CN214220566U - A consolidate bearing structure for building engineering - Google Patents
A consolidate bearing structure for building engineering Download PDFInfo
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- CN214220566U CN214220566U CN202022562405.8U CN202022562405U CN214220566U CN 214220566 U CN214220566 U CN 214220566U CN 202022562405 U CN202022562405 U CN 202022562405U CN 214220566 U CN214220566 U CN 214220566U
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- 230000000712 assembly Effects 0.000 claims abstract description 32
- 238000000429 assembly Methods 0.000 claims abstract description 32
- 238000010276 construction Methods 0.000 claims abstract description 13
- 238000000034 method Methods 0.000 description 5
- 229910000831 Steel Inorganic materials 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 230000003014 reinforcing effect Effects 0.000 description 2
- 239000010959 steel Substances 0.000 description 2
- 235000017166 Bambusa arundinacea Nutrition 0.000 description 1
- 235000017491 Bambusa tulda Nutrition 0.000 description 1
- 241001330002 Bambuseae Species 0.000 description 1
- 235000015334 Phyllostachys viridis Nutrition 0.000 description 1
- 239000011425 bamboo Substances 0.000 description 1
- 230000009194 climbing Effects 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 229910001220 stainless steel Inorganic materials 0.000 description 1
- 239000010935 stainless steel Substances 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
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Abstract
A reinforced support structure for construction work comprising a plurality of transverse beam assemblies, a plurality of transverse connecting assemblies, a plurality of longitudinal support assemblies and a tread; the beam assemblies are sequentially arranged along the direction from top to bottom, each beam assembly comprises two beams which are arranged in parallel, the top of each beam is provided with a plurality of first U-shaped grooves which are sunken downwards, the bottom of each beam is provided with a plurality of second U-shaped grooves which are sunken upwards, and the first U-shaped grooves and the second U-shaped grooves are sequentially and alternately arranged along the length direction of the beam; the transverse connecting assemblies are in one-to-one correspondence with the beam assemblies and comprise a plurality of transverse plates which are horizontally arranged, the transverse plates are in one-to-one correspondence with gaps between two first U-shaped grooves which are opposite in the corresponding beam assemblies, and two ends of each transverse plate are clamped with the corresponding two first U-shaped grooves; the problem of current scaffold frame alleviate horizontal atress ability poor, poor stability is solved.
Description
Technical Field
The utility model relates to a building engineering technical field especially relates to a consolidate bearing structure for building engineering.
Background
In a construction site, a scaffold is a working platform which is set up to ensure that each construction process is smoothly carried out. The scaffold is divided into an outer scaffold and an inner scaffold according to the erected positions; the scaffold can be divided into a wood scaffold, a bamboo scaffold and a steel pipe scaffold according to different materials; the scaffold is divided into a vertical rod type scaffold, a bridge type scaffold, a door type scaffold, a suspension type scaffold, a hanging type scaffold, a lifting type scaffold and a climbing type scaffold according to the structural form.
The existing scaffold is formed by connecting one steel pipe through a fastener, a foundation is provided for realizing high-altitude operation, and the existing scaffold is poor in capability of reducing transverse stress and poor in stability because workers or heavy objects need to move back and forth on the scaffold.
SUMMERY OF THE UTILITY MODEL
In view of the above, there is a need for a reinforced support structure for building engineering, which is used to solve the problems of poor lateral force-reducing capability and poor stability of the existing scaffold.
The utility model provides a reinforced supporting structure for constructional engineering, which comprises a plurality of beam components, a plurality of transverse connecting components, a plurality of longitudinal supporting components and pedals; the beam assemblies are sequentially arranged along the direction from top to bottom, each beam assembly comprises two beams which are parallel to each other, the top of each beam is provided with a plurality of first U-shaped grooves which are sunken downwards, the bottom of each beam is provided with a plurality of second U-shaped grooves which are sunken upwards, and the first U-shaped grooves and the second U-shaped grooves are sequentially and alternately arranged along the length direction of the beam; the plurality of transverse connecting assemblies correspond to the plurality of beam assemblies one by one, each transverse connecting assembly comprises a plurality of transverse plates which are horizontally arranged, the plurality of transverse plates correspond to gaps between two first U-shaped grooves which are opposite in the corresponding beam assemblies one by one, and two ends of each transverse plate are clamped with the corresponding two first U-shaped grooves; the plurality of longitudinal supporting assemblies correspond to gaps between two adjacent cross beam assemblies one by one, the longitudinal supporting assemblies correspond to gaps between two corresponding U-shaped grooves between two cross beams one by one, each longitudinal supporting assembly comprises a plurality of vertically arranged supporting rods and a plurality of U-shaped plates, the top ends and the bottom ends of the supporting rods are connected with the U-shaped plates, the U-shaped plates at the tops of the supporting rods are connected with the second U-shaped grooves, and the U-shaped plates at the bottoms of the supporting rods are connected with the transverse plates at the tops of the second U-shaped grooves; the bottom of footboard with the diaphragm joint of the top.
Furthermore, the U-shaped plate at the top of the supporting rod is upwards sunken, and the inclined planes at the two sides of the top of the U-shaped plate at the top of the supporting rod are respectively abutted to the second U-shaped groove.
Furthermore, the U-shaped plate at the bottom of the supporting rod is sunken upwards, and the inclined planes at two sides of the bottom of the U-shaped plate at the bottom of the supporting rod are respectively abutted against the two adjacent first U-shaped grooves on the corresponding cross beam.
Furthermore, the inclined planes on the two sides of the U-shaped plate are connected with the cross beam through bolts.
Furthermore, the two ends of the transverse plate respectively extend into the two opposite first U-shaped grooves, the bottom of the transverse plate is positioned in the first U-shaped grooves, clamping grooves are formed in the first U-shaped grooves, and the transverse beam is embedded in the clamping grooves.
Further, the length direction of the transverse plate is perpendicular to the length direction of the cross beam.
Furthermore, the bottom of footboard is provided with the recess, the top of diaphragm embedded in the recess, the footboard is located the both sides of recess are provided with the limiting plate, two one side that the limiting plate is relative with the diaphragm butt.
Further, the footboard comprises a plurality of footboard units, and is a plurality of footboard units are followed crossbeam length direction sets gradually, and adjacent two mutual butt between the footboard unit.
Compared with the prior art, a plurality of first U-shaped grooves which are sunken downwards are arranged at the top of the cross beam, a plurality of second U-shaped grooves which are sunken upwards are arranged at the bottom of the cross beam, the first U-shaped grooves and the second U-shaped grooves are sequentially and alternately arranged along the length direction of the cross beam, wherein two ends of the transverse plate are clamped with the corresponding two first U-shaped grooves, so that two cross beams in the same cross beam assembly are stably connected, the top end and the bottom end of the supporting rod are both connected with the U-shaped plates, the U-shaped plates at the top of the supporting rod are connected with the second U-shaped grooves, the U-shaped plates at the bottom of the supporting rod are connected with the transverse plate at the top of the second U-shaped grooves, when the whole supporting structure is subjected to transverse force, the U-shaped plates are abutted against the first U-shaped grooves, so that the transverse force can be counteracted, the transverse force capability of the whole supporting structure is improved, the stability is high, and the whole supporting structure is simple to connect, the splicing is convenient.
Drawings
Fig. 1 is a schematic structural view of the whole of an embodiment of a reinforced support structure for construction engineering provided by the present invention;
FIG. 2 is a schematic structural view of a support assembly in an embodiment of a reinforced support structure for construction according to the present invention;
fig. 3 is an enlarged schematic view of a portion a of a structure of a reinforcing support for construction engineering according to the present invention;
fig. 4 is an enlarged schematic view of a portion B of a reinforcing support structure for construction engineering according to the present invention;
fig. 5 is a schematic structural view of a cross plate in an embodiment of a reinforced support structure for construction engineering provided by the present invention;
fig. 6 is a schematic structural view of a step in an embodiment of a reinforced support structure for construction according to the present invention.
Detailed Description
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate preferred embodiments of the invention and, together with the description, serve to explain the principles of the invention and not to limit the scope of the invention.
As shown in fig. 1, the reinforced support structure for construction engineering in this embodiment includes a plurality of beam assemblies 100, a plurality of transverse connection assemblies 200, a plurality of longitudinal support assemblies 300, and a step plate 400, wherein the plurality of beam assemblies 100 are sequentially arranged in a top-down direction, two adjacent beam assemblies 100 are connected via the longitudinal support assemblies 300 in a vertical direction, the step plate 400 is laid on the uppermost beam assembly 100, and the uppermost beam assembly 100 is connected to the step plate 400 via the plurality of transverse connection assemblies 200.
The plurality of beam assemblies 100 in this embodiment are sequentially arranged along a direction from top to bottom, each beam assembly 100 includes two beams parallel to each other, the top of each beam is provided with a plurality of first U-shaped grooves 110 recessed downward and the bottom thereof is provided with a plurality of second U-shaped grooves 120 recessed upward, and the plurality of first U-shaped grooves 110 and the plurality of second U-shaped grooves 120 are sequentially and alternately arranged along a length direction of the beam.
The first U-shaped groove 110 is a groove recessed downward, specifically, the middle of the recessed portion is a plane, and both sides of the recessed portion are provided with symmetrical inclined planes, the second U-shaped groove 120 is a groove recessed upward, specifically, the middle of the recessed portion is a plane, and both sides of the recessed portion are provided with symmetrical inclined planes.
The adjacent first U-shaped grooves 110 and the adjacent second U-shaped grooves 120 in this embodiment are equally spaced.
The cross beam in the embodiment is made of a stainless steel plate, so that the corrosion resistance effect is good, and certainly, the cross beam is not limited to the above materials and is determined according to specific conditions.
A plurality of transverse connection assembly 200 in this embodiment and a plurality of beam assembly 100 one-to-one, the horizontal plate 210 that a plurality of levels that transverse connection assembly 200 includes set up, the clearance one-to-one between two relative first U-shaped grooves 110 in a plurality of horizontal plates 210 and the beam assembly 100 that corresponds, the both ends of horizontal plate 210 and two corresponding first U-shaped grooves 110 joint.
In the assembling process, in order to facilitate the connection between the transverse plate 210 and the cross beam, two ends of the transverse plate 210 in this embodiment respectively extend into the two opposite first U-shaped grooves 110, as shown in fig. 5, a clamping groove 220 is formed in the bottom of the transverse plate 210 and located in the first U-shaped groove 110, and the cross beam is embedded in the clamping groove 220.
Wherein, the inner wall of draw-in groove 220 both sides respectively with the both sides butt of crossbeam, prevent that the crossbeam from rocking.
The length direction of the cross plate 210 in this embodiment is perpendicular to the length direction of the cross beam.
As shown in fig. 2, in the present embodiment, the plurality of longitudinal supporting members 300 correspond to the gaps between two adjacent cross beam members 100 one by one, the longitudinal supporting members 300 correspond to the gaps between two corresponding cross beams and the second U-shaped groove 120 one by one, each longitudinal supporting member 300 includes a plurality of vertically arranged supporting rods 310 and a plurality of U-shaped plates 320, the top ends and the bottom ends of the supporting rods 310 are connected to the U-shaped plates 320, the U-shaped plate 320 at the top of the supporting rod 310 is connected to the second U-shaped groove 120, and the U-shaped plate 320 at the bottom of the supporting rod 310 is connected to the transverse plate 210 at the top of the second U-shaped groove 120.
As shown in fig. 3, the U-shaped plate 320 at the top of the supporting rod 310 is upwardly concave, the inclined surfaces at two sides of the top of the U-shaped plate 320 at the top of the supporting rod 310 are respectively abutted to the second U-shaped groove 120, as shown in fig. 4, the U-shaped plate 320 at the bottom of the supporting rod 310 is upwardly concave, and the inclined surfaces at two sides of the bottom of the U-shaped plate 320 at the bottom of the supporting rod 310 are respectively abutted to the two adjacent first U-shaped grooves 110 on the corresponding cross beam.
The inclined planes at the two sides of the U-shaped plate 320 in this embodiment are connected to the cross beam through bolts, and of course, welding and other methods can be adopted, which are not limited, so that the connection is stable, and the disassembly and assembly are convenient.
In this embodiment, the bottom of the pedal 400 is engaged with the top transverse plate 210, and the pedal 400 provides a stepping place for people or things.
The bottom of the pedal 400 in this embodiment is provided with a groove 410, and the top of the transverse plate 210 is embedded in the groove 410, so that the connection is convenient.
In order to prevent the pedal 400 from sliding along the groove 410, as shown in fig. 6, the pedal 400 of the present embodiment is provided with two limit plates 420 at two sides of the groove 410, and the opposite sides of the two limit plates 420 abut against the transverse plate 210.
For the convenience of laying, the pedal 400 is composed of a plurality of pedal 400 units, the pedal 400 units are sequentially arranged along the length direction of the cross beam, and two adjacent pedal 400 units are mutually abutted.
The overlapping parts of the pedal 400, the transverse plate 210 and the cross beam can be locked by screws, and the installation is convenient.
The working process is as follows:
when the support device is installed, the two cross beams are firstly placed in parallel, the cross plates 210 are vertically arranged with the cross beams, the clamping grooves 220 at the bottoms of the two ends of the cross plates 210 are clamped with the cross beams and locked by screws, a cross plate 210 is sequentially arranged at each first U-shaped groove 110 along the length direction of the cross beams to form a support layer, a plurality of support layers can be formed from bottom to top according to the splicing mode, the connection between two adjacent support layers is realized by the longitudinal support assembly 300, specifically, the support rod 310 is placed at the bottom of the second U-shaped groove 120 of the cross beam of the previous layer, so that the U-shaped plate 320 at the top of the support rod 310 is abutted against the second U-shaped groove 120 and is connected with the cross beams by screws, the U-shaped plate 320 at the bottom of the support rod 310 is abutted against the protruding part of the cross beam of the next layer at the top of the second U-shaped groove 120 and locked by screws, the scaffold bodies are sequentially connected to form the scaffold frame, the pedal 400 is laid on the supporting layer on the uppermost layer, the groove 410 at the bottom of the pedal 400 is clamped with the top of the transverse plate 210 and locked through a screw, and the whole assembling process is completed.
When a person or an object moves on the pedal 400, a transverse force is applied to the whole supporting structure due to friction, and when the transverse force is a force along the length direction of the cross beam, the U-shaped plate 320 tends to be separated from the first U-shaped groove 110, at this time, because the U-shaped plate 320 at the top of the supporting rod 310 is abutted against the inclined surface of the first U-shaped groove 110, and the U-shaped plate 320 at the bottom of the supporting rod 310 is abutted against the inclined surfaces of the two adjacent first U-shaped grooves 110, so that the U-shaped plate 320 is prevented from being separated from the first U-shaped groove 110, and the effect of reducing transverse impact is achieved, when the transverse force is a force along the width direction of the cross beam, the transverse plate 210 tends to move relative to the cross beam, so that the whole supporting structure is turned on one side, at this time, the two ends of the transverse plate 210 are clamped with the two corresponding first U-shaped grooves 110, and the clamping groove 220 at the bottom of the transverse plate 210 is clamped with the first U-shaped grooves 110, preventing the occurrence of side turning.
Compared with the prior art: by arranging a plurality of first U-shaped grooves 110 which are downwards concave and a plurality of second U-shaped grooves 120 which are upwards concave on the top of the cross beam, the plurality of first U-shaped grooves 110 and the plurality of second U-shaped grooves 120 are sequentially and alternately arranged along the length direction of the cross beam, wherein two ends of the cross plate 210 are clamped with the corresponding two first U-shaped grooves 110, so as to stably connect two cross beams in the same cross beam assembly 100, wherein the top end and the bottom end of the supporting rod 310 are both connected with the U-shaped plates 320, the U-shaped plates 320 on the top of the supporting rod 310 are connected with the second U-shaped grooves 120, the U-shaped plates 320 on the bottom of the supporting rod 310 are connected with the cross plate 210 on the top of the second U-shaped grooves 120, when the whole supporting structure is subjected to a transverse force, the U-shaped plates 320 are abutted against the first U-shaped grooves 110, so as to offset the transverse force, so as to improve the transverse force bearing capacity of the whole supporting structure, and the stability is high, and the whole supporting structure is simple in connection and convenient to splice.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the scope of the present invention.
Claims (8)
1. A reinforced support structure for use in construction engineering, comprising a plurality of transverse beam assemblies, a plurality of transverse connecting assemblies, a plurality of longitudinal support assemblies and a tread;
the beam assemblies are sequentially arranged along the direction from top to bottom, each beam assembly comprises two beams which are parallel to each other, the top of each beam is provided with a plurality of first U-shaped grooves which are sunken downwards, the bottom of each beam is provided with a plurality of second U-shaped grooves which are sunken upwards, and the first U-shaped grooves and the second U-shaped grooves are sequentially and alternately arranged along the length direction of the beam;
the plurality of transverse connecting assemblies correspond to the plurality of beam assemblies one by one, each transverse connecting assembly comprises a plurality of transverse plates which are horizontally arranged, the plurality of transverse plates correspond to gaps between two first U-shaped grooves which are opposite in the corresponding beam assemblies one by one, and two ends of each transverse plate are clamped with the corresponding two first U-shaped grooves;
the plurality of longitudinal supporting assemblies correspond to gaps between two adjacent cross beam assemblies one by one, the longitudinal supporting assemblies correspond to gaps between two corresponding U-shaped grooves between two cross beams one by one, each longitudinal supporting assembly comprises a plurality of vertically arranged supporting rods and a plurality of U-shaped plates, the top ends and the bottom ends of the supporting rods are connected with the U-shaped plates, the U-shaped plates at the tops of the supporting rods are connected with the second U-shaped grooves, and the U-shaped plates at the bottoms of the supporting rods are connected with the transverse plates at the tops of the second U-shaped grooves;
the bottom of footboard with the diaphragm joint of the top.
2. The reinforced supporting structure for constructional engineering as claimed in claim 1, wherein the U-shaped plate at the top of the supporting rod is upwardly concave, and the inclined surfaces at both sides of the top of the U-shaped plate at the top of the supporting rod are respectively abutted against the second U-shaped groove.
3. The reinforced supporting structure for building engineering according to claim 1, wherein the U-shaped plate at the bottom of the supporting rod is concave upwards, and the inclined surfaces at two sides of the bottom of the U-shaped plate at the bottom of the supporting rod are respectively abutted with the two adjacent first U-shaped grooves on the corresponding cross beam.
4. The reinforced support structure for construction work according to claim 1, wherein the U-shaped plate is coupled to the cross member at the inclined surfaces of both sides thereof by bolts.
5. The reinforced support structure for building engineering of claim 1, wherein two ends of the transverse plate extend into two opposite first U-shaped grooves, a slot is formed in the bottom of the transverse plate and located in the first U-shaped grooves, and the cross beam is embedded in the slot.
6. A reinforced support structure for construction work according to claim 1, wherein the length direction of the cross slab and the length direction of the cross beam are perpendicular to each other.
7. The reinforced support structure for building engineering of claim 1, wherein the bottom of the pedal is provided with a groove, the top of the transverse plate is embedded in the groove, the pedal is provided with limiting plates on two sides of the groove, and one opposite sides of the two limiting plates are abutted to the transverse plate.
8. The reinforced support structure for constructional engineering as claimed in claim 1, wherein said step is composed of a plurality of step units, said plurality of step units being arranged in sequence along the length of said cross member, adjacent two of said step units abutting each other.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022562405.8U CN214220566U (en) | 2020-11-09 | 2020-11-09 | A consolidate bearing structure for building engineering |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022562405.8U CN214220566U (en) | 2020-11-09 | 2020-11-09 | A consolidate bearing structure for building engineering |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN214220566U true CN214220566U (en) | 2021-09-17 |
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ID=77696664
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202022562405.8U Expired - Fee Related CN214220566U (en) | 2020-11-09 | 2020-11-09 | A consolidate bearing structure for building engineering |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN214220566U (en) |
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2020
- 2020-11-09 CN CN202022562405.8U patent/CN214220566U/en not_active Expired - Fee Related
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| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210917 |
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| CF01 | Termination of patent right due to non-payment of annual fee |