CN219638245U - Connecting structure for reinforced protection layer of cast-in-situ layer of laminated slab - Google Patents

Abstract

The utility model relates to a cast-in-place layer reinforcement protection layer connection structure of laminated plates, which relates to the technical field of building construction and comprises bottom reinforcement bars, connection reinforcement bars, a laminated plate reinforcement bar, an electromechanical wire tube and two-way plate bottom reinforcement bars, wherein the bottom reinforcement bars comprise two bottom reinforcement bars, the two bottom reinforcement bars are arranged in parallel, the connection reinforcement bars are used for connecting the bottom reinforcement bars and are fixedly connected with the bottom reinforcement bars, a plurality of laminated plate trusses are arranged on the bottom reinforcement bars, the laminated plate trusses are fixedly connected with the bottom reinforcement bars, the laminated plate reinforcement bars are fixedly connected with the laminated plate trusses, the plate reinforcement bars are arranged above the laminated plate reinforcement bars, the plate reinforcement bars are fixedly connected with the laminated plate reinforcement bars, the electromechanical wire tube is positioned below the laminated plate reinforcement bars and are fixedly connected with the laminated plate reinforcement bars, and the two-way plate bottom reinforcement bars are positioned below the electromechanical wire tube and are fixedly connected with the electromechanical wire tube. The utility model has the effect that the thickness of the truss, the electromechanical tube, the gluten layer and the protective layer is smaller than that of the cast-in-situ layer.

Description

Connecting structure for reinforced protection layer of cast-in-situ layer of laminated slab

Technical Field

The utility model relates to the technical field of building construction, in particular to a connecting structure of a reinforced protection layer of a cast-in-situ layer of a laminated slab.

Background

Along with the continuous development of science and technology, the building level of building is also continuously promoted, in order to promote the construction speed of building, the call of the corresponding improvement building assembly rate simultaneously also adopts the superimposed sheet + cast-in-place layer's construction technique generally when building the building, can effectually improve the construction speed of building, shortens the time limit for a project simultaneously, raises the efficiency.

In the related art, in the construction technology of the laminated slab and the cast-in-situ layer, the cast-in-situ layer is generally required to be poured, and in the general case, an electromechanical wire pipe is required to be arranged in the upper cast-in-situ layer in a penetrating way, and meanwhile, a plate rib and the like are arranged, so that stable support is provided for the cast-in-situ layer, and meanwhile, a threaded cavity is reserved in an inner cavity of the cast-in-situ layer, and meanwhile, preparation is provided for subsequent threading.

For the related technology, the actual thickness of the cast-in-situ layer is truss, electromechanical wire tube, gluten and protective layer, and the thickness of the cast-in-situ layer may be exceeded when the cast-in-situ layer is erected, so that related elements may be meshed with the cast-in-situ layer, the cast-in-situ layer is incompletely poured, the product is unqualified, and the resource waste is caused.

Disclosure of Invention

In order to enable the thickness of the truss, the electromechanical wire tube, the gluten layer and the protective layer to be smaller than that of the cast-in-situ layer, the utility model provides a connecting structure for the reinforced protective layer of the cast-in-situ layer of the laminated slab.

The utility model provides a connecting structure of a laminated slab cast-in-situ layer reinforcement protection layer, which adopts the following technical scheme:

the utility model provides a cast-in-place layer of superimposed sheet reinforcing bar protective layer connection structure, includes bottom reinforcing bar, connecting reinforcement, face plate muscle, electromechanical spool and two-way board bottom muscle, the bottom reinforcing bar includes two bottom reinforcing bars, two bottom reinforcing bar parallel arrangement, connecting reinforcement be used for connecting the bottom reinforcing bar just with bottom reinforcing bar fixed connection, all be equipped with a plurality of superimposed sheet trusses on the bottom reinforcing bar, the superimposed sheet truss with bottom reinforcing bar fixed connection, two be equipped with the face plate muscle between the bottom reinforcing bar, the face plate muscle with superimposed sheet truss fixed connection, face plate muscle top is equipped with the face plate muscle, the face plate muscle with face plate muscle fixed connection, electromechanical spool is located the below of face plate muscle, and with face plate muscle fixed connection, two-way board bottom muscle is located electromechanical spool's below, and with electromechanical spool fixed connection.

Through adopting above-mentioned technical scheme, the bottom reinforcing bar provides stable support for the superimposed sheet truss, and the plywood muscle is with superimposed sheet truss fixed connection, makes simultaneously and has certain distance between plywood muscle and the bottom reinforcing bar, the relevant structure of installation of being convenient for. The connecting steel bars can be used for connecting the bottom layer steel bars together, so that the connection of the bottom layer steel bars is more stable, the plate surface steel bars are located above the gluten layer steel bars, the electromechanical wire tube and the two-way plate bottom steel bars are located below the gluten layer steel bars, the thickness of the truss, the electromechanical wire tube, the gluten layer steel bars and the protective layer is shortened on the premise that the functionality is guaranteed, and then the total thickness meets the requirement.

Optionally, the fixing device further comprises a fixing device, the fixing device comprises a mounting assembly, the mounting assembly comprises an upper clamping plate and a lower clamping plate, the upper clamping plate and the lower clamping plate are symmetrically provided with placing grooves, the upper clamping plate and the lower clamping plate are all provided with through holes in a penetrating mode, the inner cavity of each through hole is provided with a connecting pipe, two ends of each connecting pipe are fixedly connected with a stop block, a section, far away from each through hole, of each upper clamping plate and each lower clamping plate is provided with a round hole and a threaded hole respectively, the inner cavity of each round hole is provided with a first bolt, and the first bolts sequentially penetrate through the round holes and the threaded holes and are in threaded connection with the lower clamping plates;

the upper clamping plate and the lower clamping plate are all abutted to the gluten of the gluten plate, and the gluten plate, the electromechanical wire tube and the two-way bottom gluten plate are all fixedly connected with the upper clamping plate.

Through adopting above-mentioned technical scheme, when using, loosen first bolt to make punch holder and lower plate rotate along the connecting pipe, make the standing groove open simultaneously, place the gluten in the inner chamber of standing groove, make punch holder and lower plate rotate along the connecting pipe afterwards, punch holder and lower plate laminating this moment, when sealing the standing groove, rotatory first bolt makes punch holder and lower plate hug closely in the gluten, and punch holder and lower plate fix the gluten of the face plywood. Both ends of the connecting pipe are provided with stop blocks, so that the connecting rod can be effectively prevented from sliding out of the through hole, and the upper clamping plate and the lower clamping plate are separated. The plate gluten, the electromechanical pipeline and the bidirectional bottom plate gluten are all arranged on the upper clamping plate or the lower clamping plate, so that the plate gluten, the electromechanical pipeline and the bidirectional bottom plate gluten can be effectively fixed, and displacement is prevented when a cast-in-situ layer is poured.

Optionally, the aperture of the through hole is slightly larger than the diameter of the connecting pipe, and the aperture of the through hole is slightly smaller than the diameter of the stop block.

Through adopting above-mentioned technical scheme, the diameter of through-hole slightly is greater than the diameter of connecting pipe, makes the connecting pipe can make can rotate certain angle between punch holder and the lower plate when convenient rotation in the through-hole, is convenient for place the gluten of gluten in the inner chamber of standing groove.

Optionally, the fixing device further comprises a fixing component, the fixing component comprises a transverse plate and two vertical plates, the two vertical plates are respectively located at two sides of the transverse plate and fixedly connected with the transverse plate, any one of the vertical plates is rotationally connected with the lower clamping plate, the other vertical plate is provided with a connecting hole, a second bolt is arranged in the connecting hole, the second bolt is in threaded connection with the vertical plates, two abutting plates are arranged at one sides, close to each other, of the vertical plates, the abutting plates are rotationally connected with the second bolt, and the abutting plates are in abutting connection with the electromechanical wire tube.

Through adopting above-mentioned technical scheme, when fixed electromechanical spool, the angular relationship of adjustment diaphragm and lower plate makes electromechanical spool place between butt board and another riser, and rotatory second bolt this moment, second bolt and butt board rotate to be connected, drive the butt board and slide along the direction that the horizontal direction is close to electromechanical spool, until butt board butt in electromechanical spool's lateral wall, accomplish the fixed to electromechanical spool, simultaneously with the fixed position between electromechanical spool and the panel muscle, prevent to appear shifting when pouring.

Optionally, the abutting plate and the end face, which is in rotary connection with the lower collecting clamping plate and is close to the vertical plate portrait, are respectively provided with an elastic pad, and the two elastic pads are respectively and fixedly connected with the vertical plate and the abutting plate.

Through adopting above-mentioned technical scheme, the elastic pad can reduce the direct extrusion of butt board and riser to the electromechanical spool when butt board and riser contact with the electromechanical spool, and then protect the electromechanical spool, prevent that the electromechanical spool from receiving excessive extrusion, and produce excessive deformation and lead to damaging.

Optionally, the fixing device further comprises a clamping assembly, the clamping assembly comprises a fixing tube, a moving rod and a mounting plate, the fixing tube is elastically hinged with the lower clamping plate, the moving rod penetrates through the fixing tube and can slide along the fixing tube, the fixing tube is provided with a first jackscrew, and the first jackscrew is used for fixedly fixing the telescopic fixing tube and the moving rod; the mounting plate is elastically hinged with the collecting moving rod, clamping pieces are arranged at two ends of the mounting plate, one end of each clamping piece is elastically hinged with the mounting plate, the other end of each clamping piece is inclined towards the direction close to each other, two clamping pieces and the mounting plate enclose to form a clamping gap, and the clamping gap is used for accommodating the two-way plate bottom ribs.

Through adopting above-mentioned technical scheme, the movable rod can slide along fixed pipe, and then changes the distance at movable rod and fixed pipe both ends, makes the distance between mounting panel and the lower plate can change, and first jackscrew can fix movable rod and fixed pipe, prevents that movable rod and fixed pipe from sliding. At this time, the angle between the mounting plate and the lower clamping plate is adjusted, the two clamping sheets are rotated, the clamping gap is opened instead of the clamping gap, the two-way bottom plate rib is located in the inner cavity of the clamping gap, the clamping sheets are loosened at this time, the clamping sheets rotate towards the directions close to each other under the action of the torsion springs, the two-way bottom plate rib is clamped, and then the two-way bottom plate rib is fixed with the lower clamping plate, so that displacement is prevented when pouring.

Optionally, each clamping piece is provided with a guide piece, the guide piece is fixedly connected with the clamping piece, and one end of the guide piece away from the clamping piece inclines towards a direction away from each other.

Through adopting above-mentioned technical scheme, guide blade one end is fixed with the centre gripping piece, and the other end is inclined towards the direction of keeping away from each other, can be convenient for two-way bottom plate muscle enter into the inner chamber in centre gripping clearance, and the operating personnel of being convenient for operates, when improving work efficiency, reduces operating personnel's working strength.

Optionally, the fixing device further comprises a hanging assembly, the hanging assembly further comprises a supporting rod and a hook, the supporting rod is elastically hinged with the upper clamping plate, the hook is rotatably connected with the collecting supporting rod, the hook is provided with a second jackscrew, and the second jackscrew is used for fixing the hook on the plate surface rib.

Through adopting above-mentioned technical scheme, when using, adjust the length of bracing piece to with the couple connect in the face muscle, fix couple and face muscle with the second jackscrew, prevent couple and face muscle pine takes off, appear shifting when pouring, cause the connection unstable.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. by arranging the cast-in-situ layer reinforcement protection layer of the laminated slab, the bottom layer reinforcement provides stable support for the laminated slab truss, the connecting reinforcement provides stable support for the bottom layer reinforcement, the laminated slab truss provides stable support for the gluten plate, the electromechanical line pipe and the bidirectional plate bottom reinforcement are positioned below the gluten plate, and the plate surface reinforcement is positioned above the gluten plate, so that the thickness of the truss, the electromechanical line pipe, the gluten plate and the protection layer is effectively shortened;

2. by arranging the connecting steel bars, stable support can be provided for the bottom layer steel bars, so that the stability of the device is improved;

3. through setting up fixing device, can fix bottom plate reinforcing bar, superimposed sheet truss, gluten board muscle and face muscle, prevent to appear shifting when cast-in-place layer pours.

Drawings

FIG. 1 is a schematic overall structure of embodiment 1;

FIG. 2 is a schematic view of the overall structure of the first view angle of embodiment 2;

FIG. 3 is a schematic cross-sectional view of a mounting assembly;

FIG. 4 is a schematic view of the overall structure of the second view angle of embodiment 2;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

fig. 6 is a schematic view of the overall structure of the third view angle of embodiment 2.

Reference numerals: 1. bottom layer steel bars; 11. a bottom reinforcing bar; 2. connecting steel bars; 3. superimposed sheet truss; 4. gluten of the wheat flour plate; 41. a sheet gluten; 5. an electromechanical spool; 6. two-way plate bottom ribs; 7. a fixing device; 71. a mounting assembly; 711. an upper clamping plate; 712. a lower clamping plate; 713. a placement groove; 714. a through hole; 715. a connecting pipe; 716. a stop block; 717. a round hole; 718. a threaded hole; 719. a first bolt; 72. a fixing assembly; 721. a cross plate; 722. a riser; 723. a connection hole; 724. a second bolt; 725. an abutting plate; 726. a limit groove; 727. a limiting block; 728. an elastic pad; 73. a clamping assembly; 731. a fixed tube; 732. a moving rod; 733. a mounting plate; 734. a first jackscrew; 735. a clamping piece; 736. a clamping gap; 737. a guide piece; 74. a suspension assembly; 741. a support rod; 742. a hook; 743. and a second jackscrew.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-6.

The embodiment of the utility model discloses a connecting structure of a cast-in-situ layer reinforcement protection layer of a laminated slab.

Example 1

Referring to fig. 1, the laminated slab cast-in-situ layer reinforcement protection layer connection structure includes a bottom layer reinforcement 1, a plurality of connection reinforcement 2 and a plurality of laminated slab trusses 3.

Referring to fig. 1, in this embodiment, the bottom layer reinforcement bars 1 are provided with a plurality of groups, each group of bottom layer reinforcement bars 1 includes two bottom reinforcement bars 11, and the two bottom reinforcement bars 11 are disposed in parallel. The connecting steel bars 2 are provided with a plurality of connecting steel bars, are distributed at intervals along the length direction of the bottom steel bars 11, the length direction of the connecting steel bars 2 is perpendicular to the length direction of the bottom steel bars 11, and the connecting steel bars 2 are located above the bottom steel bars 11 and fixedly connected with the bottom steel bars 11 in a welded mode.

Referring to fig. 1, each bottom steel bar 11 is provided with a plurality of superimposed sheet trusses 3, the superimposed sheet trusses 3 are arranged at intervals along the length direction of the bottom steel bar 11, in this embodiment, the superimposed sheet trusses 3 are preferably V-shaped bars with downward openings, and the bottom ends of the superimposed sheet trusses 3 are fixedly connected with the bottom steel bar 11 in a welded manner.

Referring to fig. 1, a gluten layer 4 is sandwiched between two adjacent two laminated truss frames 3, and the length direction of the gluten layer 4 is parallel to the bottom steel bar 11, and two sides of the gluten layer 4 are fixedly connected with the laminated truss frames 3 in a welding manner.

Referring to fig. 1, a plurality of plate gluten 41 are arranged above the gluten layer 4, the plate gluten 41 are arranged at intervals along the length direction of the bottom steel bar 11, the length direction of the plate gluten 41 is perpendicular to the length direction of the bottom steel bar 11, and the plate gluten 41 is fixedly connected with the gluten layer 4 through a binding belt.

Referring to fig. 1, a plurality of electromechanical tubes 5 are arranged below the gluten 4, the electromechanical tubes 5 are arranged at intervals along the length direction of the bottom reinforcing steel bars 11, the axial direction of the electromechanical tubes is perpendicular to the length direction of the gluten 4, and the electromechanical tubes are fixedly connected with the gluten 4 through a binding belt.

Referring to fig. 1, a bi-directional plate bottom rib 6 is arranged below the electromechanical pipeline, and in this embodiment, the bi-directional plate bottom rib 6 is fixedly connected with the electromechanical pipeline 5 by means of a tie.

The implementation principle of the embodiment 1 is as follows: when the reinforced concrete slab is erected, the bottom reinforcing steel bars 11 are arranged, the connecting reinforcing steel bars 2 are erected above the bottom reinforcing steel bars 11 in a mode perpendicular to the bottom reinforcing steel bars 11, welding is carried out, the laminated slab truss 3 is welded along the length direction of the bottom reinforcing steel bars 11, and the gluten plate bars 4 are fixed on the laminated slab truss 3, so that one-time casting is completed.

At this time, the electromechanical wire tube 5 and the bidirectional plate bottom rib 6 are fixed at the bottom of the gluten layer 4 along the vertical direction, the plate gluten 41 is fixed above the gluten layer 4, and a cast-in-place layer is poured, so that the thickness of the laminated truss 3+electromechanical wire tube 5+gluten layer 4+protection layer meets a certain thickness requirement.

Embodiment 2 is different from embodiment 1 in that, when the cast-in-place layer is cast, impact may be caused to the electromechanical tube 5 and the like, and thus the electromechanical tube 5 and the like may be displaced.

Referring to fig. 2, the fixing device 7 is further included, and the fixing device 7 includes a mounting assembly 71, a fixing assembly 72, a clamping assembly 73, and a hanging assembly 74

Referring to fig. 1, 2 and 3, the mounting assembly 71 includes an upper clamping plate 711 and a lower clamping plate 712, in this embodiment, the upper clamping plate 711 and the lower clamping plate 712 are preferably rectangular plates, end faces close to each other are symmetrically provided with a placement groove 713 along a horizontal direction, any one end of the upper clamping plate 711 and any one end of the lower clamping plate 712 are all provided with a through hole 714 in a penetrating manner along a vertical direction, an inner cavity of the through hole 714 is provided with a connecting pipe 715, the connecting pipe 715 is vertically placed and sequentially penetrates through the through hole 714 of the upper clamping plate 711 and the through hole 714 of the lower clamping plate 712, in this embodiment, the diameter of the connecting pipe 715 is slightly smaller than the aperture of the through hole 714, the length of the connecting pipe 715 is greater than the sum of the thicknesses of the upper clamping plate 711 and the lower clamping plate 712, the top wall and the bottom wall of the connecting pipe 715 are provided with circular stoppers 716, and the diameters of the stoppers 716 are greater than the aperture of the through hole 714. The upper clamping plate 711 is far away from the one end of through-hole 714 and runs through along vertical direction and is equipped with the round hole 717, and the lower clamping plate 712 is far away from the one end of through-hole 714 and runs through along vertical direction and be equipped with screw hole 718, and round hole 717 and screw hole 718 are coaxial, are equipped with first bolt 719 in the round hole 717, and round hole 717 and screw hole 718 are worn to locate in proper order to first bolt 719, and first bolt 719 and lower clamping plate 712 threaded connection.

Referring to fig. 3, 4 and 5, the clamping assembly 73 includes a cross plate 721 and two risers 722, the cross plate 721 is horizontally disposed, the risers 722 are vertically disposed, and the two risers 722 are respectively disposed at two ends of the cross plate 721 and fixedly connected with the cross plate 721 by welding. Any riser 722 is rotationally connected with one end of the lower clamping plate 712, which is close to the threaded hole 718, through a bearing, a connecting hole 723 is penetrated through by the other riser 722 along the horizontal direction, a second bolt 724 is arranged in the inner cavity of the connecting hole 723, a propping plate 725 is arranged on one side, which is close to each other, of the two risers 722, the propping plate 725 is rotationally connected with the second bolt 724, a limiting groove 726 is arranged on the top wall of the transverse plate 721 along the long side direction, a limiting block 727 is arranged in the inner cavity of the limiting groove 726, the limiting block 727 can slide along the limiting groove 726, the limiting block 727 is fixedly connected with the propping plate 725 in a welding mode, elastic pads 728 are arranged on the end faces, which are close to each other, of the riser 722 and the propping plate 725, which are rotationally connected with the lower clamping plate 712, and the two elastic pads 728 are respectively fixedly connected with the riser 722 and the propping plate 725 in a screw fixing mode.

Referring to fig. 6, the clamping assembly 73 includes a fixing tube 731, a moving rod 732 and a mounting plate 733, the fixing tube 731 is rotationally connected with the lower clamping plate 712 by means of a damping ball hinge, the moving rod 732 is disposed in an inner cavity of the fixing tube 731 in a penetrating manner, a first jackscrew 734 is disposed on the fixing tube 731 and is in threaded connection with the fixing tube 731, the first jackscrew 734 is abutted to a side wall of the moving rod 732 after passing through the fixing tube 731, the mounting plate 733 is elastically hinged with one end of the moving rod 732 far away from the lower clamping plate 712 by means of a damping ball hinge, two ends of the mounting plate 733 are symmetrically provided with a clamping piece 735 along a longitudinal direction perpendicular to the mounting plate 733, and the clamping piece 735 is elastically hinged with the mounting plate 733 by means of a torsion spring. In this embodiment, one ends of the two clamping sheets 735 away from the torsion spring are inclined in a direction approaching each other, and the two clamping sheets 735 and the mounting plate 733 together enclose a clamping gap 736. The one end that two grip tabs 735 kept away from the torsional spring all is equipped with guide tab 737, and guide tab 737 passes through welded mode and grip tab 735 fixed connection, and the one end that grip tab 735 was kept away from to two guide tabs 737 inclines towards the one side that keeps away from each other.

Referring to fig. 4, the suspension assembly 74 includes a supporting rod 741 and a hook 742, in this embodiment, the supporting rod 741 is preferably a damping telescopic rod, the supporting rod 741 is rotatably connected with the upper clamping plate 711 through a rotating shaft, the hook 742 is rotatably connected with a section of the supporting rod 741 far away from the upper clamping plate 711 through the rotating shaft, a second jackscrew 743 is arranged on the hook 742, the second jackscrew 743 is in threaded connection with the hook 742, and the second jackscrew 743 is abutted against the gluten 4 of the gluten plate after penetrating through the hook 742

The implementation principle of the embodiment 2 is as follows: the upper and lower clamping plates 711 and 712 are first opened at a certain angle to position the gluten 4 in the cavity of the placing groove 713, at this time, the upper and lower clamping plates 711 and 712 are attached, and the upper and lower clamping plates 711 and 712 are fixed by the first bolts 719.

At this time, the angular relationship between the cross plate 721 and the lower clamping plate 712 is adjusted, the electromechanical wire tube 5 is placed between the abutting plate 725 and the other vertical plate 722, and the second bolt 724 is rotated, so that the abutting plate 725 slides along the length direction of the limiting groove 726 until the elastic pad 728 abuts against the side wall of the electromechanical wire tube 5, and the fixation of the electromechanical wire tube 5 is completed.

The angle relation between the fixed pipe 731 and the lower clamping plate 712 is adjusted, and the position between the movable rod 732 and the fixed pipe 731 is adjusted, so that the mounting plate 733 is located at the bi-directional plate bottom rib 6, at this time, the clamping plate 735 is rotated, the clamping gap 736 is opened, the bi-directional plate bottom rib 6 is placed in the inner cavity of the clamping gap 736, the clamping plate 735 is loosened, and the clamping plate 735 returns to the initial position under the action of the torsion spring, so that the fixation of the bi-directional plate bottom rib 6 is completed.

The angle relation between the supporting rod 741 and the upper clamping plate 711 is adjusted, the hook 742 is hung on the plate gluten 41, and the plate gluten 41 is fixed by the second jackscrew 743. The gluten layer 4, the electromechanical wire tube 5, the bidirectional plate bottom rib 6 and the plate surface rib 41 can be fixed, and displacement is prevented during pouring.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. Cast-in-situ layer reinforcement protection layer connection structure of superimposed sheet, its characterized in that: including bottom reinforcing bar (1), connecting reinforcement (2), flour laminate bar (4), electromechanical spool (5) and two-way board end bar (6), bottom reinforcing bar (1) include two bottom reinforcing bars (11), two bottom reinforcing bars (11) parallel arrangement, connecting reinforcement (2) are used for connecting bottom reinforcing bars (11) and with bottom reinforcing bars (11) fixed connection, all be equipped with a plurality of superimposed sheet trusses (3) on bottom reinforcing bars (11), superimposed sheet truss (3) with bottom reinforcing bars (11) fixed connection, two be equipped with flour laminate bar (4) between bottom reinforcing bars (11), flour laminate bar (4) with superimposed sheet truss (3) fixed connection, flour laminate bar (4) top is equipped with board gluten (41), board gluten (41) with flour laminate bar (4) fixed connection, electromechanical spool (5) are located the below of flour laminate bar (4), and with flour laminate bar (4) fixed connection, 6) are located electromechanical spool (5) and two-way board (5).

2. The laminated slab cast-in-situ layer reinforcement protection layer connection structure according to claim 1, wherein: the fixing device (7) comprises a mounting assembly (71), the mounting assembly (71) comprises an upper clamping plate (711) and a lower clamping plate (712), the upper clamping plate (711) and the lower clamping plate (712) are symmetrically provided with a placing groove (713), the upper clamping plate (711) and the lower clamping plate (712) are all provided with through holes (714) in a penetrating mode, the inner cavity of each through hole (714) is provided with a connecting pipe (715), two ends of each connecting pipe (715) are fixedly connected with a stop block (716), one section, far away from each through hole (714), of each upper clamping plate (711) and each lower clamping plate (712) is provided with a round hole (717) and a threaded hole (718), the inner cavity of each round hole (717) is provided with a first bolt (719), and each first bolt (719) is sequentially arranged through the round holes (717) and the threaded holes (718) in a threaded mode.

The upper clamping plate (711) and the lower clamping plate (712) are respectively abutted to the gluten (4), and the plate gluten (41), the electromechanical wire tube (5) and the two-way plate bottom gluten (6) are respectively fixedly connected with the upper clamping plate (711).

3. The laminated slab cast-in-situ layer reinforcement protection layer connection structure according to claim 2, wherein: the aperture of the through hole (714) is larger than the diameter of the connecting pipe (715), and the aperture of the through hole (714) is smaller than the diameter of the stop block (716).

4. The laminated slab cast-in-situ layer reinforcement protection layer connection structure according to claim 2, wherein: the fixing device (7) further comprises a fixing assembly (72), the fixing assembly (72) comprises a transverse plate (721) and two vertical plates (722), the two vertical plates (722) are respectively located on two sides of the transverse plate (721) and fixedly connected with the transverse plate (721), any one vertical plate (722) is rotationally connected with the lower clamping plate (712), the other vertical plate (722) is provided with a connecting hole (723), a second bolt (724) is arranged in the connecting hole (723), the second bolt (724) is in threaded connection with the vertical plate (722), an abutting plate (725) is arranged on one side, close to each other, of the two vertical plates (722), the abutting plate (725) is rotationally connected with the second bolt (724), and the abutting plate (725) is in abutting connection with the electromechanical spool (5).

5. The laminated slab cast-in-situ layer reinforcement protection layer connecting structure according to claim 4, wherein: the abutting plate (725) and the end face, which is rotationally connected with the lower collecting clamp plate (712) and is close to the portrait of the vertical plate (722), are respectively provided with an elastic pad (728), and the two elastic pads (728) are respectively and fixedly connected with the vertical plate (722) and the abutting plate (725).

6. The laminated slab cast-in-situ layer reinforcement protection layer connection structure according to claim 5, wherein: the fixing device (7) further comprises a clamping assembly (73), the clamping assembly (73) comprises a fixing tube (731), a moving rod (732) and a mounting plate (733), the fixing tube (731) is elastically hinged with the lower clamp plate (712), the moving rod (732) penetrates through the fixing tube (731) and can slide along the fixing tube (731), the fixing tube (731) is provided with a first jackscrew (734), and the first jackscrew (734) is used for fixedly fixing the telescopic fixing tube (731) and the moving rod (732); mounting panel (733) and the elastic hinge who cleans movable rod (732), mounting panel (733) both ends all are equipped with centre gripping piece (735), two centre gripping piece (735) one end with mounting panel (733) elastic hinge, the other end is towards the direction slope that is close to each other, two centre gripping piece (735) with mounting panel (733) enclose to establish and form centre gripping clearance (736), centre gripping clearance (736) are used for holding two-way board end bar (6).

7. The laminated slab cast-in-situ layer reinforcement protection layer connection structure according to claim 6, wherein: each clamping piece (735) is provided with a guide piece (737), the guide piece (737) is fixedly connected with the clamping piece (735), and one end, far away from the clamping piece (735), of the guide piece (737) inclines towards the direction far away from each other.

8. The laminated slab cast-in-situ layer reinforcement protection layer connection structure according to claim 2, wherein: the fixing device (7) further comprises a hanging assembly (74), the hanging assembly (74) further comprises a supporting rod (741) and a hook (742), the supporting rod (741) is elastically hinged to the upper clamping plate (711), the hook (742) is rotatably connected with the collecting supporting rod (741), the hook (742) is provided with a second jackscrew (743), and the second jackscrew (743) is used for fixing the hook (742) to the plate surface rib (41).