reinforcing bar 70 of the PC beam 20 through the reinforcing bar anchorage 32 of the steel block 30, the anchor bolt 40 washer (52), washer through the load-bearing washer (50) (51), the steel block through hole 31, and through the elastic member through hole 61 is characterized in that the fastening and bonding to the anchor bolt anchorage (11) of the PC column (10).

The fixing unit 11 formed in the PC pillar is characterized in that consisting of a nut ball is coupled to the anchor bolt.

The splice formed on the PC pillar is characterized in that the primer is filled so as to bond the anchor bolt.

The elastic member is characterized in that made of any one of urethane, reinforcement rubber, synthetic resin embedded in one of fiberglass, rigid, iron wire.

Reinforcing bars protruding from both ends of the PC beam is characterized in that the reinforcement of the steel block is fitted by welding or threaded.

The bonding method of the PC column and the PC beam of the present invention to be bonded as described above is as follows.

Fixing the reinforcing bars to the reinforcing bars by matching the steel blocks;

PC beam 20 having a stepped portion 21 so that the reinforcing bar 70 is exposed and the steel frame block 30 is installed by using the steel block in which the reinforcing bars are fixed to the reinforcing bars at both end portions of the upper and lower ends of the PC beam. Producing);

Connect the PC beam to the PC column, but at both ends of the PC beam correspond to the elastic member between the front of the through-hole of the steel block and the PC pillar, and to match the load bearing washer to the back of the anchor bolt and the anchor bolt of the PC pillar It characterized in that the step of bonding by adjusting the coupling position of the anchorage.

Referring to the bonding structure according to the bonding method of the PC beam and PC pillar of the present invention configured as described above are as follows.

Step 1: prepare the PC beam

The column and beam used in the present invention are produced in the factory by calculating the length and width of the column and the length and width of the beam according to the design of the building to be stretched by using PC products.

After the steel blocks 30 correspond to the upper and lower stepped portions 21 of the prepared PC beam 20, the rebars 70 exposed at both ends of the PC beam 20 are exposed through both sides of the steel block 30. 31) sandwiched between a plurality of reinforcing bar anchorage 32 formed between the steel block 30 is fixed by welding or screw thread on the rear side.

At this time, the joining method of the steel block and the large diameter reinforcing bar may be fixed by welding, or may be performed by forming a screw thread on the end of the reinforcing bar and the steel block itself, and may be connected by other joints. Connected steel block and large diameter reinforcing bar can be produced by fixing the steel block 30 to the stepped portion 21 in the PC beam 20 production process.

In addition, the elastic member 60 is inserted between the front side of the steel block 30 and the steel frame block 30 entered into the inner side of the PC beam stepped portion 21 is fixed to enter the inner side by a predetermined length from the entire thickness of the elastic member. Until the anchor bolt is fastened to the intermediate portion of the PC beam end so that the space portion 80 is formed by combining so as to be spaced apart (21) from the PC column (10).

Then, when the elastic member 60 is contracted by the fastening of the anchor bolts 40, the PC pillars and the ends of the ends are configured to be in close contact.

Step 2: prepare the PC pillar

The PC column 10 installs a plurality of nut fixing holes 11 at the position where the PC beam 20 is connected.

The fixing unit 11 may be installed so that the surface of the nut member is exposed so that the anchor bolt 40 is fastened.

In addition, the fixing unit 11 forms a hole in the PC pillar 10 and fills the primer therein so as to fix the anchor bolt 40 to be inserted.

Step 3: joining PC beams to PC columns

After coupling the steel block to the end of the PC beam is connected to the PC beam PC beam.

When the PC beam is connected to the PC column, the elastic member 60 corresponds to the front side of the steel block 30 through hole 31 coupled to the stepped portion 21 of the PC beam, and the load bearing washer 50 on the rear side of the steel block 30. ) Through the anchor bolt 40 through the load-bearing washer 50, the through-hole 31, the elastic member 60 to be fixed to the fixing unit 11 of the PC pillar 10 by fixing to the PC pillar The PC beam 20 can be bonded to 10.

At this time, the elastic member is placed in a compressed state between the steel block and the PC pillar, and the PC beam stepped portion between the upper steel block and the lower steel block is joined in a state in close contact with the PC pillar.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings of the present invention.

1 is an exploded perspective view showing a state in which the steel block of the present invention is connected to the PC pillar, the steel block 30 is fixed to both ends of the PC beam 20 to form a circular through hole 31 on both sides, but through The diameter of the hole 31 is formed to be a predetermined size or more than the diameter of the fixing unit 11 formed in the PC pillar (10).

For example, when the M36 bolt is used, if the size of the bolt and the diameter of the plurality of fixing holes 11 are 36 mm, the diameter of the plurality of through holes 31 formed in the steel frame block 30 is 46 mm to 120 mm.

In addition, the elastic member 60 corresponding to the front surface of the through hole 31 of the steel block 30 has a slot-type elastic member through-hole 61 is formed in the center portion, the rear of the bearing member 50 is formed in the slot portion in the center portion The through hole 51 is formed.

The length of the through holes 51 and 61 formed in the strength washer 50 and the elastic member 60 is formed to the same size as the diameter of the through hole 31 of the steel block 30.

At this time, the body diameter of the load-bearing washer 50 and the elastic member 60 is formed larger than the diameter of the through hole 31 of the steel block 30, but smaller than the depth of the steel block 30.

The steel block formed as described above is fixed to the reinforcing bar 70 at a position entered by a predetermined length than the thickness of the elastic member inwardly from both side step portions 21 of the PC beam 20.

As described above, the steel block fixed above and below the PC beam is inserted into the through hole 31 and the elastic member 60 after inserting the anchor bolt 40 into the washer 52 and the bearing washer 50 when connecting to the PC pillar. It is inserted into the fixing unit 11 of the PC pillar.

The anchor bolt 40 coupled to the anchorage 11 is adjusted to a position in the through hole 31 by the anchor bolt 40 even though the center of the through hole 31 and the anchorage 11 do not coincide with each other. ) Can be tightened.

The load-bearing washer 50 is preferably a steel product, but may use a synthetic resin material having a strength that can withstand the tightening of the bolt, if necessary.

The elastic member may be molded of rubber, urethane, synthetic resin, or the like.

The elastic member corrects the error of the horizontal distance of the joint when the PC beam 20 is coupled to the PC pillar 10.

Figure 2 is an illustration of a state in which the anchor bolt of the present invention is located in the upper and lower portions of the steel block through hole connected to the anchorage of the PC pillar, Figure 3 is the anchor bolt of the present invention is located on the left and right in the steel block through hole Figure 4 is an illustration of the state connected to the anchorage of the PC pillar, Figure 4 is an illustration of the anchor bolt connected to the anchorage of the PC pillar at one side within the steel block through hole, Figure 5 is an anchor bolt of the present invention steel block through hole It is an exemplary view of the state that is located at the left and bottom of the inside and connected to the anchorage of the PC pillar.

Figure 2 shows a state where the coupling position is coupled to the upper and lower positions in the through hole 31 when the anchor bolt 40 of the steel block is connected to the fixing unit 11 of the PC pillar.

3 shows a state in which the anchor bolts 40 of the steel block are coupled to the fixing holes 11 of the PC pillars at the left and right sides of the through holes 31.

Figure 4 shows the anchor bolt 40 of the steel block is coupled to the coupling position is located in the state of being driven to the upper one side in the through hole 31 when connected to the fixing unit 11 of the PC pillar.

FIG. 5 shows a state in which the anchor bolts 40 of the steel block are coupled to the fixing holes 11 of the PC pillars at the left side and the lower side in the through hole 31.

Figure 6 is an excerpt of the main portion of the anchor bolt coupled position in the center (a), the upper portion (b), the lower portion (c) in accordance with the present invention, Figure 7 is the anchoring position of the anchor bolt according to the invention The main portion (a), right (b), left (c) showing the excerpt of the coupled state, the anchor bolt coupled to the junction in the Figure 2 to 5 of the present invention within the through hole of the steel block An excerpt of the position is shown.

2 to 5 show that the anchor bolt 40 is different from the position of the anchorage 11 formed in the PC pillar 10 when the PC beam 20 is connected to the PC pillar 10, thereby penetrating the steel block 30. The position adjusted to match the position of the fixing unit 11 in the hole 31 is shown. That is, the position of the load bearing washer 50 is located in the same position irrespective of the position of the PC column anchorage 11 in the steel block (30).

Therefore, if the same position of the washer is placed inside the inner part by a certain ratio of the depth of the washer, and the washer is placed therein, the bolt is inserted and the load washer is rotated by the bolt head when the length of the extra bolt is less than the predetermined length. Since it does not bounce outside due to friction, it is easy to tighten the bolt with an electric wrench. In other words, the load-bearing washer is fixed and inserted into the groove section of the anchorage, so that even if the bolt is tightened with a wrench, the washer does not move and the front side of the washer touches the steel block 30 so that all surfaces can be joined. This enables a safe analysis and allows a safe construction with a smaller strength washer (50) thickness.

8 is a partial perspective view showing the state of connecting the PC pillar and the PC beam using the anchor bolt and the steel block of the present invention, while joining the PC beam to the built PC pillar, the elastic member 60 is located on the front of the steel block, The load bearing washer 50, anchor bolt 40 and the reinforcing bar 70 is located on the rear of the steel block 30 shows the connection state bonded to the PC pillar.

At this time, the space portion 80 is formed between the steel block 30 and the PC beam stepped portion 21 installed on the stepped portion of the PC beam connected to the PC member connected to the PC pillar, the space portion 80 thereof Through the anchor bolt 40 can be fastened with a tool.

9 is a side cross-sectional view showing a state of bonding the PC column and the PC beam using the anchor bolt and the steel frame of the present invention, Figure 10 is a state of bonding the PC column and PC beam using the anchor bolt and the steel block of the present invention It shows a planar cross-sectional view.

9 and 10 illustrate a state in which the PC beam 20 is connected to the PC pillar 10 through a steel block, and the anchor bolt 40 is formed in the through hole 31 of the steel block 30. It is fastened to the anchorage 11 installed in the PC pillar by moving the position, the load-bearing washer 50 corresponding to the head of the anchor bolt has a larger diameter than the through-hole 31 of the steel block anchor bolt ( Wherever 40 is located in the through hole 31, the tightening force of the anchor bolt is transmitted to the steel block to be firmly bound to the PC column.

In addition, the reinforcing bars 32 of the steel block 30 is to be in a state of being supported by the reinforcing bars of the PC beam PC beam 20 is connected to the PC pillar.

The elastic member 60 is located between the steel block 30 and the PC pillar 10, the vertical gap of the anchor bolt 40 and the fixing opening 11 of the PC pillar 10 is generated by the vertical slope of the PC pillar. At the same time to compensate for the elastic member 60 to compensate for the distance between the PC beam and the PC pillar horizontal.

9 and 10, the elastic member 60 located between the steel block and the PC pillar is compressed by the tightening force of the anchor bolt, and the PC beam stepped portion is in close contact with the PC pillar.

Figure 11 is an exploded perspective view showing the bonding process using the steel pillar and the PC beam and the PC beam of the present invention, Figure 12 is a play 21 before the connection between the PC column and PC beam of the present invention using the anchor bolt FIG. 13 is a plan view showing a state in which the PC column and the PC beam of the present invention are bonded using a steel block and an anchor bolt, and FIG. 14 is the PC column and the PC beam of the present invention with a steel block and an anchor. As a perspective view showing a state bonded using a bolt, Figures 11 to 14 of the present invention shows a state in which the construction of the PC column and the PC beam by using a steel block and the anchor bolt as a photograph.

That is, although the bonding structure of the PC pillar and the PC beam of the present invention has been described with reference to FIGS. 1 to 10, FIGS. 11 to 14 are shown to clearly show the bonding configuration in a color photograph for drawing.

Therefore, in joining the PC column and PC beam, the steel block 30 corresponds to the upper and lower ends of the stepped portion 21 of the PC beam, but the steel block is installed inward by a predetermined ratio of the thickness of the elastic member at the uppermost end of the stepped portion. The washer 52 and the load bearing washer 50 correspond to the rear surface of the through-hole 31 of the steel block 30, and the elastic member is positioned in front of the through-hole.

The load-bearing washer 50 is installed so that the body portion is fitted into the through hole rear washer groove 53 of the steel block and the remaining washer body protrudes to the rear of the through hole.

In addition, the anchor bolt 40 is fitted into the washer ring 52, the load-bearing washer 50, the through hole 31, the elastic member 60 is fastened to the fixing opening 11 of the PC pillar 10 to the PC beam to the PC pillar. The connection is solid.

At this time, the elastic member is located between the junction and the steel block is compressed by the tightening force of the anchor and the top end surface of the stepped portion of the PC beam correspond to the PC pillar 10 in close contact.

As described above, the present invention shortens the air and facilitates the construction by installing the pillars and beams by connecting the PC columns and the PC beams.

In addition, when the diameter of a plurality of through holes formed through the steel block is larger than two times larger than the joints of the PC pillars, it is easy to combine the anchor bolt and the column anchorage by correcting the distance error of the left, right, top and bottom. By correcting the error of the front and rear surfaces by using the elastic member, it is also possible to simply and easily proceed the strong joint of the anchor bolt and the anchorage.

Figure 15 is an exploded perspective view showing the construction of the PC pillar and cheolgolbo according to the present invention, Figures 16a and 16b is a process flow diagram for constructing the PC column and PC beam of the present invention using a steel block and anchor bolt,

(a) preparing the second floor construction;

(b) building a two-layer PC column by splice joints;

(c) the main flying foam installation step,

(d) assembling the PC beam and PC pillar by the bolt assembly method proposed in this study;

(e) the steps of installing the accessory flying foam and completing the bolt assembly process;

(f) reinforcing the slab reinforcement on the flying foam,

(g) pouring topping concrete,

(h) removing the flying foam,

(i) It shows the completion stage after finishing work.

16A and 16B illustrate one process, and one process sequence is shown in a diagram in a relationship not shown on one page in the drawing.

10: PC pillar 11: Anchor bolt anchorage installed in PC pillar
20: PC show
21, 21 'Abdominal part between the steel blocks at the ends of PC beams or cheolgolbo close to the PC column
30, 30`: Steel block 31: Through hole
32: reinforcing bar 40: anchor bolt
50: load bearing washer 51: load bearing washer
52: washer ring 53: steel block groove
60: elastic member 61: elastic member through
70: Rebar 71: Nut
80: space part 500: bidirectional PC column
501: cheolgolbo 502: steel block installed in the cheolgolbo
503: Bidirectional PC column cross section 504: Welding joint

Claims (12)

In the joining structure of the PC column 10 and the PC beam 20 using the anchor bolt and steel block,
The plurality of anchor bolts 40 and the through-holes 31 are fixed to both ends of the PC beam 20 and have a predetermined size or more from 1.2 to 3 times larger than the diameter of the anchorage 11 formed in the PC pillar 10. A steel frame block formed therein and having a plurality of reinforcing bars 32 formed therein;
An elastic member 60 positioned in front of the steel block 30 and having a slot shape or a circular shape elastic member through hole 61 formed therein and having a larger body diameter than both through holes 31 of the steel frame block 30. Wow;
Located in the rear of the steel block 30 and the slot-type load-bearing washer through hole 51 is formed, the load-bearing washer 50 and the body diameter is larger than the through hole 31 of the steel block 30;
When joining the PC pillar 10 and the PC beam 20, the anchor bolt 40 washer 52, the washer through-hole 51 of the load-bearing washer 50, steel block through hole 31, Dry joining structure for the prefabricated beam-pillar structure, characterized in that the fastening through the elastic member through-hole 61 to the anchor bolt anchorage (11) of the PC column (10). In the joining structure of the PC pillar 10 and the cheolgolbo 501 using the anchor bolt and the steel block,
A plurality of anchor bolts 40 penetrating holes through a predetermined size or more from 1.2 times to 3 times larger than the diameter size of the anchorage 11 formed on the PC pillar 10 and fixed by welding or bolts at both ends of the cheolgolbo 501 ( 31) formed steel block 30;
An elastic member 60 positioned in front of the steel block 30 and having a slot shape or a circular shape elastic member through hole 61 formed therein and having a larger body diameter than both through holes 31 of the steel frame block 30. Wow;
Located in the rear of the steel block 30 and the slot-type load-bearing washer through hole 51 is formed, the load-bearing washer 50 and the body diameter is larger than the through hole 31 of the steel block 30;
When joining the PC column 10 and the cheolgolbo 501, the anchor bolt 40 washer 52, the washer through-hole 51 of the load-bearing washer 50, steel block through hole 31, elastic Dry joining structure for the prefabricated beam-pillar structure, characterized in that through the member through the hole 61 is fastened and bonded to the anchor bolt anchorage (11) of the PC column (10). The method according to claim 1 or 3,
The through hole 31 of the steel block 30 is characterized in that the washer groove is formed in the back washer is fitted, the load-bearing washer 50 is a portion of the body in the through hole rear washer groove 53 of the steel block Dry fitting structure for the prefabricated beam-column structure, characterized in that the remaining washer body is fitted so as to project to the rear of the through-hole. The method according to claim 1 or 2,
When joining the PC column 10 and the PC beam 20 or the PC column 10 and the cheolgolbo 501, the stepped portion 21 'of the PC beam 20 or the stepped portion 21' of the cheolgolbo 501 Corresponding to the steel block 30 in the upper and lower ends, the steel block is installed and fixed to the inside by a certain ratio of the thickness of the elastic member at the uppermost end of the stepped portion, the elastic member is stepped (21, 21 ') by the expected shrinkage length ) Protrudes from the steel block in front of the form, and when the elastic member 60 is contracted by fastening the anchor bolt 40, characterized in that the PC pillar and the center end (21, 21 ') is configured to be in close contact. Dry joint structure for prefabricated beam-column structure. The method according to claim 1 or 2,
The anchorage formed in the PC pillar is a dry joining structure for the prefabricated beam-pillar structure, characterized in that made of a nut ball filled with a primer coupled to the anchor bolt. The method of claim 1,
Joining method of steel block and large diameter reinforcing bar is prefabricated, characterized in that made of any one of the method of welding by welding, the method of fastening by forming a screw thread on the reinforcing bar end and the steel block itself, and the method of connecting the joint by the other steel Dry joint structure for beam-column structure The method of claim 2,
The joint fixing method of the steel block and the cheolgolbo 501 is a dry joint structure for the prefabricated beam-column structure, characterized in that made of any one of the welding method of welding, the connection by the vertical bolt fastening. The method according to claim 1 or 2,
The elastic member is a dry joint structure for the prefabricated beam-column structure, characterized in that made of any one of urethane, rubber, synthetic resin, strength-bearing rubber, fiber reinforced rubber. Using the joining structure of claim 1, the stepped portion 21 so that the reinforcing bar 70 is exposed and the steel block 30 is installed on both ends of the PC pillar and the nut fixing member 11 formed at the connection position of the PC beam. Preparing a PC beam 20 provided with;
Fixing the anchor bolts (40) to the PC column fixing holes (11) by corresponding steel blocks at both ends of the PC beams;
The PC beam is connected to the PC pillar, but the elastic member corresponds to the front side of the through hole of the steel block fixed to both ends of the PC beam, and the back of the bearing with the load-bearing washer in the through hole coupling position of the anchor bolt and the PC pillar Construction method according to the dry connection structure for the prefabricated beam-column structure, characterized in that the step of controlling the bonding.
Using the joint of claim 2, the steel column 30 is installed on both ends of the PC pillar and the nut pillar 11 formed in the connection position of the cheolgolbo to prepare the cheolgolbo 501 having a stepped portion 21 'step;
Fixing the anchor bolts (40) to the PC column fixing unit (11) by corresponding to the steel blocks of the upper and lower ends of the cheolgolbo;
Connect the cheolgolbo to the PC column, but correspond to the elastic member on the front of the through-hole of the steel block fixed to both ends of the cheolgolbo, and to match the load bearing washer in the rear, and then the coupling position of the anchor bolt and the connection of the PC pillar in the through-hole Construction method according to the dry joint structure for the prefabricated beam-column structure, characterized in that the step of controlling and bonding. Using the joint structure of claim 1,
(a) building a PC column by splice joints;
(b) installing the main flying foam;
(c) assembling the PC beam and the PC pillar by the proposed bolt assembly method;
(d) reinforcing the slab reinforcement on the flying foam;
(e) pouring topping concrete;
(g) removing the flying foam;
(h) a construction method according to the dry joint structure for the prefabricated beam-pillar structure, characterized in that the construction step including the completion step after the finishing work. Using the joint structure of claim 2,
(a) building a PC column by splice joints;
(b) assembling and installing the cheolgolbo and PC pillar by the proposed bolt assembly method;
(c) installing the deck on a steel beam;
(d) pouring topping concrete;
(e) finishing after finishing work; Construction method according to the dry joint structure for the prefabricated beam-column structure characterized in that the construction step comprising a.

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