KR101195308B1 - Assembly type wall frame and zenith frame for house construction using said wall frame - Google Patents

Abstract

PURPOSE: A prefabricated wall frame for construction and a ceiling frame using the same are provided to reduce construction time and costs by simply inserting interior and exterior panels onto the outer surface of a wall. CONSTITUTION: A prefabricated wall frame for construction comprises a wall main frame, interior and exterior panels, and a panel spacer bar. The wall main frame has a longitudinal length and comprises two square pipe fixing plates(10), a lattice truss, panel fixing pins, and fastening members. The lattice truss is coupled between the square pipe fixing plates. The panel fixing pins are coupled to the outer sides of the square pipe fixing plates in a longitudinal direction. The fastening members couple the panel fixing pins to the square pipe fixing plates. The interior and exterior panels and the panel spacer bra are coupled to the outer side of the wall main frame.

Description

Assembly type wall frame and zenith frame for house construction using said wall frame}

The present invention relates to a building prefabricated wall frame and a ceiling frame using the same, and more specifically, by simply assembling each of the subsidiary materials cut in accordance with the building drawings, even non-professional technicians can safely and quickly build buildings such as houses. The present invention relates to a building prefabricated wall frame and a ceiling frame using the same.

In general, non-professional technicians have to buy a lot of equipment to build their own homes (houses), and in addition, it was necessary to pay a lot of time and money to build a house because it was possible to build it with the participation of professional technicians in each field. There was a problem.

9A to 9C are perspective views showing examples of a wall structure of a conventional building disclosed in Documents 1 and 2, and the like.

Looking at the wall structure of the conventional house is constructed, as shown in Figure 9a, by connecting a hole in the center of the pillar (1) forming the basic skeleton of the house connecting the column (1) and the column (1) horizontally (2) is installed to form a frame of the wall and then to apply the ocher to a certain thickness inside and outside of the connecting member (2) to form a wall, if the wall is formed as described above, the framework of the house is not strong, so in the typhoon or earthquake Occasional breaks often occur.

In addition, in the structure of the wall shown in FIG. 9B, the inner space of the wall is partitioned by the partition 9 at regular intervals between the spaces of the outer wall 8 spaced at regular intervals, and a rectangular shape is formed on the outer wall 8. The through hole 8a is formed.

In such a house wall structure, it is not easy to insert the soil material into the partitioned wall space, and there is a disadvantage in that the soil material to be inserted is not structurally robust because it is intermittent without extending over the whole wall.

There is also a problem that the soil material is inserted into the outside through the through hole (8a) of the outer wall is not good appearance.

In addition, in the structure of the earthen wall shown in FIG. 9C, the wall is formed by interposing the pillars 4 at regular intervals between the spaces of the outer panel 6 spaced apart at regular intervals.

However, in such a structure, the filler is disconnected between the pillar 4 and the pillar 4, so that the entire wall cannot be connected, and thus the strength is weakened, resulting in a safety problem. There is a problem that deteriorates the living environment due to the inflow of noise.

[Document 1] Republic of Korea Patent Publication No. 10-2006-0134839 (Name: Earth House), Figure 3

[Patent 2] Republic of Korea Patent Publication No. 10-2007-0094595 (Name: earthen house construction iron plate frame and the method of building the earthen house using the same), Figure 2

The present invention has been made to solve the above-mentioned conventional problems, and provides a prefabricated wall frame and a ceiling frame using the same, which can be formed by anyone assembling the building accessories to the general public apart from the existing professional technology. Its purpose is to.

In addition, the present invention is to provide a prefabricated wall frame for a building structure and a ceiling frame using the same structure that is filled with the filling material to be filled into the interior of the frame formed by the assembly is not separated but as a single cement wall as a mass. have.

In addition, the present invention does not need to separate the finishing work of the wall by simply inserting the interior and exterior panels on the outer surface of the formed wall, the building prefabricated wall that can complete the building to reduce the secondary time and cost And another object is to provide a ceiling frame using the same.

Building prefabricated wall frame of the present invention for achieving the above object, the wall main frame having a predetermined length in the longitudinal direction, and the inner and outer panels and panel spacing bar attached to the outside of the wall main frame, the wall main The frame includes a lattice truss which is spaced apart from each other by a predetermined interval between the opposite tube fixing plate, the tube fixing plate, a panel fixing pin coupled longitudinally on the outer surface of the tube fixing plate, and the panel fixing pin fixed to the tube fixing plate. And a fastening member for coupling to the plate, a truss fixing bar for connecting the lattice trusses in the transverse direction, and a pipe pipe for connecting the lattice truss and the truss fixing bar in the longitudinal direction.

The lattice truss forms a structure in which a pipe pipe insertion hole is formed along a longitudinal direction, and the pipe pipe is formed of a metal pipe having a cavity in which wires and the like are accommodated.

The prefabricated ceiling frame for forming the ceiling of the building of the present invention for achieving the above object is, the lower curved plate for ceiling curved with a constant curvature, the lower curved plate for ceiling and the lower curved plate of the ceiling A ceiling upper curved plate curved at a curvature corresponding to a curvature, a grating truss provided between the ceiling upper curved plate and the ceiling lower curved plate, the ceiling lower curved plate and the ceiling upper curved plate A panel fixing pin coupled to the outer surface of the panel in a longitudinal direction, a fastening member for coupling the panel fixing pin to the ceiling lower curved plate and the ceiling upper curved plate together with the lattice truss, and the lattice truss; A truss fixing bar for connecting the grating truss and the truss fixing bar in a longitudinal direction, and the panel height It characterized by a configuration constituted by any, including bar external panel and the panel gap is coupled to the outer surface of the ceiling, the lower curved plate and the ceiling plate for the upper curve for using a pin.

In the above configuration, the ceiling lower curved plate, the lower curved plate plate of a predetermined width, the nut member is installed at regular intervals in the longitudinal direction along the front and rear edges of the upper surface of the lower curved plate plate, and the upper portion of the nut member A lower curved plate support coupled to the lower curved plate support to maintain the curvature of the lower curved plate plate, and a bolt coupling the lower curved plate support to the nut member.

In addition, the ceiling upper curved plate, the upper curved plate plate of a predetermined width, the nut member is installed at regular intervals in the longitudinal direction along the front and rear edges on the bottom surface of the upper curved plate plate, and coupled to the bottom of the nut member And an upper curved plate support for maintaining the curvature of the upper curved plate and a bolt for coupling the upper curved plate support to the nut member.

Preferably, the pipe pipe has a curved structure having the same curvature as that of the lower curved plate plate and the upper curved plate plate.

According to the present invention, by simply assembling the subsidiary materials cut according to the design drawings of the building, the person himself can build the building (house), thereby exerting the effect of making it easier for the general public to escape from the existing professional building technology. do.

In addition, when the interior of the assembled wall frame is filled with the filler, the filler passes through the column to form a block of wall like a cement structure, which is not only structurally stable but also prevents noise from entering and is excellent in thermal insulation. It is effective.

Further, a longitudinal pipe pipe insertion hole is formed on the lattice truss to allow the truss fixing bar and the pipe pipe to be coupled through the insertion hole so as to hold the warpage or the inclination of the wall to be structurally stable.

As a result, even when an external shock is applied due to a typhoon or an earthquake, the frames of all the frames are connected, so that the applied force is dispersed and alleviated.

In addition, by attaching the interior and exterior panels, the design of the wall surface can be produced in various ways, and various interior effects can be produced without finishing the interior wallpaper.

1 is a view showing the structure of the entire prefabricated wall frame for building and the ceiling frame using the same according to the present invention,
2 is a perspective view of a wall main frame according to the present invention;
3 is a view illustrating a state in which a truss fixing bar and a pipe are coupled to a wall main frame of the present invention;
4 is a perspective view illustrating a state in which a truss fixing bar and a pipe are coupled to the lattice truss of the present invention;
5 is a perspective view showing a state in which the inner and outer panels are coupled to the outside of the wall main frame of the present invention,
6 is a cross-sectional view of FIG. 5;
Figure 7a is a perspective view showing the structure of a prefabricated ceiling frame for building according to the present invention,
Figure 7b is a view showing the structure of the ceiling lower curved plate and the ceiling upper curved plate of the configuration of Figure 7a,
8A and 8B are cross-sectional views taken along lines AA and BB of FIG. 7A;
9a to 9c is a perspective view showing an example of a conventional structure for building a wall for earthen houses.

Hereinafter, with reference to the accompanying drawings, a building prefabricated wall frame and a ceiling frame structure using the same will be described in detail.

1 is a view showing the structure of the entire prefabricated wall frame for building prefabricated wall frame of the present invention and the ceiling frame formed using the same, Figure 2 is a perspective view of a wall main frame according to the invention, Figure 3 It is a figure which shows the state in which the truss fixing bar and the piping pipe were couple | bonded with the wall main frame of this invention.

The prefabricated wall frame structure of the present invention makes it possible to build a building (house) by simply combining them using a series of building subsidiary materials as shown in FIG. In other words, the wall frame forming the building and the ceiling frame coupled to the upper side of the wall frame can be easily assembled using bolts and nuts as coupling members.

In FIG. 1, (a) is a square tube fixing plate 10, (b) is a grating truss 30, (c) is a panel fixing pin 50, (d) is a fastening member 60, Fig. (E) shows the inner and outer panels, (f) shows the panel gap bar 80, (g) shows the pipe pipe 40 and the pipe pipe connection 45, and (h) shows the truss fixing bar 90 ), FIG. (I) shows the ceiling lower curved plate 110 and the lower curved plate support 130, and (j) shows the ceiling upper curved plate 160 and the upper curved plate support 170, respectively.

In the present invention, it is possible to form a wall frame and a ceiling frame by assembling the component subsidiary materials shown in FIG.

The pipe pipe 40 shown in FIG. 1 (g) among the components is a metal pipe, and a space into which a wire for wiring is inserted is formed, and a certain rigidity is provided to support a structure of a wall frame. It is desirable to be formed of a metallic material.

In addition, as shown in the figure, in order to facilitate the wiring of the wires contained therein, after disconnecting the pipe pipe 40 at an appropriate position, using a T-shaped pipe pipe connector 45 to separate the wire at an appropriate position You can do it.

In addition, the lower curved plate 110 for ceiling illustrated in (i) of FIG. 1 is provided with a series of nut members 113 on the lower curved plate plate 111, and coupled to an upper portion of the nut member 113. The lower curved plate support 130 is made.

The nut member 113 is installed at the front and rear edges on the lower curved plate plate 111, but is installed at regular intervals along the longitudinal direction of the lower curved plate plate 111.

In addition, the lower curved plate support 130 is coupled to the upper portion of the nut member 113 also has a coupling hole 131 is formed at a predetermined interval along the longitudinal direction. At this time, the ceiling lower curved plate 110 is shown in Figure 7a and 7b to be described later, in order to be formed in a curved shape, the nut member 113 formed on the lower curved plate plate 111 Installation intervals and the forming interval of the coupling hole 131 formed on the lower curved plate support 130 is to be formed differently. For example, when the center protrudes and both ends are bent downward, as shown in FIGS. 7A and 7B, formation intervals of the coupling holes 131 formed on the lower curved plate support 130 are lower curved plate plates. The distance between the nut member 113 formed on the 111 is greater than the installation interval (in the case of the upper curved plate, the reverse).

Therefore, in the state where the first flat curved lower curved plate plate 111 is bent at a predetermined curvature, the lower curved plate support 130 is correspondingly aligned thereon, and then the coupling hole 131 formed on the lower curved plate support 130. When the bolt 120 is coupled to the coupling member through the lower curved plate 110 for the ceiling to maintain the curved state as it is.

Since the ceiling upper curved plate 160 also has a curved shape in the same shape as the ceiling lower curved plate 110 described above, a description thereof will be omitted.

The prefabricated wall main frame 100 of the present invention shown in FIG. 2 includes two square tube fixing plates 10, a lattice truss 30 installed between the square tube fixing plates 10, and a square tube fixing plate 10. It consists of a configuration including a panel fixing pin 50 coupled to the outside in the longitudinal direction and the fastening member 60 for coupling the panel fixing pin 50 to the tube fixing pin 10.

5 is a perspective view showing a state in which the inner and outer panels are coupled to the outside of the wall main frame of the present invention, Figure 6 is a cross-sectional view of FIG.

As shown in the figure, the inner and outer panels 70 and the panel gap bar 80 are coupled to the outer side of the main frame 100 in an assembled state, and the inner and outer panels 70 and the panel gap bars are combined. 80 is to be coupled using the panel fixing pin (50).

The inner and outer panels 70 have a structure in which the prefabricated wall main frame 100 is sandwiched between the panel fixing pins 50 adjacent to each other in the longitudinal direction in a state in which the prefabricated wall main frame 100 is arranged at a predetermined interval in the horizontal (lateral) direction. To achieve.

At this time, the arrangement interval of the prefabricated wall main frame 100 arranged to form the prefabricated wall of the present invention is preferably about 1.5m or so.

Panel interval bar 80 of the present invention is configured to form the same plane as the inner and outer panel 70 is installed seated on the upper portion of the panel fixing pin 50 exposed to the outside under the state, the inner and outer panel 70 is installed. do.

The panel spacing bar 80 of the present invention is provided with a series of coupling means to be coupled when applying a predetermined pressing force on the upper side of the panel fixing pin 50. For example, as shown in Figure 5, the engaging projection 55 is formed on the upper wing portion 53 of the panel fixing pin 50, correspondingly the insertion groove (in the bottom surface of the panel spacing bar 80) 81) to be formed so that they are easily coupled by mutual compression.

In the configuration of the present invention, the square tube fixing plate 10 has a certain length in the longitudinal direction and the cross section is formed of steel frame in the shape of Di ((c)) so as to withstand the force received in the longitudinal direction during the construction of the building It will increase the stiffness.

In addition, a through hole 11 is formed along the longitudinal direction on the tube fixing plate 10, and the through hole 11 is provided as a coupling space when the panel fixing pin 50 and the grid truss 30 are coupled to each other. In the illustrated drawings, but limited to two through holes 11 formed on the tube fixing plate 10 for the stability of the coupling, may be formed in a plurality of two or more.

In addition, the grating truss 30 of the present invention has a zigzag shape along the longitudinal direction, as shown in FIGS. 1 to 4, and is divided into an inclined portion 31 and a coupling portion 33.

A pipe pipe insertion hole 35 is formed on the inclined portion 31, and a plurality of coupling holes 33a are formed on the coupling portion 33. The pipe fixing plate 10 and the panel are fixed through the coupling 33a. The pin 50 is coupled by the fastening member 60.

That is, the panel fixing pin fixing member 60 couples the grid fixing trusses 30 together with the panel fixing pin 50 on the outer surface of the tube fixing plate 10.

1 and 2, the panel fixing pin 50 of the present invention has a structure in which the upper end portion extends a predetermined length in both directions in a substantially U-shaped cross section. Therefore, the inner and outer panels 70 are fitted between the two panel fixing pins 50 adjacent to each other in the longitudinal direction. By combining the inner and outer panels 70, the outer surface of the prefabricated wall becomes beautiful in appearance.

The panel gap bar 80 is inserted between the inner and outer panels 70 and the inner and outer panels 70 of the present invention. In other words, the panel spacing bar 80 is a structure that is coupled by simply pressing on the upper side of the panel fixing pin 50, and for this purpose, the panel spacing bar 80 and the panel fixing pin 50 have their own coupling means.

For example, as shown in FIG. 2, the panel fixing pin 50 has a coupling protrusion 55 protruding upward from the upper wing portion 53 extending from the upper end portion to both sides. Correspondingly coupled panel spacing bar 80, as shown in Figure 4, so that the insertion groove 81 is formed on the lower end.

The constituent means for coupling between the panel gap bar 8 and the panel fixing pin 50 is not limited to the above-described structure, but may be modified to any other structure.

In order to form the prefabricated wall frame structure of the present invention, as shown in Figs. 3 and 4, the truss fixing bar 90 and the pipe pipe in a state in which the prefabricated wall main frame 100 is horizontally arranged at regular intervals. 40 are mounted together. That is, in the state where the prefabricated wall main frame 100 having a predetermined length in the longitudinal direction is arranged at regular intervals, the truss fixing bar 90 is installed in the transverse direction across the lattice truss 30, and each lattice truss 30 It is coupled to the grating truss 30 by using the pipe pipe insertion hole 35 formed thereon. In this case, a through hole 91 corresponding to the pipe pipe insertion hole 35 is formed on the truss fixing bar 90, and the interval of the through hole 91 is installed in the horizontal direction of the wall main frame 100. It is equal to the interval.

On the other hand, the coupling between the truss fixing bar 90 and the grid truss 30 of the present invention is coupled by the longitudinal pipe pipe 40. In other words, the pipe pipe 40 is inserted into the pipe pipe insertion hole 35 formed on the grating truss 30 to be mutually coupled.

On the other hand, the prefabricated by filling the filler (not shown) into the interior space of the prefabricated wall frame for building formed using the prefabricated wall main frame 100, the exterior panel 80 and the panel spacing bar 80 of the present invention. Complete the wall.

Although not shown in the drawings, the filler may be a composition including mud, rice straw, grass, sand, rice hulls, leaves.

In addition, the filler may utilize any other material desired by the builder in addition to the materials listed above.

When the filler is inserted into the prefabricated wall frame of the present invention, the filler is inserted into the inner tube fixing plate 10 serving as a wall pillar. That is, in the prior art, the filler inserted into the wall due to the pillar is not completely connected and blocked, there is a disadvantage that is not structurally stable, in the present invention, since the filler is inserted into the interior of the wall frame, the rigidity of the finished wall conventional It is greatly improved compared to the case.

That is, when the filler is filled into the assembled wall frame 200 of the present invention, partitions of each column are not separated like concrete structures, and thus structurally more stable, and excellent effects in terms of noise inflow prevention and insulation can be obtained. .

Figure 7a is a perspective view showing the structure of the prefabricated ceiling frame for building according to the present invention, Figure 7b is a view showing the structure of the lower curved plate and the upper curved plate for ceiling of the configuration of Figure 7a.

8A and 8B are sectional views taken along line A-A and line B-B in FIG. 7A.

As illustrated in the figure, the prefabricated ceiling frame 200 forming the ceiling of the building is a curved lower ceiling plate assembly 150, the ceiling upper curved plate assembly 180, the ceiling for bending at a constant curvature The grating truss 30 installed between the upper curved plate assembly 180 and the ceiling lower curved plate assembly 150, the ceiling lower curved plate assembly 150 and the ceiling upper curved plate assembly 180. The panel fixing pin 50 and the panel fixing pin 50 coupled to the outer surface of the panel along the longitudinal direction, and the panel fixing pin 50 together with the lattice truss 30 on the lower curved plate for ceiling and the upper curved plate for ceiling, respectively. The fastening member 60 to be coupled, the truss fixing bar 90 for connecting the grating truss 30 in the transverse direction, and the grating truss 30 and the truss fixing bar 90 in the longitudinal direction Plumbing pipe 40, and the panel height Configuration including the inner and outer panels 70 and the panel spacing bar 80 coupled to the outer surface of the ceiling lower curved plate 110 and the ceiling upper curved plate 160 by using the pin 50. Is done.

In the prefabricated ceiling frame structure of the present invention described above, the same reference numerals will be used for the same constituent members used in the above-described prefabricated wall frame structure.

In addition, in the prefabricated ceiling plane structure of the present invention, in the ceiling lower curved plate assembly 150 and the ceiling upper curved plate assembly 180 having a curved shape, the lower curved plate for ceiling serving as a constituent member The grating truss 30 coupled to the 110 and the ceiling upper curved plate 160 will use the same reference numerals as the straight grating truss 30 having the curved shape in one wall frame.

In the above configuration, the ceiling lower curved plate 110 has a length along the front and rear edges of the lower curved plate plate 111 and the upper surface of the lower curved plate plate 111, as shown in Figure 7a. Nut member 113 installed at a predetermined interval in the direction, the lower curved plate support 130 is coupled to the upper portion of the nut member 113 to maintain the curvature of the lower curved plate plate 111, and the lower curve It consists of a configuration including a bolt 120 for coupling the plate support 130 to the nut member 113.

In addition, the ceiling upper curved plate 180 of the present invention, as shown in Figure 7b, the upper curved plate plate 161 of a predetermined width, and the front and rear edges on the bottom surface of the upper curved plate plate 161. A nut member 163 installed at a predetermined interval along the longitudinal direction along the upper curved plate supporter 170 coupled to the bottom of the nut member 163 to maintain the curvature of the upper curved plate plate 161, It consists of a configuration including a bolt 120 for coupling the upper curved plate support 170 to the nut member 163.

On the other hand, the pipe pipe 40 of the present invention used in the ceiling frame is to be a pipe pipe curved with the same curvature of the lower curved plate plate 111 and the upper curved plate plate 161. The curved pipe pipe is a straight pipe pipe 40 used in the wall frame to be bent at a certain curvature, it can be easily implemented using a conventional technique, so the description thereof will be omitted. do.

On the other hand, by filling the filler in the inner space of the prefabricated ceiling frame 200 of the present invention to complete the ceiling wall, the filler may be used the same material as the filler is inserted into the interior space of the prefabricated wall. For example, it may include soil, rice straw, grass, sand, rice hulls, leaves, and the like, and the material may be changed as much as the builder chooses.

By combining the constituent members of the prefabricated wall frame and the ceiling frame and the internal filler of the present invention described above it is possible to more easily form the building desired by the builder at a low cost.

10: square tube fixing plate 11: coupling hole
30 trellis truss 31 slope
33: coupling portion 33a: coupling hole
35: pipe insertion hole 40: plumbing pipe
45: pipe pipe connector 50: panel fixing pin
51: lower coupling portion 53: upper wing portion
55: engaging projection 60: fastening member
61: bolt 63: nut
70: inner and outer panel 80: panel fixing pin bar
90: truss fixing bar 100: wall main frame
110: ceiling lower curved plate 111: lower curved plate
113: fastening member (nut) 115: coupling hole
120: fastening member (bolt) 130: lower curved plate support
131: coupling hole 150: ceiling lower curved plate assembly
160: ceiling upper curved plate 161: upper curved plate
163: second fastening member (nut) 165: coupling hole
170: upper curved plate support 180: ceiling upper curved plate assembly
200: ceiling frame

Claims (7)

A wall main frame having a constant length in the longitudinal direction,
It includes an inner and outer panels and panel spacing bars attached to the outside of the wall main frame,
The wall main frame, and the opposite tube fixing plate,
A grating truss coupled between the tube fixing plates;
Panel fixing pins coupled to be spaced apart at regular intervals in the longitudinal direction on the outer surface of the tube fixing plate,
A fastening member for coupling the panel fixing pin to the tube fixing plate;
Truss fixing bar for connecting the grating truss in the transverse direction,
Prefabricated wall frame comprising a plumbing pipe connecting the lattice truss and the truss fixing bar in the longitudinal direction. The method according to claim 1,
The grid truss is prefabricated wall frame, characterized in that the pipe pipe insertion hole is formed along the longitudinal direction. The method according to claim 1,
The pipe pipe is prefabricated wall frame for building, characterized in that formed of a metal pipe formed with a cavity for receiving wires and the like therein. The lower curved plate for ceiling curved at constant curvature,
A ceiling upper curved plate positioned above the ceiling lower curved plate and curved at a curvature corresponding to the curvature of the ceiling lower curved plate;
A grating truss provided between the ceiling upper curved plate and the ceiling lower curved plate;
A panel fixing pin coupled along a longitudinal direction on an outer surface of the ceiling lower curved plate and the ceiling upper curved plate;
A fastening member for coupling the panel fixing pin to the ceiling lower curved plate and the ceiling upper curved plate together with the lattice truss;
Truss fixing bar for connecting the grating truss in the transverse direction,
A pipe pipe connecting the lattice truss and the truss fixing bar in a longitudinal direction;
Prefabricated ceiling frame for building comprising an outer panel and a panel spacing bar coupled to the outer surface of the ceiling lower curved plate and the ceiling upper curved plate using the panel fixing pin. The method of claim 4,
The ceiling lower curved plate,
The lower curved plate of a certain width,
A nut member installed at regular intervals along the front and rear edges of the upper surface of the lower curved plate plate;
A lower curved plate support coupled to an upper portion of the nut member to maintain a curvature of the lower curved plate;
Prefabricated ceiling frame including a bolt for coupling the lower curved plate support to the nut member. The method of claim 4,
The ceiling upper curved plate,
The upper curved plate of a certain width,
A nut member installed at regular intervals along the front and rear edges on the upper curved plate plate bottom surface;
An upper curved plate support coupled to the bottom of the nut member to maintain the curvature of the upper curved plate;
Prefabricated ceiling frame including a bolt for coupling the upper curved plate support to the nut member. The method of claim 4,
The pipe pipe is a prefabricated ceiling frame to form a curved structure with the same curvature of the lower curved plate plate and the upper curved plate plate.

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