CN220645343U - Reinforced building structure - Google Patents

Abstract

The utility model relates to the technical field of building structures, in particular to a reinforced building structure, which comprises 2 support assemblies and a supporting assembly, wherein the bottom of a mounting plate of each support assembly is vertically and fixedly connected with a vibration buffer column, a limiting pipe is vertically and fixedly connected with a building structure body, one end of each vibration buffer column is slidably connected in each limiting pipe, a damping spring is arranged at the lower end of each vibration buffer column, a Z-shaped limiting pressing plate is arranged at the lower end of each limiting pipe, an elastic buffer structure is arranged between each pressing plate and the mounting plate, each supporting assembly comprises a first supporting rod and a second supporting rod, a first length adjusting pipe is connected with an upper thread of each supporting rod, a flange piece is rotatably sleeved on the outer wall of each length adjusting pipe, the end part of each flange piece is fixedly connected with a limiting ring, and the first supporting rod and the second supporting rod are connected with the corresponding flange pieces at the two ends of each supporting rod through bolts.

Description

Reinforced building structure

Technical Field

The utility model relates to the technical field of building structures, in particular to a reinforced building structure.

Background

The building structure is a system which consists of various components (roof truss, beam, plate, column and the like) and can bear various actions in a house building, and because the frame of the building structure cannot be subjected to plastic deformation, the building structure is subjected to external force load and is easy to deform or crack at the corner where the frame is connected, the right-angle part of the building structure is often required to be reinforced, the capability of the building structure for bearing the external force load is enhanced, the reinforcing structure in the prior art has the advantages of complex structure, multiple mounting procedures, inconvenience in detachment, rigid and fixed connection of the reinforcing support structure and the building structure, poor shock resistance, unadjustable support distance and incapability of carrying out adaptive adjustment according to the corner connection shape of a specific building, and in addition, the reinforcing device is not firmly connected with the building structure under the action of external force and even causes impact damage to the building structure.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides the reinforced building structure which has the advantages of simple structure, simple and convenient installation and disassembly, effectively enhanced capability of bearing external force load of the building structure, stable connection with the building structure, good anti-seismic performance, capability of releasing stress between the supporting reinforcing structure and the building structure at any time according to requirements, capability of reducing stress deformation risk of the building structure and capability of preventing the reinforcing structure from damaging the building structure by impact under the action of external force.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a reinforcement type building structure, includes 2 support subassemblies and connects the supporting component between 2 support subassemblies, the support subassembly includes the mounting panel, spacing clamp plate, spacing pipe, the perpendicular rigid coupling in mounting panel bottom has vibrations buffer column, spacing pipe rigid coupling is on building structure body and is mutually perpendicular with building structure body's holding surface, but vibrations buffer column one end sliding connection is in spacing intraductal, be located in the spacing pipe vibrations buffer column lower extreme is equipped with damping spring, spacing clamp plate includes the connecting plate of clamp plate and connecting plate and fixed plate, the clamp plate, connecting plate and fixed plate connect into the zigzag, just the fixed plate passes through the crab-bolt rigid coupling on building structure body, the clamp plate is pressed on the mounting panel just be equipped with elastic buffer structure between clamp plate and the mounting panel, the supporting component includes bracing piece one, bracing piece two, threaded connection has length adjustment pipe on the bracing piece one, rotatable flange piece one on the length adjustment pipe outer wall, just keep away from one end rigid coupling that bracing piece was located on the length adjustment pipe has the flange piece one to prevent that the piece from deviate from, two on the connecting plate and two adjusting flange pieces have two adjusting flange pieces to be connected with two articulated structure one end of connecting flange pieces, two adjusting flange pieces are mutually matched with two adjusting flange pieces.

Further, be equipped with the mounting groove on the building structure body, the inner wall and the tank bottom fixed mounting of mounting groove have integrated into one piece's welt, spacing pipe fixed mounting is in the mounting groove, the notch of mounting groove can hold the mounting panel and get into, the mounting groove intussuseption is filled with PE foaming cotton, during the installation, the mounting panel bottom surface with the mounting groove notch flushes mutually, damping spring is in compression state and forms steady rest to the mounting panel, vibrations buffering post lower half section is located in the spacing pipe.

Further, set up two deep floor that are parallel to each other perpendicularly on the mounting panel, bracing piece one and bracing piece two all are articulated to be connected on deep floor through round pin hub connection structure, just be provided with length scale on the bracing piece one, be convenient for adjust the length of overlap of pipe and bracing piece one in advance coarse tuning before the installation, save the time of on-the-spot installation.

Furthermore, the first support rod and the second support rod are round tubes, and PE foam for shock resistance and noise reduction is filled in the round tubes.

Further, the length of the pipe section provided with the external threads on the outer wall of the first support rod is not less than 2/3 times of the total length of the first support rod, the length of the length adjusting pipe is equal to the length of the pipe section provided with the external threads of the first support rod, the length adjusting pipe is internally provided with the internal threads along the length direction, and the length of the second support rod is not more than 1/3 times of the length of the first support rod.

Further, the length adjusting pipe, the second supporting rod and the first supporting rod are uniformly provided with rubber buffer rings in gaps except for pipe sections provided with external threads, so that the functions of damping and silencing are further enhanced.

Further, clamp plate and mounting panel are the circular plate, elastic buffer structure is buffer spring, circumference evenly is provided with a plurality of connection columella on the mounting panel, the clamp plate bottom is corresponding to connecting the columella position and is installed the retainer plate, buffer spring bottom fixed mounting is in the retainer plate, connect the columella tip to wear to establish in buffer spring.

Further, a buffer cushion is arranged between the limiting ring and the second flange plate, and a torsion handle is arranged on the length adjusting pipe. Further, be provided with between spacing pipe and the vibrations buffering post and prevent vibrations buffering post pivoted spout connection structure, spacing pipe both sides are provided with the guide way along length direction symmetry, be equipped with the bead that can slide in the guide way on the vibrations buffering post corresponding to the guide way position.

Further, the guide way tip is provided with stopper or clamping ring that prevents vibrations buffering post atress and pulls out spacing pipe, stopper or clamping ring inboard is equipped with the blotter.

Further, the outer wall of the vibration buffering column is covered with a rubber layer.

When the utility model is used, one end of the vibration buffer column can be connected in the limiting pipe in a sliding way, when the mounting plate is under the pressure of the supporting component, the vibration buffer column connected with the vibration buffer column can slide in the limiting pipe to compress the damping spring, so that the pressure is released, especially when the supporting component is under the impact external force increased instantaneously, the vibration buffer column slides in the limiting pipe and presses the damping spring, the effect of quickly releasing the impact external force can be achieved, the rebound force generated by the compression of the damping spring forms a support for the mounting plate through the vibration buffer column, the vibration buffer column slides in the limiting pipe and can also prevent the mounting plate from tilting or colliding with the limiting pressing plate under the action of the external force, the pressing plate presses on the mounting plate to limit the mounting plate to displace under the action of the tensile force, and an elastic buffer structure is arranged between the pressing plate and the mounting plate, the compression deformation of the elastic buffer structure can release a certain tensile force, the impact of the mounting plate to the pressing plate is reduced, thereby reducing the impact damage to the anchor bolt fixing structure, the pressing plate, the connecting plate and the fixing plate are connected into a Z shape, the elastic buffer structure and the mounting plate are convenient to mount, the stress condition of the fixing plate can be further improved, the first support rod is in threaded connection with the length adjusting pipe, the support length is convenient to adjust during mounting, in addition, if the stress between the support component and the building structure body is too large in the long-term support process, the building structure body is easy to deform or even damage, the support length can be accurately and slightly adjusted through rotating the length adjusting pipe without dismantling the support component, the stress is released, and as the flange piece I is rotatably sleeved on the outer wall of the length adjusting pipe, the support component is sequentially mounted during mounting, and the first support rod is deformed or even damaged, the one end that keeps away from of bracing piece two length adjustment pipe is articulated with the mounting panel and is connected, can preliminary quick screw length adjustment pipe to required support length, will flange piece one and flange piece two pass through bolted connection structure and be connected, make flange piece one tightly support on the spacing ring, screw down the length adjustment pipe slowly and make damping spring compress to form reliable support to the mounting panel, because flange piece one can rotate relative length adjustment pipe at this moment, the flange piece one can not rotate thereupon when screwing up the length adjustment pipe.

The beneficial effects are that: the utility model has simple structure, easy installation and disassembly, effectively enhances the capability of bearing external force load of the building construction, has stable connection with the building structure and good anti-seismic performance, releases the stress between the supporting component and the building structure at any time according to the requirement, and reduces the stress deformation risk of the building structure.

Drawings

The specific structure of the present application is given by the following figures and examples:

fig. 1: a schematic structural diagram of embodiment 1 of the present utility model;

fig. 2: the cross-sectional structure of the support assembly of embodiment 1 of the present utility model is schematically shown;

fig. 3: the vibration buffer column and limiting tube connection structure of the embodiment 2 of the utility model is schematically shown;

fig. 4: an elastic buffer structure mounting structure between a pressing plate and a mounting plate in embodiment 3 of the utility model is schematically shown;

fig. 5: the mounting structure of the buffer rubber ring on the support assembly of embodiment 4 of the present utility model is schematically shown.

In the figure: 01. building structure body, 02, hinge connection structure, 1, support subassembly, 2, supporting component, 10, vibrations buffer column, 11, mounting panel, 12, spacing clamp plate, 13, spacing pipe, 14, damping spring, 15, elasticity buffer structure, 21, bracing piece one, 22, bracing piece two, 23, length adjustment pipe, the flange comprises a flange piece I and a flange piece 25, a limiting ring 26, a flange piece II and a rubber buffer ring 27, a torsion handle 011, a mounting groove 121, a pressing plate 122, a fixing plate 123, a connecting plate 131, a guide groove 132, a convex edge 133, a limiting block 151, a connecting small column 152 and a positioning ring.

Description of the embodiments

The following description of the present utility model is provided to explain the summary of the utility model in further detail. And therefore, the utility model is not limited to the scope of the patent, and all equivalent structures or equivalent flow changes made by the specification and drawings of the utility model or direct or indirect application in other related technical fields are included in the scope of the patent protection of the utility model.

In the present utility model, for convenience of description, the description of the relative positional relationship of each component is described according to the layout manner of the drawings in the specification, such as: the positional relationship of the upper, lower, left, right, etc. is determined in accordance with the layout direction in the drawings of the specification.

Embodiment 1, refer to fig. 1, fig. 2, a reinforcement type building structure, including 2 support components 1 and connect the supporting component 2 between 2 support components 1, support components 1 includes mounting panel 11, spacing clamp plate 12, spacing pipe 13, mounting panel 11 bottom vertical fixation has vibrations buffering post 10, spacing pipe 13 rigid coupling is on building structure body 01 and is perpendicular with the holding surface of building structure body 01, vibrations buffering post 10 one end slidable connection is in spacing pipe 13, spacing pipe 13 is interior be located vibrations buffering post 10 lower extreme is equipped with damping spring 14, spacing clamp plate 12 includes clamp plate 121, connecting plate 122 and connecting plate 123 of connecting clamp plate 121 and fixed plate 122, clamp plate 121, connecting plate 123 and fixed plate 122 connect into the zigzag, just fixed plate 122 is through the crab-bolt rigid coupling on building structure body 01, clamp plate 121 presses on mounting panel 11 just be equipped with elasticity buffering structure 15 between clamp plate 121 and the mounting panel 11, supporting component 2 includes bracing piece 21, bracing piece two bracing pieces 22, one end slidable connection is in spacing pipe 13, spacing pipe 13 is located the connecting plate 10 lower extreme is equipped with damping spring 14, spacing plate 121, spacing plate 122 is connected with one end of two end of a pair of regulation piece 23, one end of flange piece that has a regulation piece to be connected with two end piece 25, one end of flange piece that the length of regulation piece that is connected with two flange pieces that one end piece that the flange piece is connected with two on the flange piece 25 is connected with two, one end piece that the flange piece is connected with the flange piece 25, one end of regulation piece is connected with the flange piece, one end of the flange piece is connected with the length of the flange piece is 25, and the flange is far away from the flange is connected with the flange piece is 25 One end of the second support rod 22, which is far away from the length adjusting pipe 23, is hinged with the mounting plate 11 through a hinged connection structure 02.

The utility model discloses a building structure, including building structure body 01, mounting groove 011 is last to be equipped with mounting groove 011, mounting groove 011's inner wall and tank bottom fixed mounting have integrated into one piece's welt, spacing pipe 13 fixed mounting is in the mounting groove 011, mounting groove 011's notch can hold mounting panel 11 entering, the intussuseption of mounting groove 011 is filled with PE foam, during the installation, mounting panel 11 bottom surface with mounting groove 011 notch flushes mutually, damping spring 14 is in compression state and forms stable support to mounting panel 11, vibrations buffering post 10 lower half is located spacing intraductal.

The utility model discloses a vibration damping device for the automobile, including mounting panel 11, bracing piece I21 and bracing piece II 11, bracing piece I21 and bracing piece II are all articulated mutually through round pin hub connection structure, just be provided with the length scale on the bracing piece I21, be convenient for install the length of the overlapping of length adjustment pipe 23 and bracing piece I21 of preliminary adjustment, bracing piece I21 and bracing piece II 22 are the pipe, the pipe intussuseption is filled with antidetonation, amortization and is used PE foaming cotton, be equipped with the pipe section length of external screw thread on the outer wall of bracing piece I21 and be not less than 2/3 times of bracing piece I21 total length, just the length of length adjustment pipe 23 equals the pipe section length of bracing piece I21 that is equipped with the external screw thread, all be equipped with the internal screw thread along length direction in the length adjustment pipe 23, the length of bracing piece II 22 is not more than 1/3 times of bracing piece I21 length, vibration damping post outer wall is covered with the rubber layer.

When the utility model is used, one end of the vibration buffer column 10 can be connected in the limiting pipe 13 in a sliding way, when the mounting plate is pressed by the supporting component 2, the vibration buffer column 10 connected with the vibration buffer column 10 can slide in the limiting pipe 13 to compress the damping spring 14, so that the pressure is released, especially when the supporting component 2 is subjected to impact external force which is increased instantaneously, the vibration buffer column 10 slides in the limiting pipe 13 and presses the damping spring 14, the effect of quickly releasing the impact external force can be achieved, the rebound force generated by the compression of the damping spring 14 supports the mounting plate 11 through the vibration buffer column 10, the vibration buffer column 10 slides in the limiting pipe 13, the mounting plate 11 can be prevented from tilting or colliding with the limiting pressing plate 12 under the action of the external force, the pressing plate 121 is pressed on the mounting plate 11 to limit the mounting plate 11 to displace under the action of the tensile force, and an elastic buffer structure 15 is arranged between the pressing plate 121 and the mounting plate 11, the compression deformation of the elastic buffer structure 15 can release a certain tensile force, reduce the impact of the mounting plate 11 to the pressing plate 121, thereby reducing the impact damage to the anchor bolt fixing structure, the pressing plate 121, the connecting plate 123 and the fixing plate 122 are connected into a Z shape, the elastic buffer structure 15 and the mounting plate 11 can be conveniently mounted, the stress condition of the fixing plate 122 can be further improved, the first supporting rod 21 is in threaded connection with the length adjusting pipe 23, the supporting length can be conveniently adjusted during mounting, in addition, if the stress between the supporting component 2 and the building structure body 01 is overlarge during long-term supporting, the building structure body 01 is easy to deform or even damage, the supporting length can be accurately and slightly adjusted by rotating the length adjusting pipe 23 under the condition that the supporting component 2 is not dismounted, the stress is released, because the first flange piece 24 is rotatably sleeved on the outer wall of the length adjusting pipe 23, during installation, the support seat assembly 1 is sequentially installed, one ends of the first support rod 21 and the second support rod 22, which are far away from the length adjusting pipe 23, are hinged with the installation plate, the length adjusting pipe 23 can be primarily and rapidly screwed to the required support length, the first flange piece 24 and the second flange piece 26 are connected through a bolt connection structure, so that the first flange piece 24 is tightly abutted against the limiting ring 25, and the damping spring 14 is compressed to form reliable support for the installation plate 11 when the length adjusting pipe 23 is slowly screwed, and at the moment, the first flange piece 24 can rotate relative to the length adjusting pipe 23, and the first flange piece 24 can not rotate along with the screwing of the length adjusting pipe 23.

Embodiment 2, referring to fig. 3, a chute connection structure for preventing the rotation of the shock absorber 10 is provided between the limiting tube 13 and the shock absorber 10, guide grooves 131 are symmetrically provided on both sides of the limiting tube 13 along the length direction, ribs 132 which can slide in the guide grooves 131 are provided on the shock absorber 10 corresponding to the positions of the guide grooves 131, limiting blocks 133 for preventing the shock absorber 10 from being pulled out of the limiting tube 13 under stress are provided at the ends of the guide grooves 131, and a cushion is provided on the inner side of the limiting blocks 133.

Embodiment 3, referring to fig. 4, the pressing plate 121 and the mounting plate 11 are circular plates, the elastic buffer structure 15 is a buffer spring, a plurality of small connecting columns 151 are uniformly arranged on the mounting plate 11 in the circumferential direction, a positioning ring 152 is installed at the bottom of the pressing plate 121 corresponding to the positions of the small connecting columns 151, the bottom of the buffer spring is fixedly installed in the positioning ring 152, and the end parts of the small connecting columns 151 are penetrated in the buffer spring.

In embodiment 4, referring to fig. 5, the length adjusting tube 23, the second support rod 22, and the first support rod 21 are provided with rubber buffer rings 27 in gaps except for the tube sections with external threads, a buffer pad is provided between the limiting ring 25 and the second flange 26, and a torsion handle 28 is provided on the length adjusting tube 23.

Claims (8)

1. The utility model provides a reinforcement type building structure, its characterized in that includes 2 support subassemblies and connects the supporting component between 2 support subassemblies, the support subassembly includes the mounting panel, spacing clamp plate, spacing pipe, the perpendicular rigid coupling in mounting panel bottom has vibrations buffer column, spacing pipe rigid coupling is on building structure body and is mutually perpendicular with the holding surface of building structure body, but vibrations buffer column one end sliding connection is in spacing intraductal, be located in the spacing intraductal vibrations buffer column lower extreme is equipped with damping spring, spacing clamp plate includes the connecting plate, fixed plate and connecting plate, the clamp plate, connecting plate and fixed plate connect into the zigzag, just the fixed plate passes through the crab-bolt rigid coupling on building structure body, the clamp plate is pressed on the mounting panel just be equipped with elastic buffer structure between clamp plate and the mounting panel, the supporting component includes bracing piece one, bracing piece two, threaded connection has length adjustment pipe on the bracing piece, rotatable sleeve has the flange piece one on the length adjustment pipe, just keep away from the one end rigid coupling that bracing piece was located on the length adjustment pipe has the one to prevent that the flange piece from deviate from the flange piece, two end and two adjusting collar joint pieces have the flange piece to be connected with two end of two articulated structures through two articulated flange pieces mutually, two end and connecting plate and two articulated structures are mutually connected with the connecting plate.

2. The reinforced building structure of claim 1, wherein the building structure body is provided with a mounting groove, an integrally formed lining plate is fixedly arranged on the inner wall and the bottom of the mounting groove, the limiting pipe is fixedly arranged in the mounting groove, the notch of the mounting groove can accommodate the mounting plate to enter, and PE foam is filled in the mounting groove.

3. A reinforced building structure according to claim 1 or 2, wherein two reinforcing ribs parallel to each other are vertically arranged on the mounting plate, the first support rod and the second support rod are both hinged on the reinforcing ribs through pin shaft connection structures, and length scales are arranged on the first support rod.

4. A reinforced building structure as claimed in claim 3, wherein the first and second support rods are round tubes, and the round tubes are filled with anti-vibration and noise-reducing PE foam.

5. The reinforced building structure of claim 4, wherein rubber buffer rings are uniformly arranged on the length adjusting pipe, the second supporting rod and the first supporting rod except for the pipe section provided with the external threads.

6. The reinforced building structure of claim 5, wherein the pressing plate and the mounting plate are circular plates, the elastic buffer structure is a buffer spring, a plurality of connecting small columns are uniformly arranged on the mounting plate in the circumferential direction, positioning rings are arranged at the bottoms of the pressing plate corresponding to the positions of the connecting small columns, the bottoms of the buffer spring are fixedly arranged in the positioning rings, and the end parts of the connecting small columns are arranged in the buffer spring in a penetrating manner.

7. The reinforced building structure of claim 2, wherein a chute connection structure for preventing the vibration buffer column from rotating is arranged between the limit pipe and the vibration buffer column, guide grooves are symmetrically arranged on two sides of the limit pipe along the length direction, and ribs which can slide in the guide grooves are arranged on the vibration buffer column corresponding to the positions of the guide grooves.

8. The reinforced building structure of claim 7, wherein the end of the guide groove is provided with a limiting block or a pressing ring for preventing the vibration buffering column from being pulled out of the limiting pipe under force, and a buffer cushion is arranged on the inner side of the limiting block or the pressing ring.