CN111622521B - Connecting device is consolidated with roof beam board to engineering construction - Google Patents

Connecting device is consolidated with roof beam board to engineering construction Download PDF

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Publication number
CN111622521B
CN111622521B CN202010503343.5A CN202010503343A CN111622521B CN 111622521 B CN111622521 B CN 111622521B CN 202010503343 A CN202010503343 A CN 202010503343A CN 111622521 B CN111622521 B CN 111622521B
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China
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frame
reinforcing
layer
ring
suction
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CN202010503343.5A
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CN111622521A (en
Inventor
竺伶俐
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Hebei Fengfeng Civil Engineering Co.,Ltd.
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Hebei Fengfeng Civil Engineering Co ltd
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G23/00Working measures on existing buildings
    • E04G23/02Repairing, e.g. filling cracks; Restoring; Altering; Enlarging
    • E04G23/0218Increasing or restoring the load-bearing capacity of building construction elements
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G23/00Working measures on existing buildings
    • E04G23/02Repairing, e.g. filling cracks; Restoring; Altering; Enlarging
    • E04G23/0218Increasing or restoring the load-bearing capacity of building construction elements
    • E04G23/0237Increasing or restoring the load-bearing capacity of building construction elements of storey floors

Abstract

The invention discloses a beam-slab reinforcing and connecting device for engineering construction, which comprises a beam-slab main body, wherein a beam frame is arranged at the center of the inner end of the beam-slab main body, a second suction frame is sleeved at the center of the beam frame, a first suction frame is inserted at the side end position of the beam frame, the beam frame comprises a first reinforcing beam, a connecting groove, a bottom beam, a composite beam, a connecting rail, a second reinforcing beam, an annular beam frame, a reinforcing steel bar layer and a foam concrete composite layer, the annular beam frame is arranged at the center position of the inner end of the beam frame, the side end position of the annular beam frame is fixedly connected with the second reinforcing beam, the side end position of the second reinforcing beam is fixedly connected with the reinforcing steel bar layer, the inner end of the reinforcing steel bar layer is fixedly mixed with the foam concrete composite layer, and the side end of the center position of the reinforcing steel bar layer is wrapped with the composite beam. The invention relates to a beam plate reinforcing and connecting device for engineering construction, which achieves the purpose of absorbing stress at the inner end by arranging a first suction frame and a second suction frame.

Description

Connecting device is consolidated with roof beam board to engineering construction
Technical Field
The invention relates to the technical field of engineering construction equipment, in particular to a beam plate reinforcing and connecting device for engineering construction.
Background
Beam slab among the engineering construction is through the connection between self, realize holistic firm support, realize the fastening between floor and the ground, the help carries out holistic frame construction, it is the heavy of a building, if there is the quality in beam slab among the engineering construction or the problem of connecting, can lead to holistic structure unstability, the skew dislocation of building can take place for the light person, heavy person can lead to collapsing of whole building, but there is following problem in beam slab among the present engineering construction, the phenomenon of the dislocation transmission of stress each other is not convenient for carry out in the existence, can cause certain inconvenience, need improve.
Disclosure of Invention
The invention aims to provide a beam plate reinforcing and connecting device for engineering construction, which aims to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a beam plate reinforcing and connecting device for engineering construction comprises a beam plate main body, wherein a beam frame is arranged at the center of the inner end of the beam plate main body, a second suction frame is sleeved at the center of the beam frame, a first suction frame is inserted at the side end position of the beam frame, the beam frame comprises a first reinforcing beam, a connecting groove, a bottom beam, a composite beam, a connecting rail, a second reinforcing beam, an annular beam frame, a reinforcing steel bar layer and a foam concrete composite layer, the annular beam frame is arranged at the center position of the inner end of the beam frame, the side end position of the annular beam frame is fixedly connected with the second reinforcing beam, the side end position of the second reinforcing beam is fixedly connected with a reinforcing steel bar layer, the inner end of the reinforcing steel bar layer is fixedly mixed with the foam concrete composite layer, the side end of the center position of the reinforcing steel bar layer is wrapped with the composite beam phase, and the connecting rail is fixedly connected at the side end position of the composite, the first reinforcing beam is connected to the side end position of the composite beam, the bottom beam is fixed to the side end position of the first reinforcing beam, the connecting groove is formed in the top position of the bottom beam, the first suction frame comprises a sleeve beam frame, a sleeve ring layer, a conical frame, a first connecting rod, a fixed shaft, a second connecting rod, an elastic ring, a bottom shaft and a first bolt, the sleeve beam frame is arranged at the center position of the inner end of the first suction frame, the sleeve ring layer is connected to the bottom position of the inner end of the first suction frame, the side end of the sleeve ring layer is fixedly connected with the conical frame, the upper end position of the conical frame is arranged in a turnover mode with the first connecting rod, the upper end of the first connecting rod is rotatably connected with the fixed shaft and the elastic ring through the first bolt, the top end position of the second connecting rod is elastically connected with the elastic ring, the second suction frame comprises a seat disc, a guide rod, a beam column and a limiting ring, the seat disc is connected to the center position of the second, the side and the power of leading pole looks swing joint of seat dish, the upper end position of seat dish cup joints the setting with the beam column mutually, spacing ring fixed connection is in the top position department of beam column, the power of leading pole includes built-in frame, contact piece, second bolt, clamp, guide arm, spring frame and cooperation ring, the clamp connection is in the bottommost of power of leading pole, the front end position and the guide arm looks fixed connection of clamp, the rear end position and the spring frame elastic connection of guide arm, the top of spring frame is pegged graft mutually through the second bolt and is set up with the cooperation ring, the built-in frame connection is in the upper end position department of cooperation ring, the top position and the contact piece looks fixed connection of built-in frame.
Preferably, the force guide rod is connected with the connecting rail at the inner end of the cross beam frame in a sliding mode through a hoop at the inner end.
Preferably, the four force guide rods are annularly distributed about the central position of the second suction frame, and the built-in frames at the top end penetrate through the bottom end surface of the seat plate and are in contact with and fixed to the seat plate through the contact pieces.
Preferably, the end of the force guide rod, far away from the clamp, is elastically connected with the matching ring through a spring frame, and a spring is arranged at the inner end of the spring frame and is in contact with and fixed to the force guide rod through the spring.
Preferably, a bottom shaft at the inner end of the first suction frame is fixedly connected with the bottom end of the beam sleeving frame, and the beam sleeving frame is fixedly connected with a connecting groove at the top end of the bottom beam through the bottom shaft.
Preferably, the elastic ring at the inner end of the first suction frame is fixedly connected with the sleeve beam frame, the sleeve ring layer is fixedly connected with the conical frame, the conical frame can move on the sleeve beam frame through the sleeve ring layer, the upper end of the conical frame is arranged in a turnover mode through the first connecting rod and the second connecting rod and the first bolt, and the top end of the conical frame is elastically connected with the elastic ring.
Preferably, the bottom beam at the inner end of the cross beam frame is fixed with the first reinforcing beam, a groove structure is arranged at the center of the first reinforcing beam, and the groove structure is matched with the foam concrete composite layer at the center side end of the composite beam for filling.
Preferably, the steel bar layer at the inner end of the beam frame is connected to the inner end of the foam concrete composite layer in a penetrating manner, the foam concrete composite layer is filled to realize contact fixation with the steel bar layer, and the composite beam is wrapped and connected to the outer side of the foam concrete composite layer and used for protecting the side end position.
Compared with the prior art, the invention has the beneficial effects that:
1. by installing the crossbeam frame, the bottom position of the inner end of the crossbeam frame is fixed by the bottom beam, the bottom position of the annular beam frame can be provided with a main body for supporting the center, the top position of the bottom beam is spliced and fixed with the first suction frame through a connecting groove to help the connection between the crossbeam frame and the first suction frame, a first reinforcing beam arranged at the side end of the bottom beam is fixed with the bottom beam and connected with a foam concrete composite layer through the first reinforcing beam, the foam concrete composite layer is made of filling materials and filled outside a reinforcing steel bar layer to realize the connection with the first reinforcing beam and a second reinforcing beam, the composite beam is wrapped and arranged outside the foam concrete composite layer to realize the protection of the central foam concrete composite layer, a connecting rail at the side end is used for connecting with the second suction frame to help the adjustment of the transverse displacement, the annular beam frame arranged at the center position of the second reinforcing beam is connected with the bottom shaft at the center position of the second suction frame, realizing the fixation between each other.
2. By installing a first suction frame and a second suction frame, the inner end of the first suction frame is supported by a sleeve beam frame, a lantern ring layer and an elastic ring are connected at the upper end of the sleeve beam frame, wherein the elastic ring is fixedly connected with the sleeve beam frame, the lantern ring layer at the bottom end adopts movable connection, a conical frame positioned at the side end of the lantern ring layer is fixedly connected with the elastic ring layer, the connection between the first bolt and a fixed shaft and a second connecting rod is realized through a first connecting rod arranged at the upper end of the conical frame, so that the first connecting rod can perform limiting overturning movement through the first bolt, absorption of bottom transmission stress is realized through overturning, the elastic ring performs stress concentration absorption work through the fixed shaft and the second connecting rod, a force guide rod at the inner end of the second suction frame can be used for interconnecting a composite beam and a connecting rail, the force guide rod is connected at the side end position of the connecting rail, and limiting is realized, the seat dish that central point put can move about on the beam column, the spacing ring on top is used for carrying out the activity of seat dish spacing, the stress of conveying through the power guide rod, do not act on the seat dish under the condition that the absorption is not fallen, make and to do appropriate displacement between seat dish and the beam column, power guide rod is through the bottom position looks fixed connection of built-in frame with the seat dish, realize mutual contact through the contact piece and fix, it is articulated to be located the bottom and carry out the activity through second bolt and cooperation ring, connect through the spring bracket of side, therefore, the horizontal stress of conveying through the clamp, act on the guide arm, drive the spring bracket and carry out the absorption work, when stress is too big, convey through second bolt and cooperation ring, transmit to the seat dish of built-in frame top connection, make the seat dish carry out the appropriate activity of upper and lower extreme.
Drawings
FIG. 1 is a schematic view of the main structure of the present invention;
FIG. 2 is a schematic view of the cross-beam structure of the present invention;
FIG. 3 is a schematic view of a split structure of the beam frame of the present invention;
FIG. 4 is a schematic view of a first suction frame according to the present invention;
FIG. 5 is a schematic view of a disassembled structure of the first suction frame of the present invention;
FIG. 6 is a schematic view of a second suction frame according to the present invention;
fig. 7 is a schematic view of the force-guiding rod of the present invention.
In the figure: 1-a beam panel body; 2-a beam frame; 3-a first suction frame; 4-a second suction frame; 5-a first reinforcing beam; 6-connecting groove; 7-bottom beam; 8-a composite beam; 9-connecting rails; 10-a second reinforcing beam; 11-an annular beam frame; 12-a reinforcing steel layer; 13-foam concrete composite layer; 14-set of beam frames; 15-a collar layer; 16-a cone frame; 17-a first link; 18-a stationary shaft; 19-a second link; 20-an elastic ring; 21-bottom axis; 22-a first bolt; 23-a seat pan; 24-a force-guiding rod; 25-beam column; 26-a stop collar; 27-a built-in rack; 28-contact sheet; 29-a second bolt; 30-clamping a hoop; 31-a guide rod; 32-a spring holder; 33-mating rings.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-7, the present invention provides a technical solution: a beam plate reinforcing and connecting device for engineering construction comprises a beam plate main body 1, wherein a beam frame 2 is arranged at the center of the inner end of the beam plate main body 1, a second suction frame 4 is sleeved at the center of the beam frame 2, a first suction frame 3 is inserted at the side end position of the beam frame 2, the beam frame 2 comprises a first reinforcing beam 5, a connecting groove 6, a bottom beam 7, a composite beam 8, a connecting rail 9, a second reinforcing beam 10, an annular beam frame 11, a reinforcing steel bar layer 12 and a foam concrete composite layer 13, the annular beam frame 11 is arranged at the center position of the inner end of the beam frame 2, the side end position of the annular beam frame 11 is fixedly connected with the second reinforcing beam 10, the side end position of the second reinforcing beam 10 is fixedly connected with the reinforcing steel bar layer 12, the inner end of the reinforcing steel bar layer 12 is fixedly mixed with the foam concrete composite layer 13, the side end of the reinforcing steel bar layer 12 is arranged with the composite beam 8 in a phase manner, the connecting rail 9 is fixedly connected, the first reinforcing beam 5 is connected at the side end position of the composite beam 8, the bottom beam 7 is fixed with the side end position of the first reinforcing beam 5, the connecting groove 6 is arranged at the top position of the bottom beam 7, the first suction frame 3 comprises a sleeving beam frame 14, a lantern ring layer 15, a conical frame 16, a first connecting rod 17, a fixing shaft 18, a second connecting rod 19, an elastic ring 20, a bottom shaft 21 and a first bolt 22, the sleeving beam frame 14 is arranged at the inner end central position of the first suction frame 3, the lantern ring layer 15 is connected at the inner end bottom position of the first suction frame 3, the side end of the lantern ring layer 15 is fixedly connected with the conical frame 16, the upper end position of the conical frame 16 is arranged in a turnover mode with the first connecting rod 17, the upper end of the first connecting rod 17 is rotatably connected with the fixing shaft 18 and the elastic ring 20 through the first bolt 22, the top end position of the second connecting rod 19 is elastically connected with the elastic ring 20, the second suction frame 4 comprises a seat plate 23, a force guiding rod 24, a, the seat disk 23 is connected to the central position of the second suction frame 4, the side end of the seat disk 23 is movably connected with the force guiding rod 24, the upper end position of the seat disk 23 is sleeved with the beam column 25, the limiting ring 26 is fixedly connected to the top end position of the beam column 25, the force guiding rod 24 comprises an internal frame 27, a contact piece 28, a second bolt 29, a hoop 30, a guide rod 31, a spring frame 32 and a matching ring 33, the hoop 30 is connected to the bottommost end of the force guiding rod 24, the front end position of the hoop 30 is fixedly connected with the guide rod 31, the rear end position of the guide rod 31 is elastically connected with the spring frame 32, the top end of the spring frame 32 is connected with the matching ring 33 through the second bolt 29 in a plugging manner, the internal frame 27 is connected to the upper end position of the matching ring 33, the top position of the internal frame 27 is fixedly connected with the contact piece 28, the inner end position of the cross beam frame 2 is fixed at the bottom position by the bottom beam 7 by installing the cross beam frame 2, the top position of a bottom beam 7 is fixedly spliced with a first suction frame 3 through a connecting groove 6 to help the connection between a cross beam frame 2 and the first suction frame 3, a first reinforcing beam 5 arranged at the side end of the bottom beam 7 is fixed with the bottom beam 7 and is connected with a foam concrete composite layer 13 through the first reinforcing beam 5, the foam concrete composite layer 13 is made of filling materials and is filled outside a reinforcing steel bar layer 12 to realize the connection with the first reinforcing beam 5 and a second reinforcing beam 10, the composite beam 8 is wrapped outside the foam concrete composite layer 13 to realize the protection of the central foam concrete composite layer 13, a connecting rail 9 at the side end is used for connecting with a second suction frame 4 to help the adjustment of transverse displacement, an annular beam frame 11 arranged at the central position of the second reinforcing beam 10 is connected with a bottom shaft 21 at the central position of the second suction frame 4, realizing the fixation between each other.
The force guide rods 24 are connected with the connecting rails 9 at the inner end of the cross beam frame 2 in a sliding mode through the clamping bands 30 at the inner end, four force guide rods 24 are arranged and distributed in an annular mode relative to the central position of the second suction frame 4, the built-in frames 27 at the top end penetrate through the bottom end surface of the seat disc 23 and are fixedly contacted with the seat disc 23 through the contact pieces 28, one end, far away from the clamping bands 30, of each force guide rod 24 is elastically connected with the matching ring 33 through the spring frame 32, springs are arranged at the inner end positions of the spring frame 32 and are fixedly contacted with the guide rods 31 through the springs, and the force guide: a bottom shaft 21 at the inner end of the first suction frame 3 is fixedly connected with the bottom end position of a sleeve beam frame 14, the sleeve beam frame 14 is fixedly connected with a connecting groove 6 at the top end position of a bottom beam 7 through the bottom shaft 21, an elastic ring 20 at the inner end of the first suction frame 3 is fixedly connected with the sleeve beam frame 14, a ring sleeving layer 15 is fixedly connected with a cone frame 16, the cone frame 16 can move on the sleeve beam frame 14 through the ring sleeving layer 15, the upper end of the cone frame 16 is arranged in a turnover mode with a first bolt 22 through a first connecting rod 17 and a second connecting rod 19, the top end of the cone frame is elastically connected with the elastic ring 20, the bottom beam 7 at the inner end of a transverse beam frame 2 is fixed with a first reinforcing beam 5, a central position of the first reinforcing beam 5 is provided with a composite layer structure which is matched and filled with a foam concrete composite layer 13 at the central side end position of the composite beam 8, a reinforcing layer 12 at the inner end of the transverse beam frame 2 is connected with the, the contact fixation with the reinforcing steel bar layer 12 is realized, the composite beam 8 is arranged in a wrapping mode and is connected to the outer side of the foam concrete composite layer 13 and used for protecting the position of a side end, the first suction frame 3 and the second suction frame 4 are installed, the inner end of the first suction frame 3 is supported by the sleeving frame 14 in the center, the lantern ring layer 15 and the elastic ring 20 are connected to the upper end of the sleeving frame 14, the elastic ring 20 is fixedly connected with the sleeving frame 14, the lantern ring layer 15 at the bottom end is movably connected, the conical frame 16 at the side end of the lantern ring layer 15 is fixedly connected with the conical frame, the first connecting rod 17 arranged at the upper end of the conical frame 16 is connected with the fixed shaft 18 and the second connecting rod 19 through the first bolt 22, the first connecting rod 17 can perform limited overturning movement through the first bolt 22, absorption of bottom end transmission stress is realized through overturning, the fixed shaft 18 and the second connecting rod 19 act on the elastic ring 20, the elastic ring 20 is made to perform the concentrated absorption work of the stress, the force guiding rod 24 at the inner end of the second suction frame 4 can be used to perform the mutual connection between the composite beam 8 and the connecting rail 9, the force guiding rod 24 is connected to the side end position of the connecting rail 9 to realize the limit, the seat tray 23 at the central position can move on the beam column 25, the limiting ring 26 at the top end is used to perform the movable limit of the seat tray 23, the stress transmitted by the force guiding rod 24 can not be absorbed and acts on the seat tray 23, so that the seat tray 23 and the beam column 25 can be properly displaced, the force guiding rod 24 is fixedly connected with the bottom end position of the seat tray 23 through the built-in frame 27, the mutual contact and fixation can be realized through the contact piece 28, the bottom end is movably hinged with the matching ring 33 through the second bolt 29, the connection is performed through the spring frame 32 at the side end, thereby, the transverse stress transmitted by the hoop 30 acts on the guide rod 31, the spring bracket 32 is driven to absorb the excessive stress and the excessive stress is transmitted to the seat tray 23 connected to the top end of the built-in bracket 27 through the second bolt 29 and the mating ring 33, so that the seat tray 23 can move up and down properly.
The working principle is as follows: when the work is needed, a user installs the cross beam frame 2, the inner end of the cross beam frame 2 is fixed at the bottom position by the bottom beam 7, the bottom position of the ring beam frame 11 can be provided with a main body for supporting the center, the top position of the bottom beam 7 is spliced and fixed with the first suction frame 3 through the connecting groove 6 to help the connection between the cross beam frame 2 and the first suction frame 3, the first reinforcing beam 5 arranged at the side end of the bottom beam 7 is fixed with the bottom beam 7 and is connected with the foam concrete composite layer 13 through the first reinforcing beam 5, the foam concrete composite layer 13 is filling material and is filled at the outer side of the reinforcing steel bar layer 12 to realize the connection with the first reinforcing beam 5 and the second reinforcing beam 10, the composite beam 8 is wrapped and arranged at the outer side of the foam concrete composite layer 13 to realize the protection of the center foam concrete composite layer 13, the connecting rail 9 at the side end is used for the connection with the second suction frame 4, the adjustment of the transverse displacement is facilitated, the annular beam frame 11 arranged at the central position of the second reinforcing beam 10 is connected with the bottom shaft 21 at the central position of the second suction frame 4, the mutual fixation is realized, the first suction frame 3 and the second suction frame 4 are installed, the inner end of the first suction frame 3 is supported by the sleeve beam frame 14, the lantern ring layer 15 and the elastic ring 20 are both connected at the upper end of the sleeve beam frame 14, wherein the elastic ring 20 is fixedly connected with the sleeve beam frame 14, the lantern ring layer 15 at the bottom end adopts the movable connection, the conical frame 16 at the side end of the lantern ring layer 15 is fixedly connected with the conical frame, the connection between the first bolt 22 and the fixed shaft 18 and the second connecting rod 19 is realized through the first connecting rod 17 arranged at the upper end of the conical frame 16, the first connecting rod 17 can perform the limiting overturning movement through the first bolt 22, the absorption of the bottom transmission stress is realized through overturning, the elastic ring 20 is acted on the elastic ring 20 through the fixed shaft 18 and the second connecting rod 19, so that the elastic ring 20 performs the concentrated absorption work of stress, the force guide rod 24 at the inner end of the second suction frame 4 can be used for mutually connecting the composite beam 8 and the connecting rail 9, the force guide rod 24 is connected at the side end position of the connecting rail 9 to realize the limiting, the seat disc 23 at the central position can move on the beam column 25, the limiting ring 26 at the top end is used for movably limiting the seat disc 23, the stress transmitted by the force guide rod 24 can not be absorbed and acts on the seat disc 23, so that the seat disc 23 and the beam column 25 can be properly displaced, the force guide rod 24 is fixedly connected with the bottom end position of the seat disc 23 through the built-in frame 27, the mutual contact and fixation are realized through the contact piece 28, the bottom end is movably hinged with the matching ring 33 through the second bolt 29, and is connected through the spring frame 32 at the side end, therefore, the transverse stress transmitted by the clamp 30 acts on the guide rod 31 to drive the spring frame 32 to absorb the work, and when the stress is overlarge, the transverse stress is transmitted by the second bolt 29 and the matching ring 33 and is transmitted to the seat tray 23 connected with the top end of the built-in frame 27, so that the seat tray 23 can move up and down properly to finish the work.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a connecting device is consolidated with beam slab to engineering construction, includes beam slab main part (1), its characterized in that: the composite plate is characterized in that a beam frame (2) is arranged at the center of the inner end of the beam plate main body (1), a second suction frame (4) is sleeved at the center of the beam frame (2), a first suction frame (3) is inserted at the side end position of the beam frame (2), the beam frame (2) comprises a first reinforcing beam (5), a connecting groove (6), a bottom beam (7), a composite beam (8), a connecting rail (9), a second reinforcing beam (10), an annular beam frame (11), a reinforcing steel layer (12) and a foam concrete composite layer (13), the annular beam frame (11) is arranged at the center position of the inner end of the beam frame (2), the side end position of the annular beam frame (11) is fixedly connected with the second reinforcing beam (10), the side end position of the second reinforcing beam (10) is fixedly connected with the reinforcing steel layer (12), the inner end of the reinforcing steel layer (12) is fixedly mixed with the foam concrete composite layer (13), the central position side end of the reinforcing steel bar layer (12) is wrapped with the composite beam (8), the connecting rail (9) is fixedly connected to the side end position of the composite beam (8), the first reinforcing beam (5) is connected to the side end position of the composite beam (8), the bottom beam (7) is fixed to the side end position of the first reinforcing beam (5), the connecting groove (6) is formed in the top position of the bottom beam (7), the first suction frame (3) comprises a sleeved beam frame (14), a sleeved ring layer (15), a conical frame (16), a first connecting rod (17), a fixing shaft (18), a second connecting rod (19), an elastic ring (20), a bottom shaft (21) and a first plug pin (22), the sleeved beam frame (14) is arranged at the central position of the inner end of the first suction frame (3), the sleeved ring layer (15) is connected to the bottom position of the inner end of the first suction frame (3), and the side end of the sleeved ring layer (15) is fixedly connected with the conical frame (16), the upper end position of awl frame (16) turns over a book with first connecting rod (17) and sets up, first connecting rod (17) upper end is rotated mutually through first bolt (22) and fixed axle (18) and elastic ring (20) and is connected, the top position department and elastic ring (20) elastic connection of second connecting rod (19), second suction frame (4) are including seat dish (23), guide rod (24), beam column (25) and spacing ring (26), the central point department of second suction frame (4) is connected in seat dish (23), the side and the guide rod (24) looks swing joint of seat dish (23), the upper end position and the beam column (25) of seat dish (23) cup joint the setting mutually, spacing ring (26) fixed connection is in the top position department of beam column (25), guide rod (24) are including built-in frame (27), contact piece (28), second bolt (29), Clamp (30), guide arm (31), spring frame (32) and cooperation ring (33), the bottommost end at power guide pole (24) is connected in clamp (30), the front end position and guide arm (31) looks fixed connection of clamp (30), the rear end position and the spring frame (32) elastic connection of guide arm (31), the top of spring frame (32) is passed through second bolt (29) and is pegged graft the setting mutually with cooperation ring (33), the upper end position department at cooperation ring (33) is connected in built-in frame (27), the top position and the contact piece (28) looks fixed connection of built-in frame (27).
2. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: the force guide rod (24) is connected with the connecting rail (9) at the inner end of the cross beam frame (2) in a sliding mode through a hoop (30) at the inner end.
3. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: the four force guide rods (24) are annularly distributed relative to the center position of the second suction frame (4), and the built-in frames (27) at the top end penetrate through the bottom end surface of the seat disc (23) and are fixedly contacted with the seat disc (23) through contact pieces (28).
4. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: one end, far away from the hoop (30), of the force guide rod (24) is elastically connected with the matching ring (33) through a spring frame (32), a spring is arranged at the inner end of the spring frame (32), and the spring is in contact with and fixed to the force guide rod (31).
5. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: the bottom shaft (21) at the inner end of the first suction frame (3) is fixedly connected with the bottom end of the sleeve beam frame (14), and the sleeve beam frame (14) is fixedly connected with the connecting groove (6) at the top end of the bottom beam (7) through the bottom shaft (21).
6. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: elastic ring (20) and cover beam frame (14) looks fixed connection of first suction mount (3) the inner, lantern ring layer (15) and awl frame (16) looks fixed connection, awl frame (16) can move about on cover beam frame (14) through lantern ring layer (15), awl frame (16) upper end is turned over through first connecting rod (17) and second connecting rod (19) and first bolt (22) and is turned over the setting, and top and elastic ring (20) elastic connection.
7. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: the bottom beam (7) at the inner end of the cross beam frame (2) is fixed with the first reinforcing beam (5), a groove structure is arranged at the center of the first reinforcing beam (5), and the groove structure is matched with the foam concrete composite layer (13) at the center side end of the composite beam (8) for filling.
8. The beam plate reinforcing and connecting device for engineering construction according to claim 1, wherein: the steel bar layer (12) at the inner end of the transverse beam frame (2) is connected to the inner end of the foam concrete composite layer (13) in a penetrating mode, contact fixing between the transverse beam frame and the steel bar layer (12) is achieved through filling of the foam concrete composite layer (13), the composite beam (8) is arranged in a wrapping mode, is connected to the outer side of the foam concrete composite layer (13) and is used for protecting the side end position.
CN202010503343.5A 2020-06-05 2020-06-05 Connecting device is consolidated with roof beam board to engineering construction Active CN111622521B (en)

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CN202010503343.5A CN111622521B (en) 2020-06-05 2020-06-05 Connecting device is consolidated with roof beam board to engineering construction

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Publication number Priority date Publication date Assignee Title
CN101033646A (en) * 2006-10-19 2007-09-12 上海大学 Reinforcement method for reinforced concrete beam plate
EP3012379A1 (en) * 2014-10-22 2016-04-27 STAP-Reparação, Consolidação e Modificação de Estruturas, S.A. Dissipator panels and respective building system
CN209053461U (en) * 2018-11-21 2019-07-02 袁文帅 A kind of ruggedized construction of building structure floorboard
US10364565B1 (en) * 2017-05-23 2019-07-30 Jimmy Jackson Sub-floor brace for abating squeaking floors
CN209653460U (en) * 2019-03-01 2019-11-19 赵秋平 A kind of architectural engineering Vierendeel girder bracing means

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101033646A (en) * 2006-10-19 2007-09-12 上海大学 Reinforcement method for reinforced concrete beam plate
EP3012379A1 (en) * 2014-10-22 2016-04-27 STAP-Reparação, Consolidação e Modificação de Estruturas, S.A. Dissipator panels and respective building system
US10364565B1 (en) * 2017-05-23 2019-07-30 Jimmy Jackson Sub-floor brace for abating squeaking floors
CN209053461U (en) * 2018-11-21 2019-07-02 袁文帅 A kind of ruggedized construction of building structure floorboard
CN209653460U (en) * 2019-03-01 2019-11-19 赵秋平 A kind of architectural engineering Vierendeel girder bracing means

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