CN108868170B - Assembled building wallboard support and mounting method thereof - Google Patents

Abstract

The invention relates to an assembled building wallboard support and an installation method thereof, relating to the technical field of building houses and comprising connecting grooves which are respectively used for being connected with a wallboard and a floor plate, wherein a plurality of supporting rods are arranged in the connecting grooves at two sides, hinged plates are hinged at two ends of the supporting rods, a sliding block which is connected in the connecting grooves in a sliding manner is arranged on the surface of the hinged plates away from the supporting rods, lug plates are arranged on the outer wall of the connecting grooves and extend towards the outside at two ends of the connecting grooves, and the lug plates are connected with the wallboard and the floor plate through bolts. Install the spread groove to wallboard and floor board through the bolt on, drive the installation that a plurality of bracing pieces can be accomplished in the spread groove to a plurality of bracing piece sliding connection, need not to install and fix a position a plurality of bracing pieces, saved the manpower.

Description

Assembled building wallboard support and mounting method thereof

Technical Field

The invention relates to the technical field of building houses, in particular to an assembly type building wallboard support and an installation method thereof.

Background

Buildings assembled from prefabricated parts at the site are called fabricated buildings. The building block is divided into five types, namely a block building, a plate building, a box building, a framework plate building, a rising-rise building and the like according to the form and the construction method of the prefabricated part. The space truss is formed by arranging the inclined struts spanning multiple layers on the outer vertical surface of the building, so that the rigidity of the structure can be effectively increased, and the shock resistance of the structure can be increased. The horizontal earthquake force is converted into axial force of the column and transmitted to the foundation and the foundation through the inclined strut. The inclined struts are arranged around the periphery of the building, can utilize structural materials to the maximum extent, and are efficient and economical earthquake-resistant structural members.

Chinese patent No. CN206784972U discloses a prefabricated wall panel supporting device, which comprises a fixed stay bar, an adjusting stay bar, an ear plate, a bolt and a nut; the fixed stay bar is formed by welding a support ear plate, an end plate, a stay bar, an internal thread ring plate and a sleeve; the adjusting stay bar is formed by welding a screw rod, an end plate, an adjusting rod and a spanner; the ear plate is inserted into the supporting ear plate and is connected with the supporting ear plate through a bolt and a nut; the adjusting rod of the adjusting stay bar is inserted into the sleeve of the fixed stay bar and is in threaded connection with the internal thread ring plate through the screw; the ear plate is welded with the prefabricated wall plate or the floor plate embedded part; the fixed stay bar and the adjusting stay bar are sleeved by steel pipes. When the prefabricated wallboard support is used, the lug plates are welded with embedded parts of the prefabricated wallboards (floor boards), the lug plates are connected with the support lug plates through bolts, and the support length is changed by rotating the adjusting support rods to realize the vertical positioning and the support of the prefabricated wallboards.

However, the disadvantages are that when the building wallboard is actually supported, a plurality of supporting devices are needed to support the building wallboard, an operator needs to arrange the supporting devices in each position to be installed in advance, adjust each supporting device to be located on the same straight line, and install the supporting devices between the wallboard and the floor board one by one, which wastes manpower.

Disclosure of Invention

The invention aims to provide an assembly type building wallboard support and an installation method thereof, and the assembly type building wallboard support has the advantages of being capable of rapidly installing a plurality of supports and saving labor.

The first object of the present invention is achieved by the following technical solutions:

the utility model provides an assembly type structure wallboard supports, includes the spread groove that is used for being connected with wallboard and floor board respectively, both sides be provided with a plurality of bracing pieces in the spread groove, the both ends of bracing piece all articulate and are provided with the articulated slab, be provided with sliding connection in on the face of bracing piece is kept away from to the articulated slab slider in the spread groove, the both ends that just are located the spread groove on the outer wall of spread groove extend towards the outside and are provided with the otic placode, all through bolted connection between otic placode and wallboard and the floor board.

Implement above-mentioned technical scheme, when needs are installed the bracing piece, at first pass through the bolt with the both ends of spread groove and install to the position that needs the installation, drive slider sliding connection in the spread groove with a plurality of bracing pieces, make the bracing piece accomplish the support to the wallboard, can make a plurality of bracing pieces accomplish the location with the spread groove location, need not one and fix a position the bracing piece, and drive the installation that a plurality of bracing pieces sliding connection can be accomplished in the spread groove after finishing the spread groove installation, only need to fix the spread groove to wallboard and floor board on, need not to install one to a plurality of bracing pieces, the manpower has been saved.

Further, the cross section of the connecting groove is arranged to be T-shaped, and the sliding block is matched with the connecting groove of the T-shaped.

Implement above-mentioned technical scheme, set up the cross section of spread groove into "T" shape, slider and spout cooperation set up can prevent that the bracing piece from producing between slider and the spread groove when driving the slider and slide in the spread groove, and when the bracing piece slided to the spread groove in to wallboard and floor board support, can prevent to produce between bracing piece and the spread groove and break away from, indirectly improved the bracing effect of bracing piece to wallboard and floor board.

Furthermore, a plurality of grooves are formed in the face, away from the hinged plate, of the sliding block, the grooves are formed in the sliding block in the vertical direction, and a plurality of bulges matched with the grooves are formed in the positions, where the sliding block is located, of the inner wall of the connecting groove.

Implement above-mentioned technical scheme, after the bracing piece slided appointed position in to the spread groove, with the protruding cooperation in the recess on the slider and the spread groove for the bracing piece is recess and protruding cooperation when supporting, prevents that the bracing piece from when supporting wallboard and floor board, and the bracing piece produces the removal along the length direction of spread groove in the spread groove, makes the bracing piece play better supporting effect between wallboard and the floor board.

Furthermore, a plurality of protrusions are distributed on the inner wall of the connecting groove along the length direction of the connecting groove.

Implement above-mentioned technical scheme, to set up many with the arch along the length direction of spread groove, can make the bracing piece remove to arbitrary position after, drive the recess on the slider and the protruding cooperation in the spread groove for the bracing piece all can be fixed to the spread groove in removing to the spread groove after arbitrary position in, prevent that the bracing piece from producing in the spread groove and removing, has indirectly improved the result of use of bracing piece.

Furthermore, the two ends of the connecting groove are provided with openings.

Implement above-mentioned technical scheme, with the both ends opening setting of spread groove, can make a plurality of bracing pieces can slide in the tip of spread groove to the spread groove in to the quantity of bracing piece in the adjustment spread groove, the bracing piece quantity that different wallboard and floor board need is different, through with in sliding the bracing piece into the spread groove, has improved the supporting effect of bracing piece to different wallboard and floor board.

Furthermore, the opening and closing plates are hinged to the positions, located at the openings of the connecting grooves, of the two ends of the connecting grooves, and torsion springs are arranged at the positions, hinged to the connecting grooves, of the opening and closing plates.

Implement above-mentioned technical scheme, the setting of opening and close the board can prevent that the bracing piece from shifting out to the spread groove with the tip of spread groove in the back in sliding into the spread groove, when needs slide the bracing piece to the spread groove in, will open and close the board and resist the torsion of torsional spring and open can, after sliding into a plurality of bracing pieces to the spread groove, loosen and open and close the board and make the torsion that opens and close the board and resist the torsional spring shelter from to the opening of spread groove on automatically, play the effect that blocks to the bracing piece in the spread groove.

Furthermore, the bracing piece is extending structure, extending structure include the dead lever with peg graft and sliding connection in slide rod in the dead lever, be provided with the roll adjustment device that is used for adjusting the slide rod in the dead lever internal position on dead lever and the slide rod.

By implementing the technical scheme, the supporting rods are arranged into a telescopic structure, the included angle between the supporting rods and the wall plate and between the supporting rods and the floor plate can be further adjusted by adjusting the length of the supporting rods, the rigidity of the structure and the shock resistance of the structure are effectively increased, and the horizontal force of the wall plate is effectively transmitted to the floor plate, so that the supporting rods have different supporting effects on the wall plate and the floor plate, and the using effect of the supporting rods is further improved; when the length of the supporting rod needs to be adjusted, the sliding rod is made to stretch in the fixed rod through the distance adjusting device, so that the length of the whole supporting rod is adjusted conveniently and simply; when installing the bracing piece, at first install the spread groove respectively to assigned position on wallboard and the floor board, then the length of adjustment bracing piece to make the interval between the length adaptation spread groove of bracing piece.

Further, the outer wall of dead lever extends towards the outside and is provided with the fixed plate, the outer wall of slide bar extends towards the outside and is provided with the adjusting plate, the roll adjustment device is including rotating the screw lead screw of connecting on the fixed plate, adjusting plate threaded connection in on the screw lead screw.

Implement above-mentioned technical scheme, when the length of bracing piece needs to be adjusted, the screw thread lead screw rotates, connect on the fixed plate because of the one end rotation of screw thread lead screw, other end screw thread fits on the adjusting plate, and the slide bar inserts in the dead lever, the slide bar can not rotate along with screw thread lead screw's rotation when rotating the screw thread lead screw, make the slide bar drive the adjusting plate and move on screw thread lead screw, thereby make the slide bar remove in the dead lever, thereby the length of adjustment bracing piece, make the bracing piece play better supporting effect, and adopt the mode of screw thread lead screw adjustment, can make the adjusting plate drive slide bar automatic locking to the dead lever in the optional position, when bracing piece adjustment length is used for supporting, because of screw thread lead screw set up the slide bar optional position in can automatic locking to the dead lever, the result of use of screw.

Further, the end of the threaded lead screw is provided with a rotating handle.

Implement above-mentioned technical scheme, the setting up of rotation handle provides the point of application of force for rotating the screw lead screw, conveniently rotates the screw lead screw.

The second objective of the present invention is to provide an assembly type building wall panel installation method, which has the advantages of fast installation of a plurality of supports and labor saving.

The above object of the present invention is achieved by the following technical solutions:

a method of prefabricated building panel support installation, the method comprising:

s1: determining mounting points of two ends of the supporting rod on the wall plate and the floor plate;

s2: rotating the rotating handle to rotate the threaded lead screw, adjusting the position of the sliding rod in the fixed rod, and adjusting the length of the whole supporting rod;

s3: mounting the connecting groove to the positions of mounting points on the wall plate and the floor plate through bolts;

s4: the opening and closing plate is rotated to enable the opening and closing plate to resist the torsion of the torsion spring and be in an opening state;

s5: connecting the sliding blocks at the two ends of the supporting rods in the connecting grooves of the wall plates and the floor plates at the two sides in a sliding manner, and adjusting the space between the supporting rods in the connecting grooves;

s6: after the distance is adjusted, the groove on the sliding block is driven to be matched with the bulge in the connecting groove, and the wallboard is supported.

By implementing the technical scheme, in the step S1, the mounting points are determined so that the supporting rod can have the best supporting effect on the wall plate and the floor plate, and the mounting points connecting the grooves to the wall plate and the floor plate are obtained, so that the required length of the supporting rod can be known, and the length of the supporting rod can be conveniently adjusted in the subsequent process; in the step S2, the threaded lead screw is rotated to adjust the length of the supporting rod, so that the sliding rod slides in the fixed rod, and is automatically locked to any adjusted length, and when the supporting rod supports the space between the wall plate and the floor plate, the supporting rod has the best supporting effect; in the step S3, the connecting grooves are firstly installed on the wall board and the floor board through bolts, and in the subsequent process, the adjusted supporting rods directly slide into the connecting grooves to complete the supporting, so that the labor is saved, the whole connecting grooves have better firmness and stability on the wall board and the floor board by adopting a bolt connection mode, and the connecting grooves are prevented from being separated from the wall board and the floor board; in the step S4, the opening and closing plate is arranged to prevent the support rod from sliding out of the end of the connecting groove, and when the support rod needs to be added into the connecting groove, the opening and closing plate is directly opened; in the step S5, the supporting of the wallboard can be completed by sliding the supporting rods into the connecting grooves, and the supporting rods do not need to be installed in sequence again, so that the labor is saved; in step S6, after the plurality of support rods slide to the designated positions, the grooves on the slider are matched with the protrusions in the connecting grooves, so that the support rods are further prevented from moving in the connecting grooves along the length direction of the connecting grooves, and the support effect of the support rods on the wall plate and the floor plate in the connecting grooves on the two sides is improved.

In conclusion, the invention has the following beneficial effects:

the arrangement of the connecting grooves can ensure that an operator does not need to sequentially install the plurality of supporting rods, and the supporting rods can be installed by sliding into the connecting grooves, so that the labor is saved;

the grooves and the protrusions are arranged, so that the supporting rod is prevented from moving in the connecting groove towards the length direction of the connecting groove after moving to any position in the connecting groove, and the supporting effect of the supporting rod on the wall plate and the floor plate is improved;

thirdly, the arrangement of the opening and closing plate and the torsion spring can further prevent the supporting rod from sliding out of the end part of the connecting groove, and the supporting rod is conveniently added into the connecting groove;

and fourthly, the position of the sliding rod in the fixed rod can be adjusted by the arrangement of the threaded screw rod, so that the fixed rod and the sliding rod can be automatically locked to any length, and the supporting rod can play the best supporting effect on the wall plate and the floor plate.

Drawings

FIG. 1 is an overall schematic structural view of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a support rod according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view showing a slider and a connecting groove according to an embodiment of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic cross-sectional view of an embodiment of the present invention showing protrusions and grooves;

FIG. 6 is an enlarged view of portion B of FIG. 5;

fig. 7 is a schematic cross-sectional view illustrating the opening and closing plate and the torsion spring according to the embodiment of the present invention.

Reference numerals: 1. connecting grooves; 11. an ear plate; 12. a bolt; 13. a protrusion; 14. a shutter plate; 141. a torsion spring; 2. a support bar; 21. a hinge plate; 22. a slider; 23. a groove; 24. fixing the rod; 241. a fixing plate; 25. a slide bar; 251. an adjustment plate; 26. a threaded lead screw; 261. rotating the handle; 262. a tank body.

Detailed Description

The technical solutions of the embodiments of the present invention will be described below with reference to the accompanying drawings.

Examples

With reference to fig. 1 and fig. 2, an assembled building wallboard supports, including the spread groove 1 that is used for being connected with wallboard and floor board respectively, be provided with a plurality of bracing pieces 2 for extending structure in the spread groove 1 of both sides, bracing piece 2 includes dead lever 24 and pegs graft and sliding connection in the slide bar 25 of dead lever 24, the outer wall of dead lever 24 extends towards the outside and is provided with fixed plate 241, the outer wall of slide bar 25 extends towards the outside and is provided with adjusting plate 251, connect threaded lead screw 26 rotates on fixed plate 241, adjusting plate 251 threaded connection is on threaded lead screw 26, threaded lead screw 26's tip is provided with rotates handle 261, in this embodiment, rotate handle 261 set up to circular and seted up many cell bodies 262 that are used for increasing frictional force on it wholly.

When the length of whole bracing piece 2 needs to be adjusted, rotate rotation handle 261 and drive screw thread lead screw 26 and rotate, rotate because of the one end of screw thread lead screw 26 and connect on fixed plate 241, other end screw thread fits on adjusting plate 251, and adjusting plate 251 can drive slide bar 25 and slide in dead lever 24 to adjust the length of whole bracing piece 2, make bracing piece 2 to play best fixed effect between wallboard and the floor board.

With reference to fig. 3 and 4, both ends of the support rod 2 are hinged to form hinged plates 21, and a sliding block 22 slidably connected in the connecting groove 1 is disposed on a surface of the hinged plate 21 away from the support rod 2, in this embodiment, the cross section of the connecting groove 1 is "T" shaped, and the sliding block 22 is disposed in cooperation with the "T" shaped connecting groove 1. In other embodiments, the coupling groove 1 and the slider 22 may be provided in a dovetail shape, thereby preventing the separation between the slider 22 and the coupling groove 1.

With reference to fig. 5 and 6, a plurality of grooves 23 are formed in a surface of the slider 22 away from the hinge plate 21, the grooves 23 are vertically formed in the slider 22, a plurality of protrusions 13 matched with the grooves 23 are formed in the inner wall of the connecting groove 1 along the length direction of the connecting groove 1, in this embodiment, the cross section of each groove 23 is triangular, and the cross section of each protrusion 13 is triangular matched with the corresponding groove 23. After the slider 22 on the bracing piece 2 drives the articulated slab 21 and slides to the assigned position, remove slider 22 towards the diapire of spread groove 1 for recess 23 on the slider 22 cooperates with protruding 13 in the spread groove 1, prevents that slider 22 from driving bracing piece 2 and removing along the length direction of spread groove 1 in the spread groove 1, has improved bracing piece 2 to wallboard and floor board's supporting effect.

With reference to fig. 4 and 7, two ends of the connecting groove 1 are provided with openings, the connecting groove 1 is hinged to a position where the opening of the connecting groove 1 is located, the opening and closing plate 14 is provided with two ends located at the connecting groove 1, and the opening and closing plate 14 is provided with a torsion spring 141 at a position where the opening and closing plate 14 is hinged to the connecting groove 1. When the supporting rod 2 needs to slide into the connecting groove 1, the opening and closing plate 14 is opened by resisting the torsion of the torsion spring 141, the supporting rod 2 slides into the connecting groove 1, and when the supporting rod 2 is installed, the opening and closing plate 14 is loosened to enable the opening and closing plate 14 to automatically lock the torsion of the torsion spring 141 to the opening of the connecting groove 1, so that the supporting rod 2 is prevented from sliding out of the end part of the connecting groove 1.

As shown in fig. 4, lug plates 11 are provided on the outer wall of the connecting groove 1 and extend outward from both ends of the connecting groove 1, and the lug plates 11 are connected with the wall plate and the floor plate by bolts 12. In this embodiment, otic placode 11 sets up on the circumference position of spread groove 1 and is provided with 4, and the length of spread groove 1 sets up to 7m, and bracing piece 2 is provided with 7 and the interval is 1m in spread groove 1, adopts 4 bolts 12 to install spread groove 1 to wallboard and floor board on for 7 bracing pieces 2 of mountable in spread groove 1 need not to install 2 one of 7 bracing pieces, thereby has saved the manpower.

The working process is as follows: when the building wallboard support needs to be installed, the connecting groove 1 is firstly installed on the wallboard and the floor board through the bolt 12 respectively, the sliding rod 25 slides in the fixing rod 24 by rotating the bolt lead screw 26, thereby adjusting the length of the whole supporting rod 2, enabling the length of the supporting rod 2 to adapt to the space between the two connecting grooves 1, the opening and closing plate 14 is opened by resisting the torsion force of the torsion spring 141, the plurality of supporting rods 2 are driven, the supporting rod 2 drives the sliding block 22 on the hinged plate 21 to be connected into the connecting groove 1 in a sliding manner, after the supporting rod 2 slides to a designated position, the groove 23 on the sliding block 22 is matched with the bulge 13 in the connecting groove 1, the opening and closing plate 14 is loosened, so that the opening and closing plate 14 is shielded to the opening of the connecting groove 1, the supporting rod 2 is prevented from moving in the connecting groove 1 along the length direction of the, so that the supporting effect between the wall plate and the floor plate is achieved by the supporting rods 2 in the connecting grooves 1 on the two sides.

A method of erection of a prefabricated building panel support, the method comprising:

s1: determining mounting points of two ends of the supporting rod 2 on the wall plate and the floor plate; the installation points are determined, so that the support rod 2 can have a good support effect on the wall plate and the floor plate, and the length of the support rod 2 can be obtained, so that the length of the support rod 2 can be conveniently adjusted;

s2: the rotating handle 261 is rotated to rotate the threaded screw rod 26, so as to adjust the position of the sliding rod 25 in the fixed rod 24 and adjust the length of the whole supporting rod 2; the length of the support rod 2 is adjusted by adopting the threaded lead screw 26, so that the sliding rod 25 can be automatically locked to any position in the fixed rod 24, and the sliding rod 25 is prevented from being driven to move in the fixed rod 24 when the support rod 2 supports a wallboard and a floor slab;

s3: mounting the connecting groove 1 to the positions of mounting points on the wall plate and the floor plate through bolts 12; the connection mode of the bolts 12 is firm;

s4: rotating the opening and closing plate 14 so that the opening and closing plate 14 is in an open state against the torsion force of the torsion spring 141; the arrangement of the opening and closing plate 14 can prevent the support rod 2 from sliding out of the end part of the connecting groove 1;

s5: the sliding blocks 22 at the two ends of the supporting rods 2 are connected in the connecting grooves 1 of the wall plates and the floor plates at the two sides in a sliding manner, and the space between the supporting rods 2 in the connecting grooves 1 is adjusted; the connecting groove 1 is arranged on the wall plate and the floor plate, so that the plurality of supporting rods 2 slide into the connecting groove 1, the plurality of supporting rods 2 can be arranged only by arranging the connecting groove 1, and manpower is saved;

s6: after the distance is adjusted, the groove 23 on the sliding block 22 is driven to be matched with the bulge 13 in the connecting groove 1, and the wallboard is supported; after the supporting rod 2 moves to a designated position in the connecting groove 1, the groove 23 of the sliding block 22 is driven to be matched with the protrusion 13 in the connecting groove 1, and the supporting rod 2 is prevented from moving in the connecting groove 1 along the length direction of the connecting groove 1.

Claims (9)

1. The utility model provides an assembly type structure wallboard supports, its characterized in that, includes spread groove (1) that is used for being connected with wallboard and floor board respectively, both sides be provided with a plurality of bracing pieces (2) in spread groove (1), the both ends of bracing piece (2) are all articulated to be provided with articulated slab (21), articulated slab (21) keep away from be provided with sliding connection in slider (22) in spread groove (1) on the face of bracing piece (2), the both ends that just are located spread groove (1) on the outer wall of spread groove (1) extend towards the outside and are provided with otic placode (11), all be connected through bolt (12) between otic placode (11) and wallboard and the floor board.

2. A fabricated building panel support according to claim 1, c h a r a c T e r i z e d in that the connecting slots (1) are arranged in a "T" shape in cross-section, and that the sliding blocks (22) are arranged to cooperate with the connecting slots (1) of the "T" shape.

3. A fabricated building panel support according to claim 2, characterized in that the side of the slider (22) remote from the hinged plate (21) is provided with a plurality of grooves (23), the grooves (23) are vertically arranged on the slider (22), and the inner wall of the connecting groove (1) is provided with a plurality of protrusions (13) which are matched with the grooves (23) at the position of the slider (22).

4. A fabricated building panel support according to claim 1, c h a r a c t e r i z e d in that the connecting slots (1) are open at both ends.

5. An assembled building wallboard support according to claim 4, wherein the two ends of the connecting groove (1) and the position of the opening of the connecting groove (1) are provided with a hinged opening and closing plate (14), and the position of the hinged opening and closing plate (14) and the connecting groove (1) is provided with a torsion spring (141).

6. An assembled building panel support according to claim 1, characterized in that the support rod (2) is a telescopic structure, the telescopic structure comprises a fixed rod (24) and a sliding rod (25) inserted and slidably connected in the fixed rod (24), and the fixed rod (24) and the sliding rod (25) are provided with distance adjusting devices for adjusting the position of the sliding rod (25) in the fixed rod (24).

7. An assembled building panel support according to claim 6, characterized in that the fixing rod (24) is provided with a fixing plate (241) extending towards the outside from the outer wall thereof, the sliding rod (25) is provided with an adjusting plate (251) extending towards the outside from the outer wall thereof, the distance adjusting means comprises a threaded lead screw (26) rotatably connected to the fixing plate (241), and the adjusting plate (251) is threadedly connected to the threaded lead screw (26).

8. A fabricated building panel support according to claim 7, characterised in that the end of the threaded screw (26) is provided with a turning handle (261).

9. A method of prefabricated building panel support installation, the method comprising:

s1: determining mounting points of two ends of the supporting rod (2) on the wall plate and the floor plate;

s2: the rotating handle (261) is rotated to enable the threaded screw rod (26) to rotate, the position of the sliding rod (25) in the fixed rod (24) is adjusted, and the length of the whole supporting rod (2) is adjusted;

s3: mounting the connecting groove (1) to the positions of mounting points on the wall plate and the floor plate through bolts (12);

s4: rotating the opening and closing plate (14) to enable the opening and closing plate (14) to be in an opening state against the torsion force of the torsion spring (141);

s5: sliding blocks (22) at two ends of the supporting rods (2) are connected in connecting grooves (1) of the wall plates and the floor plates at two sides in a sliding mode, and the space between the supporting rods (2) in the connecting grooves (1) is adjusted;

s6: after the distance is adjusted, the groove (23) on the sliding block (22) is driven to be matched with the bulge (13) in the connecting groove (1) to support the wallboard.

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