JP5592220B2 - Precast member joining method - Google Patents

Description

The present invention relates to a bonding how the precast members utilizing sleeve joint.

  Various types of joints (so-called sleeve joints) that fill a sleeve with a filler (grouting material) such as non-shrink mortar have been proposed as one of the mechanical joints used when joining reinforcing bars. It is also used for joints between precast members. As disclosed in Patent Document 1, the joining structure of the precast member using the sleeve joint has a cylindrical sleeve embedded in the end of one of the precast members, and the reinforcing bars of the two precast members in the sleeve. The two precast members are made to face each other while abutting each other, and then the filler is filled in the sleeve.

  Since the filler for the sleeve joint is usually stronger than the concrete of the precast member, it is often used as a filler for the joint (gap) between the two precast members.

  In many cases, sleeve joints have received a structural rating that includes everything from materials to be used (sleeves, fillers) to construction procedures. In this case, use fillers specified by the manufacturer. There is a need.

Japanese Patent Laid-Open No. 10-147978

  When ultra high strength concrete is used as the concrete for the precast member, the compressive strength of the filler for sleeve joints may be lower than the compressive strength of the precast member. In this case, it is desirable to separately prepare a joint filler having a higher compressive strength than the sleeve joint filler.

  However, since the sleeve of the sleeve joint has a cylindrical shape and the surface facing the joint portion is open, the filler for the sleeve joint filled in the sleeve is mixed into the joint portion, or in the joint portion. There is a possibility that the filling filler for filling is mixed into the sleeve.

From this point of view, the present invention aims to provide a bonding how the filler and the filler and can be divided out a precast member to fill the joints to be filled into the sleeve.

  The precast member joining method according to the present invention includes a lid mounting step of mounting lid means having a female screw portion on a male screw portion of a reinforcing bar protruding from a concrete portion of a first precast member, and an end portion of a second precast member. A PCa member disposing step of causing the first precast member and the second precast member to face each other while inserting the reinforcing bar into the sleeve embedded in the sleeve, and rotating the female screw portion to thereby connect the lid means to the sleeve A lid pressing step of pressing against the opening edge of the sleeve, and filling the sleeve joint filler into the sleeve in a state where the lid means is pressed against the opening edge of the sleeve, and a concrete portion of the first precast member; Filling the joint between the concrete part of the second precast member and filling the joint filler. And butterflies.

  There is no restriction | limiting in the use and shape of a 1st precast member and a 2nd precast member, For example, it uses as a column, a beam, a column beam junction (panel zone), a wall, a floor, etc. The first precast member and the second precast member may be of the same type (for example, both are columns) or different types (for example, one is a column and the other is a beam).

  Reinforcing bars having a male threaded portion include not only threaded joint reinforcing bars but also deformed reinforcing bars that have been threaded. The lid means having the female thread portion includes, for example, a combination of a nut and a member that becomes a lid, a nut with a washer, and a member that has a female thread on a member that becomes a lid.

  There is no restriction | limiting in the filling order in a filling process. After one filling operation of the sleeve joint filler and the joint filler, the other filling operation may be performed, or may be performed simultaneously.

  According to the present invention, since the opening of the sleeve is closed by the lid means, the filler for the sleeve joint filled in the sleeve is prevented from entering the joint part, and similarly, the joint part is filled. The joint filler is prevented from entering the sleeve. That is, according to the present invention, it is possible to clearly distinguish between the filler for sleeve joints and the filler for joints.

In the present invention, the lid pressing step is performed in a state where the thickness of the joint portion is kept constant by a plurality of receiving members planted in at least one concrete portion of the first precast member and the second precast member. You may make it perform.
In addition, since it is necessary to set the thickness (height) of the joint part so that the lid means can be accommodated, as the height of the lid means increases, the thickness of the joint part also increases, and the filling for the joint part There is a possibility that the amount of the material used increases. When it is desired to reduce the thickness of the joint portion, a recess is formed on the end surface of the concrete portion of the first precast member, and the reinforcing bar protrudes from the bottom surface of the recess. What is necessary is just to accommodate a part of the height direction of a screw part in the said recessed part. If it does in this way, it will become possible to arrange | position a lid means, without enlarging the thickness of a joint part, and it will become possible to suppress the usage-amount of the filler for joints by extension.

  The lid pressing step may be performed after the sealing material is filled in the gap between the male screw portion and the female screw portion. In this way, the gap between the male screw portion and the female screw portion is also closed, so that leakage of the sleeve joint filler or joint filler can be reliably prevented.

According to the precast member joining method according to the present invention, it is possible to clearly separate the filler for sleeve joints and the filler for joints .

It is a figure which shows the joining structure of the precast member which concerns on embodiment of this invention, Comprising: (a) is a longitudinal cross-sectional view, (b) is the BB sectional drawing of (a). It is a disassembled perspective view which shows the joining structure of the precast member which concerns on embodiment of this invention. It is a longitudinal cross-sectional view for demonstrating the joining method of the precast member which concerns on embodiment of this invention, Comprising: (a) is explanatory drawing of a lid | cover mounting process, (b) is explanatory drawing of a PCa member arrangement | positioning process. It is a longitudinal cross-sectional view for demonstrating the joining method of the precast member which concerns on embodiment of this invention, Comprising: (a) is explanatory drawing of a lid | cover pressing process, (b) is explanatory drawing of a filling process.

  The precast member joining structure according to the embodiment of the present invention (hereinafter simply referred to as “joining structure”) is a joining structure using a sleeve joint, and as shown in FIG. 1, a second precast 2, a lid means 3, a sleeve joint filler 4, and a joint filler 5.

  In addition, in this embodiment, the case where both the 1st precast member 1 and the 2nd precast member 2 are pillars is illustrated.

The first precast member 1 and the second precast member 2 are both made of reinforced concrete. Although there is no restriction | limiting in the kind and intensity | strength of concrete, In this embodiment, the ultra high strength concrete of compressive strength 200kN / mm < ² > class is used.

  The first precast member 1 includes a concrete portion 11 made of ultra-high-strength concrete, reinforcing bars (column main bars) 12, 12,... And a member 13.

  A plurality of recesses 1a, 1a,... Are formed on the joint surface of the concrete portion 11 (the end surface facing the second precast member 2). The recess 1a is formed in a size and shape that can accommodate a part of the nut 32 in the height direction (thickness direction). The recess 1a of the present embodiment has an inverted truncated cone shape. In the present embodiment, one concave portion 1a is formed for one reinforcing bar 12 (see FIG. 2), but one concave portion may be formed for a plurality of reinforcing bars 11.

  The reinforcing bar 12 is a screw node reinforcing bar. An end portion of the reinforcing bar 12 protrudes from the concrete portion 11 (more specifically, the central portion of the bottom surface of the concave portion 1 a) toward the second precast member 2 and is inserted into the sleeve 23.

  The receiving member 13 is a spacer when the second precast member 2 is temporarily placed on the concrete portion 11, and a plurality of receiving members 13 are arranged at positions that do not interfere with the reinforcing bars 12 and the joint injection holes 2 c (see FIG. 2). The receiving member 13 supports the second precast member 2 until the joint filler 5 is cured, and the distance between the concrete portion 11 of the first precast member 1 and the concrete portion 21 of the second precast member 2 (joint portion). The thickness of the film) is kept constant. The receiving member 13 of the present embodiment is made of a bolt, and is screwed into an insert nut embedded in the concrete portion 11 so that height adjustment (adjustment of protrusion amount) can be performed.

  The second precast member 2 includes a concrete portion 21 made of ultra-high-strength concrete, reinforcing bars (column main bars) 22, 22,... Arranged in the concrete portion 21, and a sleeve 23 for a sleeve joint.

  In addition to the sleeve injection hole 2a and the air vent hole 2b from the side surface to the sleeve 23, the concrete portion 21 has a joint surface (to the first precast member 1) from the side surface of the concrete portion 21 as shown in FIG. A joint injection hole 2c reaching the opposite end face) is formed.

  The reinforcing bar 22 is a screw node reinforcing bar. The end of the reinforcing bar 22 protrudes into the sleeve 23 and is abutted against the reinforcing bar 12 of the first precast member 1 in the sleeve 23.

  The sleeve 23 is embedded in the end portion of the concrete portion 21. The sleeve 23 of this embodiment is a cylindrical steel member, and is open to the joint surface of the concrete portion 21 as shown in FIG.

  The lid means 3 closes the opening of the sleeve 23 and is attached to the reinforcing bar 12 of the first precast member 1. The lid means 3 of this embodiment is composed of two parts, a lid plate 31 and a nut 32. In FIG. 2, illustration of the lid means 3 is omitted as appropriate, but the lid means 3 is attached to all the reinforcing bars 12, 12,... Protruding from the concrete portion 11.

  The lid plate 31 is a disk having a size that can cover the opening of the sleeve 23, and is in close contact with the opening edge of the sleeve 23 (see FIG. 1A). An opening having a diameter larger than that of the reinforcing bar 12 is formed at the center of the lid plate 31.

  The nut 32 is a fastening part having a female screw part, and is screwed into the male screw part of the reinforcing bar 12 on the lower side (concrete part 11 side) of the lid plate 31. When the nut 32 is rotated in a predetermined direction, it moves to the second precast member 2 side while pushing up the lid plate 31, and when the nut 32 is tightened with the lid plate 31 in contact with the opening edge of the sleeve 23, the lid plate 31 comes to be pressed against the opening edge of the sleeve 23.

  Since the opening diameter of the concave portion 1a is larger than the diagonal distance of the nut 32, a part of the nut 32 in the height direction can enter the concave portion 1a as shown in FIG. In the present embodiment, since the depth of the concave portion 1a is smaller than the height of the nut 32, when the nut 32 is positioned at the base end portion of the protruding portion of the reinforcing bar 12, the lower half portion of the nut 32 becomes the concave portion 1a. It will be in the state accommodated and the upper half part of the nut 32 will protrude from the recessed part 1a.

  The nut 32 has a through hole (not shown) extending from the side surface to the inner peripheral surface. This through hole is used when a sealing material is filled in the gap between the female threaded portion of the nut 32 and the male threaded portion of the reinforcing bar 12.

  The sleeve joint filler 4 is filled in the sleeve 23 as shown in FIG. As the filler 4 for the sleeve joint, for example, a cement-type grout material such as a non-shrink mortar or a resin-type grout material such as an epoxy resin can be used. In addition, when the material to be used is specified in the structure evaluation or the like, the specified material is used.

  The joint filler 5 is filled in a joint portion (a gap between the concrete portions 11 and 12) between the first precast member 1 and the second precast member 2. A cement-type grout material or a resin-type grout material can be used as the joint filler 5, but a material having a higher compressive strength than the sleeve joint filler 4 is used. In this embodiment, an ultrahigh strength mortar that expresses a compressive strength equivalent to the ultrahigh strength concrete of the first precast member 1 and the second precast member 2 is used as the filler 5 for joints.

  Hereinafter, a precast member joining method (hereinafter simply referred to as “joining method”) according to an embodiment of the present invention will be described.

  The joining method according to the present embodiment includes a lid mounting step, a PCa member arranging step, a lid pressing step, and a filling step.

  The lid attaching step is a step of attaching the lid means 3 to the male thread portion of the reinforcing bar 12 protruding from the concrete portion 11 of the first precast member 1 as shown in FIG. Since the lid means 3 of the present embodiment is composed of two parts, a lid plate 31 and a nut 32, when the lid means 3 is attached to the reinforcing bar 12, first, the nut 32 is screwed to the reinforcing bar 12, and then the lid is covered. The plate 31 may be passed through the reinforcing bar 12.

  If the nut 32 is screwed into the projecting portion of the reinforcing bar 12, the nut 32 is moved to the base end portion (lower end portion in the present embodiment) of the projecting portion, and the lower half portion of the nut 32 enters the recess 1a. In the present embodiment, before the lid plate 31 is installed, a seal material is filled in a gap (screw gap) between the male screw portion of the reinforcing bar 12 and the female screw portion of the nut 32. The sealing material may be injected from the upper surface of the nut 32 (arrow a in FIG. 3A) and may be injected from a through-hole (not shown) on the side surface (arrow b in FIG. 3A). There is no restriction | limiting in a mixing | blending, material, etc. of a sealing material, Although various adhesive materials, a cement grout material, a resin grout material, a clay, etc. can be used, a non-shrink mortar is used in this embodiment.

  When the gap between the threads is filled with the sealing material, the lid plate 31 is wrapped around the reinforcing bar 12 and placed on the upper surface of the nut 32. When the lid plate 31 is disposed in a state where the nut 32 is located at the base end portion of the protruding portion of the reinforcing bar 12 (near the bottom surface of the recess 1a), the lid plate 31 serves as the support surface of the receiving member 13 (in this embodiment, the top It is located on the concrete part 11 side (lower side in the present embodiment) from the end face. In addition, although illustration is abbreviate | omitted, you may apply a sealing material or an adhesive material to the upper surface (surface which contacts the opening edge part of the sleeve 23) of the cover plate 31. FIG.

  The PCa member arranging step is a step of making the first precast member 1 and the second precast member 2 face each other while inserting the reinforcing bar 12 into the sleeve 23 as shown in FIG. In the present embodiment, the second precast member 2 is placed on the receiving members 13, 13,... Of the first precast member 1. If it does in this way, the clearance gap (joint part) of the opening amount corresponding to the protrusion amount of the receiving member 13,13, ... will be ensured between the upper end surface of the concrete part 11, and the lower end surface of the concrete part 21. become.

  The lid pressing step is a step of pressing the lid means 3 against the opening edge of the sleeve 23 by rotating the nut 32 (female screw portion) of the lid means 3 as shown in FIG. The lid pressing step is performed before the sealing material filled in the thread gap is cured.

  In the lid pressing step, first, the nut 32 accommodated in the recess 1a is rotated in a predetermined direction to move toward the concrete portion 21 together with the lid plate 31. In addition, although illustration is abbreviate | omitted, fastening tools, such as a spanner, are inserted in a joint part from the outer side of a junction part. Even when the nut 32 is positioned near the bottom surface of the recess 1a, the upper half of the nut 32 protrudes from the recess 1a, so that the nut 32 can be rotated without using a special tightening tool. Can be made.

  If the lid plate 31 comes into contact with the opening edge of the sleeve 23 (the end face of the concrete portion 21), the lid 32 is pressed against the opening edge of the sleeve 23 by tightening the nut 32. When the lid plate 31 is pressed against the opening edge of the sleeve 23, the opening of the sleeve 23 is closed. When all the lid means 3, 3,... Are tightened, the mold 6 is installed around the joint as shown in FIG.

  The filling step is a step of filling the sleeve joint filler 4 into the sleeve 23 and filling the joint filler 5 with the joint filler 5 and is performed in a state where the lid means 3 is pressed against the opening edge of the sleeve 23. Is called. There is no restriction | limiting in the filling order of the filler 4 for sleeve joints, and the filler 5 for joints, The other filling operation may be performed after performing the filling operation about one, and a filling operation may be performed simultaneously.

  The sleeve joint filler 4 is filled into the sleeve 23 through the sleeve injection hole 2a, and the joint filler 5 is filled into the joint from the joint injection hole 2c. The air in the sleeve 23 is discharged from the air vent hole 2b, and the air at the joint is discharged from an air vent hole (not shown) provided in the mold 6 or the like. In addition, it is preferable to perform a filling process, after the sealing material with which the clearance gap of the screw thread was filled hardened | cured.

  According to the joining method according to the present embodiment described above, since the opening of the sleeve 23 is closed by the lid means 3, the sleeve joint filler 4 filled in the sleeve 23 does not enter the joint. Similarly, the joint filler 5 filled in the joint is prevented from being mixed into the sleeve 23. That is, according to the joining method according to the present embodiment, the sleeve joint filler 4 and the joint filler 5 can be clearly distinguished.

  Furthermore, in the present embodiment, the gap between the reinforcing bar 12 and the nut 32 is filled with the sealing material, and the gap between the male screw portion and the female screw portion is closed. Therefore, the sleeve joint filler 4 or the joint filler 5 is used. It is possible to reliably prevent leakage of water.

  Moreover, since the recessed part 1a was provided in the 1st precast member 1 and a part of nut 32 was accommodated in the recessed part 1a until the PCa member arrangement | positioning process was complete | finished, the thickness of a joint part (concrete parts 11 and 21) Even if the separation distance is not increased, the lid means 3 can be arranged, and as a result, the usage amount of the filler 5 for joints can be suppressed.

  Moreover, since the filler 5 for joints expresses the compressive strength equivalent to the ultra high strength concrete of the 1st precast member 1 and the 2nd precast member 2, a joint part does not become a design weak part.

  In the present embodiment, the case where the first precast member 1 is erected in advance at a predetermined position is illustrated, but after the first precast member 1 and the second precast member 2 are joined in a work yard or the like, the predetermined position is Of course, it can be built in. When joining in a work yard or the like, the first precast member 1 and the second precast member 2 may be joined in an upright state or may be joined in a lying state.

  In this embodiment, although the case where the 2nd precast member 2 is arrange | positioned on the 1st precast member 1 was illustrated, of course, it does not interfere even if it turns upside down. In this case, since the first precast member 1 is positioned on the second precast member 2, the lid plate 31 and the nut 32 are integrated to prevent the lid plate from falling. In the lid pressing step, the nut 32 of the lid means 3 is moved downward.

  In this embodiment, although the case where the receiving member 13 was implanted in the 1st precast member 1 was illustrated, it is not the meaning which limits the structure and arrangement | positioning of a receiving member. Although illustration is omitted, a receiving member may be planted in the concrete portion 21 of the second precast member 2, or a block-shaped member may be used as a receiving member and only placed on the upper end surface of the first precast member 1. Good.

  In this embodiment, although the case where the 1st precast member 1 and the 2nd precast member 2 were pillars was illustrated, it is not the meaning which limits the use of a precast member. Although illustration is omitted, the present invention can also be applied when a beam, a column beam joint, a wall, a floor, or the like is constructed by a precast member.

DESCRIPTION OF SYMBOLS 1 1st precast member 11 Concrete part 1a Recessed part 12 Reinforcement 2 2nd precast member 21 Concrete part 23 Sleeve 3 Lid means 32 Nut (female screw part)
4 Sleeve joint filler 5 Joint filler

Claims (3)

A lid mounting step of mounting lid means having a female screw portion on the male screw portion of the reinforcing bar protruding from the concrete portion of the first precast member;
A PCa member disposing step of causing the first precast member and the second precast member to face each other while inserting the rebar into a sleeve embedded in an end portion of the second precast member;
A lid pressing step of pressing the lid means against the opening edge of the sleeve by rotating the female screw portion;
While the lid means is pressed against the opening edge of the sleeve, the sleeve is filled with a filler for sleeve joint, and between the concrete portion of the first precast member and the concrete portion of the second precast member. a method of bonding includes to Help Rekyasuto member and filling step, the filling of the joint filling material joints of,
The lid pressing step is performed in a state where the thickness of the joint portion is kept constant by a plurality of receiving members planted in at least one concrete portion of the first precast member and the second precast member. A method for joining precast members. A lid mounting step of mounting lid means having a female screw portion on the male screw portion of the reinforcing bar protruding from the concrete portion of the first precast member;
A PCa member disposing step of causing the first precast member and the second precast member to face each other while inserting the rebar into a sleeve embedded in an end portion of the second precast member;
A lid pressing step of pressing the lid means against the opening edge of the sleeve by rotating the female screw portion;
In the state where the lid means is pressed against the opening edge of the sleeve, the sleeve is filled with a filler for a sleeve joint, and between the concrete portion of the first precast member and the concrete portion of the second precast member. A filling step of filling the joint portion with a filler for joints, and a joining method of the precast member comprising:
While forming a recess in the end surface of the concrete part of the first precast member, the reinforcing bar protrudes from the bottom surface of the recess,
In the lid mounting step, a part of the female screw portion in the height direction is accommodated in the concave portion. A lid mounting step of mounting lid means having a female screw portion on the male screw portion of the reinforcing bar protruding from the concrete portion of the first precast member;
A PCa member disposing step of causing the first precast member and the second precast member to face each other while inserting the rebar into a sleeve embedded in an end portion of the second precast member;
A lid pressing step of pressing the lid means against the opening edge of the sleeve by rotating the female screw portion;
While the lid means is pressed against the opening edge of the sleeve, the sleeve is filled with a filler for sleeve joint, and between the concrete portion of the first precast member and the concrete portion of the second precast member. A filling step of filling the joint portion with a filler for joints, and a joining method of the precast member comprising:
A precast member joining method, wherein the lid pressing step is performed after a sealing material is filled in a gap between the male screw portion and the female screw portion.

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