KR101098998B1 - Recyclable hybrid type connecting device for steel beam to concrete wall and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and a method for joining a steel ball to a concrete wall, such as slurry wall (slurry wall) or underground outer wall, more specifically, one side is formed of a side plate for joining to the concrete wall, the other side Is formed in the letter 'L' shape consisting of a side plate for forming used as a side formwork of the concrete to be joined to the cheolgolbo, the side reinforcing member installed on the side plate to prevent deformation of the side plate when the concrete is poured, and the side A side member installed at a free end of the plate and including a first side fastening member engaged with the second side fastening member of the front member, the side member being a left and right pair; One side is formed of a lower plate for joining to the concrete wall, the other side is formed of an L-shape consisting of a lower plate for forming used as a lower formwork of the concrete to be poured in order to join the cheolgolbo, the lower part when placing concrete A lower member including a lower surface reinforcing member provided on the lower plate to prevent deformation of the plate, and a first lower fastening member disposed on the free end of the lower plate and engaged with the second lower fastening member of the front member; One side surface is formed in a U-shape to meet the end surface of the molding side plate and the lower member for forming the lower member of the side member, the pair of left and right pairs of left and right sides coupled to the first side fastening member of the side member A front member including a fastening member and a second lower fastening member engaged with the first lower fastening member of the lower member, the side surface portion having a closing groove formed in the longitudinal direction such that the closing member passes therethrough; It is fixed across the upper flange of the cheolgolbo to be joined, the fixing plate 41 is attached to the lower surface by the inner width of the left and right pair of side plates of the side member to prevent the left and right displacement of the cheolgolbo A fixing member; It is easier to use the recyclable hybrid type cheolgolbo joining mechanism which is made of a closing member which is inserted into the closing groove formed in the side part of the front member so as to close the empty space of the front part formed by the cheolgolbo and the front member. The present invention relates to a recyclable hybrid type cheolgolbo joining mechanism and a method of joining cheolgolbo using the same, which can be assembled and installed and dismantled, have excellent construction properties, and can reduce construction costs.

Description

Recyclable hybrid steel cheolgolbo joining mechanism and steel cheolgol joining method using the same {RECYCLABLE HYBRID TYPE CONNECTING DEVICE FOR STEEL BEAM TO CONCRETE WALL AND METHOD THEREOF}

The present invention relates to an apparatus and a method for joining a steel ball to a concrete wall, such as slurry wall (slurry wall) or underground outer wall, more specifically, one side is formed of a side plate for joining to the concrete wall, the other side Is formed in the letter 'L' shape consisting of a side plate for forming used as a side formwork of the concrete to be joined to the cheolgolbo, the side reinforcing member installed on the side plate to prevent deformation of the side plate when the concrete is poured, and the side A side member installed at a free end of the plate and including a first side fastening member engaged with the second side fastening member of the front member, the side member being a left and right pair; One side is formed of a lower plate for joining to the concrete wall, the other side is formed of an L-shape consisting of a lower plate for forming used as a lower formwork of the concrete to be poured in order to join the cheolgolbo, the lower part when placing concrete A lower member including a lower surface reinforcing member provided on the lower plate to prevent deformation of the plate, and a first lower fastening member disposed on the free end of the lower plate and engaged with the second lower fastening member of the front member; One side surface is formed in a U-shape to meet the end surface of the molding side plate and the lower member for forming the lower member of the side member, the pair of left and right pairs of left and right sides coupled to the first side fastening member of the side member A front member including a fastening member and a second lower fastening member engaged with the first lower fastening member of the lower member, the side surface portion having a closing groove formed in the longitudinal direction such that the closing member passes therethrough; It is fixed across the upper flange of the cheolgolbo to be joined, the position fixing plate 41 is fixed to the lower surface by the inner width of the pair of side plates of the left and right side of the side member to prevent the left and right displacement of the cheolgolbo Absence; Assembled more easily using a hybrid-type cheolgolbo joining mechanism consisting of a closing member which is inserted into a closing groove formed in the side portion of the front member so as to close the empty space of the front part formed by the cheolgolbo and the front member. The present invention relates to a recyclable hybrid steel cheolgolbo joining device that can be installed and dismantled, has excellent workability, and can reduce construction costs, and has improved construction quality, and a cheolgolbo joining method using the same.

In general, in order to join the steel golbo member to a concrete wall, such as slurry wall (basement continuous wall) or basement outer wall, firstly install the reinforced concrete rim beam formwork at the position where the steel golbo member is joined, and then The method of joining the cheolgolbo by fixing the members of the cheolgolbo and then placing the concrete of the slab and continuous reinforced concrete rim beam at the same time. However, the conventional method of joining the steel cheolgolbo serious problem that a large amount of construction waste material is discharged with a problem that the construction cost is significantly increased because the copper bar or bracket for supporting the frame beam formwork must be installed in the entire section of the frame beam. There was a problem.

In order to fix the continuous rim beam to a concrete wall such as a slurry wall, a large amount of dowel rebar or a dowel anchor is required, which may be a fundamental cause of increasing the construction cost. Furthermore, even in the construction process, since the outer reinforced concrete rim beam process takes a long time, various interference problems with the steelwork, which is the main work type, occur frequently when the underground frame is steel frame, thus causing many problems in process management. There was a problem that smooth construction could not be progressed, and when the method of supporting the rim beam construction form was the Dongbari support method, it was necessary to excavate the internal sanding (earth and sand on the outer and outer walls of the underground construction for the purpose of earth pressure or construction, etc.). There is a fundamental problem that the construction period is delayed as the time for the removal of the part left in a certain form is increased. Therefore, when assembling steel beams on concrete walls such as slurry walls, it is simpler and easier to assemble or dismantle.However, it is possible to reduce the cost of construction and to shorten the construction period, and to secure fundamental measures to improve construction quality. I will not overdo it.

The present invention was devised to solve the problems of the conventional method of assembling the cheolgolbo as described above, in the mechanism for joining the cheolgolbo to concrete walls, such as slurry walls, one side of the side plate for joining to the concrete wall It is formed in the other side is formed in the U-shape consisting of the forming side plate used as the side formwork of the concrete to be poured to join the cheolgolbo, the side installed on the side plate to prevent deformation of the side plate during concrete pouring A side member including a reinforcing member and a first side fastening member installed at a free end side of the side plate, the first side fastening member engaged with the second side fastening member of the front member; One side is formed of a lower plate for joining to the concrete wall, the other side is formed of an L-shape consisting of a lower plate for forming used as a lower formwork of the concrete to be poured in order to join the cheolgolbo, the lower part when placing concrete A lower member including a lower surface reinforcing member provided on the lower plate to prevent deformation of the plate, and a first lower fastening member disposed on the free end of the lower plate and engaged with the second lower fastening member of the front member; One side surface is formed in a U-shape to meet the end surface of the molding side plate and the lower member for forming the lower member of the side member, the pair of left and right pairs of left and right sides coupled to the first side fastening member of the side member A front member including a fastening member and a second lower fastening member engaged with the first lower fastening member of the lower member, the side surface portion having a closing groove formed in the longitudinal direction such that the closing member passes therethrough; A position fixing member fixed across the upper flange of the cheolgolbo to be joined, and having a fixing plate attached to the lower surface by the inner width of the left and right pair of side plates of the side member to prevent left and right displacement of the cheolgolbo; Recyclable hybrid type cheolgolbo joining mechanism, characterized in that made of a closing member which is inserted into the closing groove formed in the side portion of the front member so as to close the empty space of the front portion formed by the cheolgolbo and the front member and fixed to each other; By providing the method of joining the steel golbo beam using this, it is simpler and easier to assemble or dismantle the steel golbo to the concrete wall such as slurry wall. It aims to improve.

Mechanism for joining the steel member to the concrete wall, such as slurry wall according to the present invention, and the joining method using the same, to minimize the dowel reinforcement for the reinforced concrete rim beam when manufacturing the steel mesh of the slurry wall, to join the steel member By minimizing various temporary members for construction, it is effective to reduce construction cost and shorten construction period, and it is possible to reuse (recycle) various members according to the present invention, which has the advantage of drastically reducing the discharge of construction waste, and steel frame By simplifying the process of joining the members, it minimizes the interference problem with the steelwork, which is the main work, to prevent air delay and improve the construction quality.

Hereinafter, with reference to the preferred embodiment of the present invention and the accompanying drawings will be described in more detail.

Figure 1 shows an exploded perspective view of the overall appearance of the recyclable hybrid steel cheolgolbo assembly mechanism according to a preferred embodiment of the present invention. As shown in the drawings, the hybrid steel cheolgolbo assembly according to the present invention basically consists of a pair and the side member 10 used as a side formwork of the concrete to be cast in order to join the cheolgolbo, in order to join the cheolgolbo The lower member 20 used as the lower formwork of the concrete to be poured, the front member 30 to be bound together with the side member and the lower member, and fixed across the upper flange of the cheolgolbo (M) to be joined It is made up of a position fixing member 40 and a closing member 50 which is inserted into the closing groove 33 of the front member to be fixed to each other. In addition, according to another preferred embodiment of the present invention, the support member 60 may be additionally installed to prevent the front member 30 from being deformed when concrete is poured.

The basic components according to the present invention will be described in more detail. 2 illustrates a state in which a pair of side members and a lower member are joined according to a preferred embodiment of the present invention. As shown in the figure, the side member 10 is made of a pair of left and right, one side is formed of a joining side plate 11 is joined to the concrete wall, the other side is concrete poured to join the cheolgolbo It is formed in a L-shape consisting of a side plate for forming 12 used as a side formwork. According to a preferred embodiment of the present invention, the side member 10 is bonded to a concrete wall such as a slurry wall by using the anchoring side plate 11, the anchor, so that the later side member easy to dismantle The sieve is preferably fastened with a nut to a rod anchor, but does not preclude the use of other fastening members that can achieve the same purpose.

In addition, the side reinforcement member 13 may be installed on the side plate 12 to prevent deformation of the side plate 12 when concrete is poured. That is, due to the characteristics of the side member used in the form of form, when the steel cheolgolbo is later mounted on the position fixing member 40 is supported on the top of the side plate, the construction load is transmitted to the side member, wherein The side reinforcement member 13 may be installed to prevent stress concentration and deformation and to smoothly transfer the steel beam beam to the anchor. According to a preferred embodiment of the present invention, the side reinforcement member 13 is preferably configured in a form that is bonded to the side plate 12 in an oblique direction, the side reinforcement member 13 to the concrete in the formwork later When pouring, the reinforcing role of preventing the fullness of the side member 10 is also performed at the same time. According to a preferred embodiment of the present invention, the side reinforcing member 13 is a member that is formed in advance when manufacturing the side member according to the present invention can be carried out irrespective of the field production work, preferably made of an angle or plate But does not preclude the use of other members capable of performing the same function.

In addition, the side member 10 according to the present invention is provided with a first side fastening member 14 which is engaged with the second side fastening member of the front member, which will be described below, at the free end side of the side plate 12. . The first side fastening member 14 is a member that allows both members to be fastened to each other when the end of the front member 30 is later coupled to the end of the side member 10, the first side of the side member The fastening member 14 and the second side fastening member of the front member are made up of a pair of male and female, and a conventional fastening means capable of performing the same function is used.

Next, look at the lower member 20 which is another component of the present invention. The lower member 20 is preferably made of the same shape as the side member 10 described above. That is, the lower member 20 according to the preferred embodiment of the present invention, one side is formed of a bonding lower plate 21 is joined to the concrete wall, the other side is the lower portion of the concrete being poured to join the cheolgolbo It is formed in a L-shape consisting of a lower plate 22 for molding used as a formwork. The lower member 20 is positioned at the lower end of the side member 10. According to a preferred embodiment of the present invention, the width of the lower member 20 can accommodate at least an internal space formed by the side member. If necessary, the lower member 20 may have a wider width than a space formed by a pair of left and right side members 10, and a rolling prevention jaw (not shown) of the side member 10 may have a lower width. It may be formed in advance on the surface of the member 20. On the other hand, like the side member 10, the lower member 20 is also bonded to the concrete wall such as a slurry wall using the anchoring lower plate 21 for anchoring, and the anchor body is easy to dismantle later It is preferred to fix the nut to a rod anchor.

In addition, as shown in FIG. 3, the lower member 20 is preferably provided with a lower surface reinforcing member 23 on the lower plate 22 to prevent deformation of the lower plate 22 when concrete is poured. The first lower fastening member 24, which is coupled to the second lower fastening member of the front member to be described below, is installed at the free end side of the side plate 22. Although the lower surface reinforcing member 23 is formed in the shape of a rod in the drawing, it does not exclude other forms of use that can achieve the same function. The pair of left and right side members 10 and the lower member 20 according to a preferred embodiment of the present invention may separate and assemble three surfaces, respectively, in consideration of construction convenience, depending on the load of the material used, and, if necessary, It may be formed integrally.

4 illustrates a state in which a steel member is positioned into an inner space formed by a pair of side members and a lower member according to a preferred embodiment of the present invention. As shown in the figure, the steel frame member (M) is positioned into the inner space formed by the pair of left and right side members 10 and the lower member 20, the position fixing member 40 shown in FIG. It is fixed using. That is, the steel member (M) is first placed into the inner space formed by a pair of side members and the lower member by using lifting equipment such as a crane or a backhoe, and then to prevent the steel member (M) from moving left and right Steel frame member (M) upper portion across the side member 10 to the position fixing member 40, the fixing plate 41 is attached to the lower surface by the inner width formed by a pair of left and right side plate 12 of the side member After confirming the position of the steel member in the final position, the upper flange of the steel member (M) and the position fixing member 40 is fixed to bind. According to a preferred embodiment of the present invention, the upper flange of the steel frame member (M) and the position fixing member 40 is preferably fastened by welding, but other within the scope to perform the same purpose and function You can also use the method.

At this time, the vertical displacement of the steel member (M) is supported by the self-weight of the bottom member, such as steel members and slabs and fixing anchors of the side members and lower members (if necessary, may be partially supported on the steel member) ), The horizontal displacement of the steel member (M) is supported in a form that the left and right pair of fixing plates 41 attached to the lower surface of the position fixing member 40 restrained from the inner surface of the side member. The position fixing member 40 is a member that is embedded in the slab, but does not have any effect such as welding with the side member and the lower member previously constructed, it does not have any influence on the subsequent disassembly of the member according to the present invention. . Figure 6 is a front view of the state in which the position fixing member is positioned on the upper flange of the cheolgolbo according to a preferred embodiment of the present invention. As shown in the figure, the position fixing member 40 and the fixing plate 41 is preferably made of an angle member, the fixing plate 41 is the left and right side plates 12 of the side member 10 It is preferable to be installed inside and outside of each of the), but if necessary, the fixing plate 41 may be installed only inside the side plate 12.

Next, the front member 30 which is another component of the present invention will be described. The front member 30 according to the preferred embodiment of the present invention is the steel member (M) is inserted into the space formed by the side member 10 and the lower member 20 is fixed, the side member and the pre-installed It is a member that is attached to the member. Figure 7 shows a state in which the front member is installed along the cheolgolbo according to a preferred embodiment of the present invention. As shown in the figure, the front member 30 has a structure that is pushed in the horizontal direction from the front direction to facilitate the dismantling of the member according to the present invention when later joined with the side member and the lower member is installed in advance, Both side portions and the bottom surface is formed to be fixed to each other by binding to the fastening members attached to the side member and the lower member. That is, the front member 30 according to the preferred embodiment of the present invention, one side of the molding side plate 12 of the side member 10 and the molding lower plate 22 of the lower member 20 It is formed in a U-shape to meet the end surface, a pair of left and right second side fastening member 31 which is engaged with the first side fastening member 14 of the side member is formed in the side portion, the first of the lower member The second lower fastening member 32 which is engaged with the lower fastening member 24 is formed on the lower surface. As a main feature of the front member, both side surfaces of the front member 30 are formed with a lengthwise groove 33 for the closing member 50 to penetrate the closing member 50 to be described later. In addition, the front member is made of a U-shaped upper portion so that the steel frame member (M) can pass through the center portion, if necessary, reinforcing members such as rib plate may be additionally installed.

As described above, the first side fastening member 14 of the side member and the second side fastening member 24 of the front member are fastened to each other, and the first lower fastening member 24 and the front member of the lower member are fastened to each other. By the second lower fastening member 32 is fastened to each other, the side member and the lower member and the front member is bound to each other. At this time, each of the fastening member of the side member, the lower member and the front member is made of a pair of male and female, a conventional fastening means that can perform the same function is used.

Next, the closing member 50 which is another main component of the present invention will be described. According to a preferred embodiment of the present invention, after anchoring a pair of left and right side members 10 and the lower member 20 to a concrete wall such as a slurry wall, the steel member (M) is the side member and the lower member After fixing the position by using the position fixing member 40 in the inner space to be formed, and after the front member 30 is combined with the side member and the lower member, the front using the closing member 50 according to the present invention It is inserted into the closing groove 33 formed in the side portion of the member 30 so as to close the front empty space formed by the steel member and the front member.

8 is a view showing a state in which the closing member is inserted into the closing groove of the front member according to a preferred embodiment of the present invention. As shown in the figure, through the closing groove 33 formed in the side portion of the front member 30, the closing member 33 to pass through the lower portion of the lower flange of the steel frame member (M) is left and right side members It is formed long enough to pass through at one time, and even if the steel frame members of different specifications are located, it is made of a small closing member so that the closing of the front member can be performed smoothly. To lose. In addition, since the center portion of the front member 30 for closing the web (steel) of the steel member has a form that is clogged, the closing member passing through this portion of the steel frame from both sides of the front member rather than the passage type Only the web of the member is configured to be closed to each other. At this time, the closing member used may be closed using a plurality of small closing members, but according to the present invention, since the height of the web of the steel member is generally made of a prescribed height, one closing member having a large cross-sectional dimension up to a certain height is required. Is preferably used. In addition, the upper portion of the steel frame member to insert a plurality of closing dimensions of the small dimensions to engage with each other to close. Figure 9 is a front view showing a state in which the closing member is inserted into the closing groove of the front member according to a preferred embodiment of the present invention.

10 shows a closure member 50 according to a preferred embodiment of the present invention. As shown in the drawings, the closing member according to the present invention has a lower surface convex in the lower direction and the upper surface is concave in the inner direction, the closing member located below and the closing member located above They are preferably formed to engage with each other, it is preferred to consist of a plurality of small closing member for closing through the lower flange of the steel member (M) and a large closing member for closing the middle web portion, but the same purpose and function Other shapes that can achieve this may also be used.

In addition, the closing member 50 according to the present invention is formed by the hollow portion penetrating through the body portion is fastened to each other by the closing member binding means passing through it, each closing member is fixed so as not to move with each other. That is, when the closing of the front member 30 is completed by the closing member 50, the closing member binding means is inserted into the hollow part penetrating the body part to secure each of the closing members 50, and then the front The closing member binding means is rotated and fixed on the lower surface of the member. In this case, it is preferable that the nut is inserted into the uppermost member of the closing member so that the closing member binding means can be easily and easily released from the lower side at the time of dismantling the members according to the present invention. According to one embodiment of the invention, it is preferred that the fastening member fastening means is a connection bolt or rod is used, but does not exclude the use of other means that can achieve the same purpose and function.

In addition, according to another embodiment of the present invention, the front member 30 may further include a support member 60 so as not to be pushed out by the side pressure during the concrete casting. Figure 12 shows a state in which the holding member is installed according to another preferred embodiment of the present invention. As shown in the figure, the support member 60 according to a preferred embodiment of the present invention is preferably made of a tripod shape, the front plate of the support member is configured to be in direct contact with the closure member, The front plate is provided with a support therein so that the front member is not pushed out by the pouring pressure when the concrete is poured, the support is made of a form joined to the lower plate in a diagonal direction.

The brace member 60 is made smaller than the height (dancing) of the commonly used steel member so that it can be easily applied to steel frame members of various dimensions, the upper plate is one end of the brace member is not displaced It is fixed to the lower surface of the upper flange of the steel member by using a fixing means such as a screw, and the lower plate, which is the other end of the support member, by using a fixing means such as a binder so that it is firmly engaged with the lower flange of the steel member. It is preferred to be fixed. 12 is a side view of a state in which a brace member is installed according to another preferred embodiment of the present invention.

Figure 13 is a perspective view showing the overall appearance of a hybrid type cheolgolbo joining mechanism according to a preferred embodiment of the present invention, Figure 14 shows a view of the entire state from below.

According to a preferred embodiment of the present invention, the side member 10, the lower member 20 and the front member 30 is preferably selected from steel sheet, aluminum, glass fiber reinforced plastic (glass fiber reinforced plastic). Euroform may be used depending on the needs of the designer, but does not exclude the use of other materials within a range capable of performing the same purpose and function.

Hereinafter, as another embodiment of the present invention, a method for joining a steel member to a concrete wall such as a slurry wall by using the hybrid-type steel member joining mechanism described above will be described.

According to a preferred embodiment of the present invention, a method for joining a steel member to a concrete wall such as a slurry wall is performed in the following steps.

First, (a) one side is formed of a side plate for joining to be joined to the concrete wall (11), the other side is a side plate for forming (12) used as a side formwork of concrete to be poured in order to join the steel member It is formed in the 'L' shape, the side member 10 consisting of a pair of left and right are joined to the concrete wall through the side plate 11 for bonding (first step). At this time, the side member 10 is bonded to the concrete wall using an anchor, it is preferred that the anchor body is fixed with a nut to the rod-type anchor to facilitate the later dismantling work of the side member.

Next, (b) one side is formed of a lower plate 21 for joining to be joined to the concrete wall, the other side is a molding lower plate 22 used as the lower formwork of the concrete to be poured to join the steel member The lower member 20 formed of a L-shape is bonded to the concrete wall through the lower plate 21 for bonding (second step). According to a preferred embodiment of the present invention, the side member and the lower member may be individually configured to be assembled and detached, respectively, but may be integrally formed if necessary.

Next, (c) the steel member (M) to be bonded is located in the inner space formed by the side member 10 and the lower member 20, and is fixed across the upper flange of the steel member (M) On the lower surface, the side member 10 and the lower member 20 are formed using the position fixing member 40 to which the fixing plate 41 is attached to the inner width of the pair of left and right side plates 12. Place in the inner space to form (third step).

Next, (d) one side is made of a U-shaped so as to meet the end surface of the molding side plate 12 and the molding lower plate 22 of the lower member 20 of the side member 10, The side portion couples the front member 30 having the closing groove 33 formed in the longitudinal direction to penetrate the closing member with the side member 10 and the lower member 20 (fourth step).

Thereafter, (e) inserting the closing member 50 into the closing groove 33 formed in the side portion of the front member 30 to close the empty space at the front part formed by the steel member and the front member, and closing the closing member 50. The members 50 are fixed to each other (fifth step).

Next, (f) after installing a deck (deck) in the upper portion of the space formed by the side member 10, the lower member 20, the front member 30 and the steel frame member (M) (casting) Step 6), (g) After the poured concrete is cured, it is disassembled in the reverse order of steps (a) to (e) (seventh step).

According to another preferred embodiment of the present invention, in the step (e) the brace member 60 may be additionally installed to prevent the front member 30 is deformed when the concrete is placed, the brace member 60 One end of the) may be fixed to the lower surface of the steel member upper flange and the other end may be fixed to the steel member lower flange. Components used in the hybrid steel frame joining method according to a preferred embodiment of the present invention have been described above, the description of the same components will be omitted.

FIG. 15 is a view illustrating a state in which a steel beam is joined to a concrete wall by a method for joining a steel frame member to a concrete wall such as a slurry wall using a hybrid steel frame member joining mechanism according to a preferred embodiment of the present invention as described above; FIG. 16 to 18 show a state in which the cheolgolbo is bonded to the concrete wall, respectively, seen from the front, side, and plane.

The present invention having the configurations and effects described above can be modified in various ways, and the above description is not intended to limit the scope of the present invention. In addition, various modifications and variations are possible without departing from the spirit and scope of the invention, and modifications apparent to those skilled in the art to which the invention pertains are included within the scope of the following claims.

1 is an exploded perspective view of the overall appearance of the hybrid type cheolgolbo assembly mechanism according to the present invention

2 is a view in which a pair of side members and the lower member is bonded according to a preferred embodiment of the present invention

3 is a view from below of the lower member according to the preferred embodiment of the present invention;

4 is a view in which a steel member is placed into an inner space formed by a pair of side members and a lower member according to a preferred embodiment of the present invention

5 is a view showing a position fixing member is positioned on the upper flange of the cheolgolbo according to a preferred embodiment of the present invention

6 is a front view of the FIG.

Figure 7 shows a state in which the front member is installed along the cheolgolbo according to a preferred embodiment of the present invention

8 is a view showing a state in which the closing member is installed into the closing groove of the front member according to a preferred embodiment of the present invention

FIG. 9 is a front view of the FIG. 18. FIG.

10 is a view showing a closing member according to a preferred embodiment of the present invention

11 is a view showing a state in which the support member is installed in accordance with a preferred embodiment of the present invention

FIG. 12 is a side view of FIG. 11.

Figure 13 is a perspective view showing the overall appearance of a hybrid type cheolgolbo joining mechanism according to the present invention is installed

FIG. 14 is a view of FIG. 13 viewed from below.

15 is a perspective view showing a state in which the cheolgolbo bonded to the concrete wall using a hybrid cheolgolbo joining mechanism according to the present invention

16 to 18 are each a front view, a side view, a plan view of FIG.

<Description of the symbols for the main parts of the drawings>

10 side member 11 side plate for joining

12: forming side plate 13: side reinforcing member

14: first side fastening member 20: lower member

21: bonding lower plate 22: molding lower plate

23: lower surface reinforcing member 24: first lower fastening member

30: front member 31: second side fastening member

32: second lower fastening member 33: groove for closing

40: fixing member 41: fixing plate

50: closing member 60: holding member

M: Cheolgolbo

Claims (18)

In a mechanism for joining a steel frame member to a concrete wall such as a slurry wall, the joining mechanism is One side is formed of a side plate 11 for joining to the concrete wall, the other side is formed in the A-shape consisting of a side plate (12) used as a side formwork of concrete to be poured in order to join the steel member And a side reinforcement member 13 installed on the side plate 12 and a free end of the side plate 12 so as to prevent deformation of the side plate 12 when concrete is poured. A side member 10 including a first side fastening member 14 coupled to the side fastening member and formed of a left and right pair; One side is formed of a lower plate 21 for joining to the concrete wall, the other side is formed in a L-shape consisting of a lower plate 22 for molding used as a lower formwork of the concrete to be joined to join the steel member And a lower surface reinforcing member 23 installed on the lower plate 22 and a free end of the lower plate 22 to prevent deformation of the lower plate 22 when concrete is poured. A lower member 20 including a first lower fastening member 24 engaged with the second lower fastening member; One side surface is formed in a U-shape to meet the end surface of the molding side plate 12 of the side member 10 and the molding lower plate 22 of the lower member 20, the first side member And a second pair of left and right side fastening members 31 coupled to the first side fastening member 14 and a second lower fastening member 32 to be engaged with the first lower fastening member 24 of the lower member. The front member 30 is formed in the longitudinal direction of the closing groove 33 so that the closing member penetrates; It is fixed across the upper flange of the steel member (M) to be joined, the fixing plate by the inner width of the left and right pair of side plates 12 of the side member to prevent the left and right displacement of the steel member (M) A position fixing member 40 having 41 attached to the lower surface thereof; Characterized in that it consists of a closing member 50 is inserted into the closing groove 33 formed in the side portion of the front member 30 to be fixed to each other so as to close the front empty space formed by the steel member and the front member. Recyclable Hybrid Steel Frame Joining Mechanism The method of claim 1, wherein the reinforcing hybrid-type steel member joining mechanism, characterized in that it further includes a support member 60 for preventing the front member 30 is deformed when placing concrete. The method of claim 2, wherein the one end of the support member 60 is fixed to the lower surface of the steel member upper flange and the other end is fixed to the steel member lower flange recyclable hybrid type steel member joining mechanism According to claim 1, wherein the closing member 50 is the bottom surface is formed in the convex shape in the lower direction and the top surface is formed in the concave shape in the inner direction, the closing member located below and the closing member located above each other Recyclable hybrid steel frame member joining mechanism, characterized in that formed to interlock 5. The recyclable hybrid steel member joining mechanism according to claim 4, wherein the closing member (50) has a hollow portion penetrating the body portion and is fixed to each other by a closing member binding means passing therethrough. The method of claim 1, wherein the side reinforcing member 13 of the side member is a recycled hybrid type steel member joining mechanism, characterized in that formed in the form of a diagonal line. The method of claim 1, wherein the lower member 20 has a wider width than the space formed by a pair of left and right side members 10, the hybrid type steel member joining mechanism recyclable The recycling plate (41) of claim 1, wherein the fixing plate (41) of the position fixing member (40) is installed in pairs on the inner and outer surfaces of the side reinforcing members (13) of the side members (10). Hybrid steel frame joining mechanism According to any one of claims 1 to 8, wherein the side member 10, the lower member 20, the front member 30 is a steel sheet or aluminum or glass fiber reinforced plastic or eurofoam Recyclable hybrid steel member joining mechanism, characterized in that selected from In a method for joining a steel member to a concrete wall such as a slurry wall, the joining method is (a) One side is formed of the side plate for joining to be joined to the concrete wall (11), the other side is formed of the side plate (12) formed of the side plate for use as a side formwork of the concrete to be cast to join the steel member Forming a shape, and joining the side member (10) consisting of a pair of left and right to the concrete wall through the side plate for bonding 11; (b) One side is formed of a lower plate 21 for joining to be joined to the concrete wall, the other side is formed of the lower plate (22) used as a lower formwork of the concrete to be poured in order to join the steel frame member Bonding the lower member 20 formed in the shape to the concrete wall through the lower plate 21 for bonding; (c) the steel member M to be bonded is placed in the inner space formed by the side member 10 and the lower member 20, is fixed across the upper flange of the steel member M, and has a lower surface. The side member 10 and the lower member 20 to form a steel member using the position fixing member 40 to which the fixing plate 41 is attached as much as the inner width of the left and right side plate 12 Positioning in an internal space; (d) One side surface is U-shaped to meet the end surface of the molding side plate 12 of the side member 10 and the molding lower plate 22 of the lower member 20, the side portion is closed Coupling the front member (30) having the closing groove (33) formed in the longitudinal direction to penetrate the member and the side member (10) and the lower member (20); (e) inserting the closing member 50 into the closing groove 33 formed in the side surface of the front member 30 to close the empty space at the front part formed by the steel member and the front member, and closing the closing member 50. Fixing each other); (f) installing a deck on the space formed by the side member 10, the lower member 20, the front member 30, and the steel frame member M, and placing concrete; (g) recyclable hybrid steel member joining method comprising the step of dismantling in the reverse order of steps (a) to (e) after the poured concrete is cured 11. The method of claim 10, wherein the step (e) is a recyclable hybrid steel frame, characterized in that it further comprises a support member 60 is installed to prevent the front member 30 is deformed when placing concrete. Member joining method 12. The method of claim 11, wherein the one end of the support member 60 is fixed to the lower surface of the upper flange of the steel member and the other end is fixed to the lower flange of the steel member. 11. The method of claim 10, wherein the closing member 50 is the bottom surface is formed in the convex shape in the lower direction and the top surface is formed in the concave shape in the inner direction, the closing member located below and the closing member located above each other Recyclable hybrid steel frame joining method characterized in that formed to interlock 14. The method of claim 13, wherein the closing member (50) has a hollow portion through the body portion and is fixed to each other by a closing member binding means passing therethrough. The method according to claim 10, wherein the side reinforcement member (13) of the side member is formed by joining in diagonal lines. The method of claim 10, wherein the lower member has a wider width than a space formed by a pair of left and right side members. 12. The method of claim 10, wherein the fixing plate (41) is installed in pairs on the inner and outer surfaces of the side reinforcing members (13) of the side members. The method according to any one of claims 10 to 17, wherein the side member 10, the lower member 20 and the front member 30 is a steel sheet or aluminum or glass fiber reinforced plastic or euroform Recyclable hybrid steel frame joining method characterized in that is selected from

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