CN211369056U - Assembly type building element connecting device - Google Patents

Abstract

The utility model relates to an assembled building element connecting device, including component seat, component post, above-mentioned component seat is provided with a plurality of reinforcing bars all around along being provided with, and above-mentioned component post is provided with a plurality of holes that carry out the grafting with the reinforcing bar, and above-mentioned component seat still is provided with and increases solid mechanism, and above-mentioned component post still is provided with and increases the fixed orifices that solid mechanism carries out the grafting. The beneficial effects are that can be convenient stable run through the counterbalance, improve the contact application of force, increase the installation steadiness.

Description

Assembly type building element connecting device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a building engineering technical field, concretely relates to assembled building element connecting device.

[ background of the invention ]

The building refers to a structure built by people from all available materials such as soil, stone, wood, steel, glass, reed, plastic, ice blocks and the like. The concept of fabricated building was first proposed by the world's famous architect gloveus, and large scale fabricated building practices have been practiced for more than half a century. The member connection structure of the assembly type building mechanism refers to a main body connecting piece structure between assembly type building installation, is the most basic and the most important construction link in the assembly type building, and influences the quality of the whole building construction project. But it is fixed through the unidirectional post-cast concrete that inserts of reinforcing bar usually during current connection structure installation, leads to the connected mode comparatively simple and easy, influences the steadiness after using for a long time. The utility model discloses improve to above-mentioned technical problem.

[ Utility model ] content

The utility model aims at providing a can be convenient stable run through the counterbalance, improve the contact application of force, increase the assembled building element connecting device of installation steadiness.

In order to achieve the purpose, the utility model discloses the technical scheme who takes is an assembly type building element connecting device, including component seat, component post, above-mentioned component seat week is provided with a plurality of reinforcing bars along being provided with, and above-mentioned component post is provided with a plurality of holes that carry out the grafting with the reinforcing bar, and above-mentioned component seat still is provided with the mechanism of consolidating, and above-mentioned component post still is provided with the fixed orifices that carries out the grafting with the mechanism of consolidating.

According to a further preferred technical scheme, the reinforcing mechanism comprises a casing, a limiting ring, an embedding groove, a pressing block, a guide rail and a connecting plate; the limiting ring bottom region is fixed on the component seat, the limiting ring is provided with an embedding groove opposite to the inserting direction of the fixing hole, a guide rail and a casing are sequentially arranged above the embedding groove along the inserting direction of the fixing hole, a connecting plate is arranged at the bottom of the casing opposite to the embedding groove, a pressing block is arranged in the plane extending direction of the connecting plate, and the pressing block drives the connecting plate to slide along the guide rail and fall into the embedding groove when used for the fixing hole inserting and reinforcing mechanism.

Preferably, the structure of the inner wall of the caulking groove is matched with the structure of the outer side of the pressing block, and the groove depth of the caulking groove is larger than the thickness of the pressing block.

Preferably, the casing has a hollow cavity structure inside, and the inner wall of the hollow cavity is rectangular.

According to a further preferred technical scheme, the reinforcing mechanism further comprises fixing blocks, a support, clamping grooves and a fixing frame, the two symmetrical fixing blocks are arranged on the left side and the right side of the top end of the casing in a sliding mode, the bottom end of the support is perpendicularly welded on the connecting plate, the top end of the support is provided with the recessed clamping grooves, the inner ends of the fixing blocks are connected with the clamping grooves in an inserting mode through the fixing frame, and the connecting plate, the support and the fixing blocks are driven to slide along the guide rails when the fixing holes are connected with.

Preferably, the left side and the right side of the bracket are connected with the fixing block in a sliding manner, and the cross section of the connecting plate is circular.

According to a further preferable technical scheme, the reinforcing mechanism further comprises an elastic mechanism, and the bottom end of the connecting plate is fixedly connected to the caulking groove through the two elastic mechanisms; the fixing block is in sliding connection with the casing shells on the two sides and the support through the two elastic mechanisms respectively.

Preferably, the elastic mechanism comprises two supports, two column blocks and a spring, wherein the middle parts of the supports, which are opposite to each other, are respectively and integrally formed with a protruding column block, and the upper end and the lower end of the spring are connected to the two column blocks.

Preferably, the fixing frame is integrally L-shaped, and the bottom end of the fixing frame is vertically welded on the fixing block.

Preferably, the reinforcement mechanism and the fixing hole are respectively provided at intermediate positions of the member seat and the member column.

The utility model relates to an assembly type building element connecting device has following beneficial effect: in order to solve the problems that the connection mode is relatively simple and easy and the stability is influenced after long-term use because the existing connection structure is generally fixed by pouring concrete after unidirectional insertion of reinforcing steel bars during installation, the reinforcing mechanism is arranged on the component seat and inserted into the central inner walls at two ends of the fixed hole to be in contact and fixed with the component column, so that the advantages of convenient and stable penetration and offset, improved contact force application and increased installation stability are achieved; and through having set up elasticity mechanism on the cover shell, make the spring pass through support and post piece again and install fixedly, for fixed block and connecting plate improve elasticity, reach convenient effectual applying elasticity to fixed block and connecting plate, improve the advantage of convenience of use and stability.

[ description of the drawings ]

Fig. 1 is a schematic view of a coupling device for prefabricated building elements.

Fig. 2 is a schematic view of an inner structure of a column of the assembled construction element connecting device.

Fig. 3 is a schematic structural view of a reinforcing mechanism of the assembled building component connecting device.

Fig. 4 is a schematic view of the internal structure of a reinforcing mechanism of the assembled building component connecting device.

Fig. 5 is a schematic view of a spring mechanism of a fabricated building element connecting device.

The reference numerals and components referred to in the drawings are as follows: 1. the structure comprises a component seat, 2, a steel bar, 3, a component column, 4, a strip hole, 5, a fixing hole, 6, a reinforcing mechanism, 601, a casing, 602, a limiting ring, 603, an embedding groove, 604, a pressing block, 605, a guide rail, 606, a fixing block, 607, a connecting plate, 608, a support, 609, a clamping groove, 610, a fixing frame, 611, an elastic mechanism, 6111, a support, 6112, a column block, 6113 and a spring.

[ detailed description ] embodiments

The invention will be further described with reference to the following examples and with reference to the accompanying drawings.

Examples

The present embodiment realizes a prefabricated building element connecting device.

Fig. 1 shows a schematic view of a prefabricated building element connecting device. Fig. 2 shows a schematic view of the internal structure of a column of elements of a prefabricated building element connecting device. As shown in fig. 1 and 2, an assembly type building component connecting device includes a component seat 1 and a component column 3, wherein a plurality of steel bars 2 are arranged on the periphery of the component seat 1, the component column 3 is provided with a plurality of holes 4 inserted with the steel bars 2, the component seat 1 is further provided with a reinforcement mechanism 6, and the component column 3 is further provided with a fixing hole 5 inserted with the reinforcement mechanism 6.

Fig. 3 shows a schematic structural diagram of a reinforcing mechanism of a fabricated building element connecting device. Fig. 2 shows a schematic view of the internal structure of a reinforcement mechanism of a prefabricated building component connecting device. As shown in fig. 3 and 4, in a further preferred embodiment, the reinforcing mechanism 6 includes a casing 601, a limiting ring 602, a caulking groove 603, a pressing block 604, a guide rail 605, and a connecting plate 607; the bottom area of the limiting ring 602 is fixed on the component seat 1, an inserting groove 603 is arranged in the direction of the limiting ring 602 facing the inserting direction of the fixing hole 5, a guide rail 605 and a casing 601 are sequentially arranged above the inserting groove 603 along the inserting direction of the fixing hole 5, a connecting plate 607 is arranged in the position of the bottom of the casing 601 facing the inserting groove 603, a pressing block 604 is arranged in the plane extending direction of the connecting plate 607, and the pressing block 604 is used for driving the connecting plate 607 to slide along the guide rail 605 and fall into the inserting groove 603 when the fixing hole 5 is inserted into the reinforcing mechanism 6.

Preferably, the structure of the inner wall of the caulking groove 603 is matched with the structure of the outer side of the pressing block 504, and the groove depth of the caulking groove 603 is larger than the thickness of the pressing block 604.

Preferably, the casing 601 has a hollow cavity structure therein, and an inner wall of the hollow cavity has a rectangular shape.

Further, according to a preferred technical scheme, the reinforcement mechanism 6 further includes two fixing blocks 606, a bracket 608, a clamping groove 609 and a fixing frame 610, the two symmetrical fixing blocks 606 are slidably mounted on the left and right sides of the top end of the casing 601, the bottom end of the bracket 608 is perpendicularly welded to the connecting plate 607, the top end of the bracket 608 is provided with the concave clamping groove 609, the inner end of each fixing block 606 is inserted into the clamping groove 609 through the fixing frame 610, and the connecting plate 607, the bracket 608 and the fixing blocks 606 are driven to slide along the guide rail when the fixing hole 5 is inserted into the reinforcement mechanism 6.

Preferably, the left and right sides of the bracket 608 are slidably connected to the fixing block 606, and the cross section of the connecting plate 607 is circular.

Further, according to a preferable technical solution, the reinforcing mechanism 6 further includes an elastic mechanism 611, and the bottom end of the connecting plate 607 is fixedly connected to the caulking groove 603 through the two elastic mechanisms 611; the fixing block 606 is slidably connected to the housing 601 and the bracket 608 through two elastic mechanisms 611.

Fig. 5 shows a schematic view of the spring mechanism of the assembled building component connecting device. As shown in fig. 5, preferably, the elastic mechanism 611 includes two supports 6111, two column blocks 6112 and a spring 6113, the protruding column blocks 6112 are integrally formed in the middle of the supports 6111, and the upper and lower ends of the spring 6113 are connected to the two column blocks 6112.

Preferably, the fixing frame 610 is L-shaped as a whole, and the bottom end of the fixing frame 610 is vertically welded to the fixing block 606.

Preferably, the reinforcement mechanism 6 and the fixing hole 5 are provided at intermediate positions of the component holder 1 and the component post 3, respectively.

Further, the inner wall of the guide rail 605 is a smooth surface, and the friction coefficient of the outer surface of the pressing block 604 is 0.3.

Further, the material of the spring 6113 is spring steel.

Further, the fixing block 606 is made of stainless steel.

In order to solve the problems that the connection mode is simple and easy and the stability is affected after long-term use because the existing connection structure is usually fixed by unidirectional insertion and post-pouring of the steel bars 2 when being installed, the reinforcing mechanism 6 is arranged on the component seat 1, and then the pressing block 604 moves down in the guide rail 605 and drives the connecting plate 607 to move down, so that the connecting plate 607 exerts downward pulling force on the support 608, the clamping groove 609 moves down and cancels contact clamping with the fixing frame 610, the fixing block 606 slides outwards through the elastic mechanism 611 and extends out, is inserted into the central inner walls at two ends of the fixing hole 5 and is in contact fixing with the component column 3, and the advantages of convenient and stable penetration and offset, contact force application improvement and installation stability increase are achieved; and through set up elasticity mechanism 611 on cover 601, make spring 6113 install fixedly through support 6111 and post piece 6112 again, for fixed block 606 and connecting plate 607 improve elasticity, reach convenient effectual to fixed block 606 and connecting plate 607 exert elasticity, improve the advantage of convenience of use and stability.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides an assembled building element connecting device, includes component seat (1), component post (3), component seat (1) week is provided with a plurality of reinforcing bars (2), component post (3) are provided with a plurality of holes (4) of pegging graft with reinforcing bar (2), its characterized in that: the component base (1) is further provided with a reinforcing mechanism (6), and the component column (3) is further provided with a fixing hole (5) which is inserted into the reinforcing mechanism (6).

2. A fabricated building element connecting device according to claim 1, wherein: the reinforcing mechanism (6) comprises a casing (601), a limiting ring (602), an embedding groove (603), a pressing block (604), a guide rail (605) and a connecting plate (607); the structure is characterized in that the bottom area of the limiting ring (602) is fixed on the component seat (1), an embedding groove (603) is formed in the limiting ring (602) just opposite to the inserting direction of the fixing hole (5), a guide rail (605) and a casing (601) are sequentially arranged above the embedding groove (603) along the inserting direction of the fixing hole (5), a connecting plate (607) is arranged at the bottom of the casing (601) just opposite to the embedding groove (603), a pressing block (604) is arranged in the plane extending direction of the connecting plate (607), and when the pressing block (604) is used for the inserting and reinforcing mechanism (6) of the fixing hole (5), the connecting plate (607) is driven to slide along the guide rail (605) and fall into the embedding groove (.

3. A fabricated building element connecting device according to claim 2, wherein: the inner wall structure of the caulking groove (603) is matched with the outer side structure of the pressing block (604), and the groove depth of the caulking groove (603) is larger than the thickness of the pressing block (604).

4. A fabricated building element connecting device according to claim 2, wherein: the casing (601) is internally provided with a hollow cavity structure, and the inner wall of the hollow cavity is rectangular.

5. A fabricated building element connecting device according to claim 2, wherein: the reinforcing mechanism (6) further comprises fixing blocks (606), a support (608), clamping grooves (609) and a fixing frame (610), the left side and the right side of the top end of the casing (601) are provided with the two symmetrical fixing blocks (606) in a sliding mode, the bottom end of the support (608) is perpendicularly welded to the connecting plate (607), the top end of the support (608) is provided with the recessed clamping groove (609), the inner end of each fixing block (606) is connected with the corresponding clamping groove (609) in an inserting mode through the fixing frame (610), and the connecting plate (607), the support (608) and the fixing blocks (606) are driven to slide along the guide rail (605) when the fixing hole (5) is connected with the reinforcing mechanism.

6. A fabricated building element connecting device according to claim 5, wherein: the left side and the right side of the support (608) are connected with the fixing block (606) in a sliding mode, and the cross section of the connecting plate (607) is circular.

7. A fabricated building element connecting device according to claim 6, wherein: the reinforcing mechanism (6) further comprises an elastic mechanism (611), and the bottom end of the connecting plate (607) is fixedly connected to the caulking groove (603) through the two elastic mechanisms (611); the fixed block (606) is in sliding connection with the two side sleeves (601) and the bracket (608) through two elastic mechanisms (611).

8. A fabricated building element connecting device according to claim 7, wherein: the elastic mechanism (611) comprises two supports (6111), two column blocks (6112) and a spring (6113), the protruding column blocks (6112) are integrally formed in the middle of the supports (6111) opposite to each other, and the upper end and the lower end of the spring (6113) are connected to the two column blocks (6112).

9. A fabricated building element connecting device according to claim 5, wherein: the fixing frame (610) is integrally L-shaped, and the bottom end of the fixing frame (610) is vertically welded on the fixing block (606).

10. A prefabricated building element connecting device according to any one of claims 1 to 9, wherein: the reinforcing mechanism (6) and the fixing hole (5) are respectively arranged in the middle positions of the component seat (1) and the component column (3).

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