CN215107513U - Adjustable tripod for supporting overhanging floor bearing plate - Google Patents

Abstract

The utility model relates to an adjustable tripod for encorbelmenting building carrier plate and supporting, including placing the support tripod between H shaped steel roof beam and the steel bar truss building carrier plate that encorbelments above it, the support tripod is the triangle-shaped structure that two at least adjustable connecting rods link to each other with the support connecting rod and constitute, H shaped steel roof beam lower limb integrated circuit board dress groove type cardboard, establish the one end that cardboard connecting block connects adjustable connecting rod above it, the other end of adjustable connecting rod is connected through the support connecting rod respectively, the top surface of support connecting rod and the top surface of H shaped steel roof beam upper limb board are the same horizontal position and offset with steel bar truss building carrier plate; a supporting tripod is supported according to a limited space formed by the lower flange and the upper flange armpit of the H-shaped steel beam, one corner is connected with the groove-shaped clamping plate, and the other two corners are respectively abutted against the steel bar truss floor bearing plate and the upper flange armpit of the H-shaped steel beam; according to the principle of triangle stability, the stability of the supporting tripod is increased along with the increase of load, and the cost is lower, so that the supporting tripod is favorable for repeated turnover use.

Description

Adjustable tripod for supporting overhanging floor bearing plate

Technical Field

The utility model relates to an adjustable tripod for encorbelmenting building carrier plate and supporting belongs to building steel construction floor construction technical field.

Background

The steel slabs which are press formed to support the concrete of the floor are called profiled steel slabs, also called floor decks. The method can meet the requirement of rapid construction of a main steel structure, provides a firm operation platform in a short time, lays profiled steel plates on a plurality of floors, and pours concrete slabs in layers in the flow construction. In the work progress of building carrier plate, especially to the building carrier plate of the part of encorbelmenting, what usually most adopted is field weld shaped steel support, treat that floor concrete reaches behind the design intensity, adopt the gas cutting again to demolish. However, the steel support needs to be subjected to on-site fire operation and construction when being mounted or dismounted, and the safety is difficult to ensure. Particularly, when the steel support is dismantled, the fire operation is carried out, and the finished product after the construction is difficult to protect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adjustable tripod for hang building carrier plate supports to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the steel bar truss floor support plate supporting device comprises a supporting tripod placed between an H-shaped steel beam and a steel bar truss floor support plate suspended above the H-shaped steel beam, wherein the supporting tripod is a triangular structure formed by connecting at least two adjustable connecting rods with the supporting connecting rods; the H-shaped steel beam lower flange plate is clamped with a groove-shaped clamping plate, a clamping plate connecting block is arranged above the H-shaped steel beam lower flange plate and connected with one end of an adjustable connecting rod, the other end of the adjustable connecting rod is connected with the supporting connecting rod respectively, and the top surface of the supporting connecting rod and the top surface of the H-shaped steel beam upper flange plate are in the same horizontal position and abut against the steel bar truss floor bearing plate.

Furthermore, one end of the adjustable connecting rod is abutted against the armpit of the flange plate on the H-shaped steel beam; one end of one adjustable connecting rod is fixed on the lower flange plate of the H-shaped steel beam through the clamping plate connecting block, the other end of the adjustable connecting rod is abutted against the armpit of the upper flange plate of the H-shaped steel beam, and then the adjustable connecting rod and a web plate of the H-shaped steel beam form a triangular structure.

Furthermore, both ends of the adjustable connecting rod are provided with connecting rod connecting blocks and are connected through connecting pipes; connecting holes are formed in the connecting rod connecting blocks at the two ends of the adjustable connecting rod, bolts penetrate through the corresponding connecting holes to complete the mutual connection between the adjustable connecting rods, and the hole diameter of each connecting hole is required to be larger than the diameter of each bolt by 2 mm; the supporting connecting rod is made of angle steel, connecting holes are also formed in the two ends of the supporting connecting rod, the diameter of each connecting hole is larger than the diameter of each bolt by 2mm, and the bolts penetrate through the corresponding connecting holes to achieve connection between the supporting connecting rod and the adjustable connecting rod. In addition, the length of the adjustable connecting rod can be adjusted by replacing connecting pipes with different lengths.

Furthermore, one end of the connecting pipe is provided with an opening, the other end of the connecting pipe is connected with a connecting pipe closing plate, and the connecting rod connecting block is connected with an adjustable bracket and extends into the connecting pipe from the opening end of the connecting pipe; the open end of connecting pipe stretches into adjustable bracket, and the shrouding end connecting rod connecting block stretches into the length of connecting pipe through the adjustable bracket of adjustment during the use, also can realize the regulation of the whole length of adjustable connecting rod equally.

Further, the width of the notch of the groove-shaped clamping plate is larger than the thickness of a flange plate of the H-shaped steel beam; the gap width of cell type cardboard notch department is greater than H shaped steel beam flange plate thickness 2~15mm, and the firm joint of cell type cardboard in the flange plate of H shaped steel roof beam of being convenient for.

Furthermore, a clamping plate nut is arranged above the groove-shaped clamping plate and is fixedly connected through a clamping plate bolt; the clamping plate nut is welded above the groove-shaped clamping plate and is fixedly connected through the clamping plate bolt, and the two adjustable connecting rods of the supporting tripod are connected onto the clamping plate connecting block of the groove-shaped clamping plate, so that the groove-shaped clamping plate is fixed, and one corner of the supporting tripod is also fixed. Especially, the cardboard nut can correspond to set up a plurality ofly along the cell type cardboard with the cardboard bolt, further strengthens the steadiness that supports the tripod and connect.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has reliable structure connection and adjustment according to actual demand, and is simple, convenient and quick to install and disassemble; according to a limited space formed by the lower flange and the upper flange armpit of the H-shaped steel beam, one edge of a supporting tripod is placed in the space, the supporting tripod is formed by connecting adjustable connecting rods and supporting connecting rods through bolts, one angle of the two adjustable connecting rods is connected with a clamping plate connecting block, and the other two angles are formed by the adjustable connecting rods and the supporting connecting rods and are respectively abutted against the steel bar truss floor bearing plate and the upper flange armpit of the H-shaped steel beam; the adjustable connecting rod adjusts the whole length of the adjustable connecting rod through the adjustable bracket and the connecting pipe; the top surface of the support connecting rod and the H-shaped steel beam are kept horizontal so as to ensure that the steel bar truss floor bearing plate is stably placed; according to the principle of triangle stability, when the load is increased due to the fact that concrete is poured on the floor support plate, the stability of the supporting tripod is increased, the cost is low, repeated circulation and use are facilitated, standard parts can be manufactured to be rented or sold, and the using range is wide and flexible.

Drawings

FIG. 1 is a schematic overall front view of the present invention;

FIG. 2 is a schematic structural view of the adjustable connecting rod of the present invention;

FIG. 3 is a schematic view of the front view structure of the slot-type snap-gauge of the present invention;

FIG. 4 is a schematic side view of the slot-shaped fastener of the present invention;

fig. 5 is a schematic view of the overall side view structure of the present invention.

Labeled as: 1. a groove-shaped clamping plate; 2. a clamping plate connecting block; 3. A pallet bolt; 4. A snap-gauge nut; 5. An adjustable connecting rod; 51. A connecting rod connecting block; 52. an adjustable bracket; 53. a connecting pipe; 54. connecting a pipe closing plate; 6. a support link; 7. an H-shaped steel beam; 8. a steel bar truss floor support plate; 9. concrete; 10. structural steel bars; 11. and (4) a pin.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example 1

The present embodiment provides an adjustable tripod for cantilevered floor deck support, as shown in fig. 1-5: the steel bar truss floor support plate structure comprises a support tripod placed between an H-shaped steel beam 7 and a steel bar truss floor support plate 8 suspended above the H-shaped steel beam, wherein the support tripod is a triangular structure formed by connecting at least two adjustable connecting rods 5 and a support connecting rod 6; the H-shaped steel beam 7 lower flange plate is clamped with the groove-shaped clamping plate 1, the clamping plate connecting block 2 is arranged above the groove-shaped clamping plate 1 and connected with one end of the adjustable connecting rod 5, the other end of the adjustable connecting rod 5 is connected with the other end of the adjustable connecting rod 5 through the supporting connecting rod 6 respectively, and the top surface of the supporting connecting rod 6 and the top surface of the H-shaped steel beam 7 upper flange plate are located at the same horizontal position and are abutted against the steel bar truss floor bearing plate 8.

The embodiment further comprises that one end of the adjustable connecting rod 5 abuts against the armpit of the flange plate on the H-shaped steel beam 7, the two ends of the adjustable connecting rod 5 are both provided with connecting rod connecting blocks 51 and connected through connecting pipes 53, one end of each connecting pipe 53 is provided with an opening, the other end of each connecting pipe 53 is connected with a connecting pipe closing plate 54, and the connecting rod connecting blocks 51 are connected with the adjustable brackets 52 and extend into the connecting pipes from the opening ends of the connecting pipes 53; connecting holes are formed in the two ends of the connecting rod connecting block 51 and the two ends of the supporting connecting rod 6, and the adjustable connecting rod 5 and the supporting connecting rod 6 are connected with each other through bolts to form a supporting tripod. The open end of the connecting pipe 53 extends into the adjustable bracket 52, and the length of the adjustable bracket 52 extending into the connecting pipe 53 is adjusted to change the overall length of the adjustable connecting rod 5. One of the adjustable connecting rods 5 abuts against the armpit part of the lower flange plate and the upper flange plate of the H-shaped steel beam 7, and the adjustable connecting rod 5 and the web plate of the H-shaped steel beam 7 form a triangular structure, so that the stability of the supporting tripod can be effectively improved.

The embodiment also comprises that the width of the notch of the groove-shaped clamping plate 1 is larger than the thickness of a flange plate of the H-shaped steel beam 7, and a clamping plate nut 4 is arranged above the groove-shaped clamping plate 1 and is fixedly connected through a clamping plate bolt 3; the gap width of 1 notch department of cell type cardboard is greater than the thickness of H shaped steel roof beam 7 flange board to the firm joint in the lower flange board of H shaped steel roof beam 7 of cell type cardboard 1. Simultaneously cardboard nut 4 is for welding in 1 top of cell type cardboard and connect it fixedly through cardboard bolt 3, because two adjustable connecting rods 5 are connected with cardboard connecting block 2 on the cell type cardboard 1 respectively and constitute one of them one corner that supports triangle-shaped, consequently fix the steadiness when cell type cardboard 1 can strengthen supporting triangle-shaped whole use, especially cardboard nut 4 corresponds with cardboard bolt 3 and sets up a plurality ofly along cell type cardboard 1.

The utility model discloses a use method:

assembling a supporting tripod:

firstly, clamping a groove-shaped clamping groove 1 on a lower flange plate of an H-shaped steel beam 7, connecting a clamping plate bolt 3 through a clamping plate nut 4 welded above the groove-shaped clamping groove 1 for fixing, and establishing a clamping plate connecting block 2 above the groove-shaped clamping groove 1 to connect connecting rod connecting blocks 51 at the lower ends of two adjustable connecting rods 5 to form one corner of a supporting tripod; then, the connecting rod connecting block 51 is connected with the adjustable bracket 52 and then extends into the opening end of the connecting pipe 53, the other end of the connecting pipe 53 is connected with the connecting pipe closing plate 54 to form a closing plate end which is connected with the connecting rod connecting block 51 at the upper end of the adjustable connecting rod 5, and then the supporting connecting rod 6 is connected with the two connecting rod connecting blocks 51 at the upper end, so that the rest two angles of the supporting tripod are formed; finally, the length of the adjustable bracket 52 extending into the connecting pipe 53 is adjusted according to the height of the web of the H-shaped steel beam 7, so that one of the adjustable connecting rods 5 abuts against the armpit of the flange plate on the H-shaped steel beam 7, and the length of the other adjustable connecting rod 5 is adjusted at the same time, thereby ensuring that the top surfaces of the support connecting rods 4 and the top surface of the flange on the H-shaped steel beam 5 are at the same horizontal position.

When in use:

firstly, placing a steel bar truss floor bearing plate 8 on an upper flange plate of an H-shaped steel beam 7 in an overhanging manner, and welding studs 11 at the joints of the steel bar truss floor bearing plate and the H-shaped steel beam for fixing; then binding structural steel bars 10 on the steel bar truss floor bearing plate 8, pouring concrete 9 after binding and fixing, and gradually increasing the stability of the supporting tripod by utilizing the principle of triangular stability along with the increase of the load of the poured concrete 9; and finally, removing the supporting tripod after the concrete 9 reaches the design strength.

Dismantling the supporting tripod:

firstly, the length of the adjustable bracket 52 extending into the opening end of the connecting pipe 53 is adjusted to reduce the overall length of the adjustable connecting rod 5. The pallet bolts 3 on the slot-shaped pallet 1 are then unscrewed. And finally, the groove-shaped clamping plate 1 is detached from the lower flange plate of the H-shaped steel beam 7, and the support tripod 2 is detached.

It should be noted that the number of the supporting tripods can be set according to the load force between the steel bar truss floor bearing plate 8 and the H-shaped steel beam 7; in addition, not only can the length of the adjustable connecting rod 5 be adjusted by replacing the connecting pipes 53 with different lengths, but also the length of the adjustable connecting rod 5 can be changed by adjusting the length of the adjustable bracket 52 extending into the connecting pipe 53.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

And in the present invention, unless otherwise explicitly specified or limited, for example, may be fixedly connected, may be detachably connected, or may be integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

In addition to the above embodiments, the present invention may have other embodiments. It will be apparent to those skilled in the art that modifications and variations can be made in the above-described embodiments or in other embodiments, and equivalents may be substituted for elements thereof without departing from the spirit or scope of the invention.

Claims (6)

1. The utility model provides an adjustable tripod for encorbelmenting building carrier plate and supporting which characterized in that: the steel bar truss floor support plate structure comprises a support tripod placed between an H-shaped steel beam (7) and a steel bar truss floor support plate (8) suspended above the H-shaped steel beam, wherein the support tripod is a triangular structure formed by connecting at least two adjustable connecting rods (5) with a support connecting rod (6); the H-shaped steel beam (7) lower flange plate is clamped with the groove-shaped clamping plate (1), a clamping plate connecting block (2) is arranged above the H-shaped steel beam and connected with one end of the adjustable connecting rod (5), the other end of the adjustable connecting rod (5) is connected with the supporting connecting rod (6) respectively, and the top surface of the supporting connecting rod (6) and the top surface of the upper flange plate of the H-shaped steel beam (7) are located at the same horizontal position and are abutted to the steel bar truss floor bearing plate (8).

2. An adjustable tripod for an overhanging floor deck support according to claim 1 wherein: one end of the adjustable connecting rod (5) is abutted against the armpit of the flange plate on the H-shaped steel beam (7).

3. An adjustable tripod for an overhanging floor deck support according to claim 1 wherein: and both ends of the adjustable connecting rod (5) are provided with connecting rod connecting blocks (51) and are connected through connecting pipes (53).

4. An adjustable tripod for an overhanging floor deck support according to claim 3 wherein: one end of the connecting pipe (53) is provided with an opening, the other end of the connecting pipe is connected with a connecting pipe closing plate (54), and the connecting rod connecting block (51) is connected with an adjustable bracket (52) and extends into the connecting pipe (53) from the opening end of the connecting pipe.

5. An adjustable tripod for an overhanging floor deck support according to claim 1 wherein: the width of the notch of the groove-shaped clamping plate (1) is larger than the thickness of a flange plate of the H-shaped steel beam (7).

6. An adjustable tripod for an overhanging floor deck support according to claim 1 wherein: and a clamping plate nut (4) is arranged above the groove-shaped clamping plate (1) and is fixedly connected through a clamping plate bolt (3).

Images