CN216239397U

CN216239397U - Integrated support with high wind tearing resistance

Info

Publication number: CN216239397U
Application number: CN202122930480.XU
Authority: CN
Inventors: 孙成疆
Original assignee: Hoogovens Building Systems (guangzhou) Ltd
Current assignee: Hoogovens Building Systems (guangzhou) Ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-04-08
Anticipated expiration: 2031-11-26

Abstract

The utility model discloses a high wind uncovering resistance integral support which comprises a support body, a supporting body and a supporting frame, wherein the support body can firmly connect a side rib of a metal roof board and a sandalwood strip together; the support body comprises a T-shaped seat with a groove formed in the top, the T-shaped seat is detachably fixed on the sandal wood strip through a bolt when working, L-shaped buckle plates are arranged on the T-shaped seat and positioned at two ends of the groove, each L-shaped buckle plate is provided with a connecting plate with the bottom matched with the L-shaped buckle plate in a sliding buckle mode, and the top of the connecting plate is in nested fit with the edge rib of the metal roof panel when working; and an elastic plate used for being matched with the corresponding connecting plate to limit the mounting position of the connecting plate is arranged on the T-shaped seat and in the groove at the front end of each connecting plate. The utility model has the advantages that the edge ribs of the two metal roof boards at the outermost ends can be stably fixed on the sandal wood strips, the metal roof boards are not easy to lift under the action of strong wind suction force, and the wind uncovering resistance is strong.

Description

Integrated support with high wind tearing resistance

Technical Field

The utility model relates to the technical field of buildings, in particular to an integrated support with high wind uncovering resistance.

Background

In recent years, with the rapid development of building technologies in China, steel structure buildings have the advantages of short construction period, high strength, light dead weight, good overall rigidity, strong deformability and the like, and are widely applied to the fields of stadiums, stations, docks, exhibition centers, terminal buildings and the like. At present, the roofing of steel construction building adopts metal roof boarding system more, and current metal roof boarding is at the in-process of installation, and two side ribs of its outermost end are usually through the screw snap-on the purlin, during the use, when meetting the storm environment, under the suction effect of strong wind, because the screw is limited to the anti-wind ability of taking off of metal roof boarding, lead to metal roof boarding to be lifted easily, produce the potential safety hazard, be difficult to satisfy actual application demand.

Therefore, how to solve the above problems is an urgent technical problem to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high wind uncovering resistance integral support which can firmly fix the side ribs of two metal roof boards at the outermost end on a sandalwood strip, and the metal roof boards are not easy to lift under the action of strong wind suction force and have strong wind uncovering resistance.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

a conjoined support with high wind uncovering resistance comprises a support body which can firmly connect the edge rib of a metal roof board and a sandalwood strip together; the support body comprises a T-shaped seat with a groove formed in the top, the T-shaped seat is detachably fixed on the sandal wood strip through a bolt when working, L-shaped buckle plates are arranged on the T-shaped seat and positioned at two ends of the groove, each L-shaped buckle plate is provided with a connecting plate with the bottom matched with the L-shaped buckle plate in a sliding buckle mode, and the top of the connecting plate is in nested fit with the edge rib of the metal roof panel when working; and an elastic plate used for being matched with the corresponding connecting plate to limit the mounting position of the connecting plate is arranged on the T-shaped seat and in the groove at the front end of each connecting plate.

Preferably, each connecting plate comprises a U-shaped slip sheet matched with the L-shaped buckle plate in a sliding buckle mode, an L-shaped supporting sheet is arranged at one end, located at the top of the L-shaped buckle plate, of the U-shaped slip sheet, a U-shaped connecting sheet capable of being matched with the L-shaped supporting sheet and being nested with the edge rib of the metal roof panel is arranged at one end, far away from the U-shaped slip sheet, of the L-shaped supporting sheet, a sealing layer is arranged at the bottom of the joint of the L-shaped supporting sheet and the U-shaped connecting sheet, an elastic buckle sheet is arranged on the L-shaped supporting sheet and located below the same side of the U-shaped connecting sheet, and the elastic buckle sheet and the U-shaped connecting sheet are clamped, matched and buckled on the edge rib of the metal roof panel in a clamping mode when the elastic buckle sheet works; the L-shaped support plate is characterized by further comprising a limit buckle which is arranged on the L-shaped support plate and is far away from one end of the elastic buckle piece, and the limit buckle is used for being matched with the elastic plate clamp to limit the installation position of the L-shaped support plate.

Preferably, the sealing layer is made of a non-setting adhesive material.

Preferably, the U-shaped slip sheet, the L-shaped support sheet and the U-shaped connection sheet are of an integrally formed structure.

Preferably, each elastic plate comprises an elastic seat which is arranged on the T-shaped seat and is located at the front end of the corresponding L-shaped support sheet, wherein the upper end of the elastic seat can bounce up and down, a limiting sheet is arranged on the outer edge of the top of the elastic seat, a limiting groove is formed in the top of one end, close to the limiting buckle, of the limiting sheet, and the limiting groove is in normal state and is in snap fit with the limiting buckle to limit the installation position of the L-shaped support sheet on the L-shaped buckle plate.

Preferably, an M-shaped reinforcing rib is arranged on the L-shaped support sheet.

Preferably, a plurality of transversely arranged reinforcing ribs are arranged on the T-shaped seat and in the groove.

Compared with the prior art, the utility model has the following beneficial effects:

when the connecting plate is used, the U-shaped connecting sheets of each connecting plate are embedded on the edge ribs of the metal roof plate, the U-shaped sliding sheets of each connecting plate respectively slide into cavities formed by the mutual matching of the L-shaped buckle plate and the T-shaped seat, then the elastic seats of the elastic plates are pressed to bounce downwards, the corresponding connecting plates are pushed to slide relative to the L-shaped buckle plate, the connecting plates are stopped to be pushed until the limit buckles of the connecting plates are positioned above the limit grooves of the elastic plates, at the moment, the elastic seats of the elastic plates are loosened, the elastic seats of the elastic plates bounce upwards to reset under the action of the resetting force, the limit grooves of the elastic plates are mutually buckled and matched with the limit buckles of the connecting plates, so that the edge ribs of the metal roof plate are connected with the support body in a locking mode, and finally the T-shaped seats are fixed on the corresponding sandalwood strips through bolts; by adopting the structure, when strong wind suction acts, the wind uncovering force received by the edge rib end of the outermost metal roof panel can be transmitted to the T-shaped seat through the mutual matching of the connecting plate and the elastic plate, the received wind uncovering force is transmitted to the purline through the bolt by the T-shaped seat, and the edge rib of the metal roof panel is directly tensioned by utilizing the mutual matching of the purline, two pairs of support bodies arranged at intervals, the T-shaped seats and the bolt, so that the edge rib of the metal roof panel and the sandalwood strip are fixed stably, the metal roof panel is not easy to be uncovered when the strong wind suction acts, and the wind uncovering resistance of the metal roof panel is improved; therefore, the utility model has the advantages that the edge ribs of the two metal roof boards at the outermost ends can be stably fixed on the sandal wood strips, the metal roof boards are not easy to lift under the action of strong wind suction force, and the wind uncovering resistance is strong.

Drawings

The utility model is further illustrated by the following figures and examples.

FIG. 1 is a schematic structural view of an integral support with high wind uncovering resistance according to the present invention;

FIG. 2 is a schematic view of the connection of the integrated support with high wind uncovering resistance with the metal roof board and the sandal wood strips;

FIG. 3 is a schematic view of the connection between the connecting plate and the L-shaped buckle plate of the integrated support with high wind uncovering resistance.

Description of reference numerals: 100. the roof comprises a metal roof board, 200 parts of a sandalwood strip, 1 part of a support body, 11 parts of a groove, 12 parts of a T-shaped seat, 13 parts of a bolt, 14 parts of an L-shaped buckle plate, 15 parts of a connecting plate, 151 parts of a U-shaped sliding sheet, 152 parts of an L-shaped support sheet, 153 parts of a U-shaped connecting sheet, 154 parts of a sealing layer, 155 parts of an elastic buckle sheet, 156 parts of a limit buckle, 16 parts of an elastic board, 161 parts of an elastic seat, 162 parts of a limit sheet, 163 parts of a limit groove, 2 parts of an M-shaped reinforcing rib, 3 parts of a reinforcing rib.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 3, an integral support with high wind uncovering resistance comprises a support body 1 capable of firmly connecting the edge rib of a metal roof board 100 and a sandalwood strip 200 together; the support body 1 comprises a T-shaped seat 12 with a groove 11 formed in the top, the T-shaped seat 12 is detachably fixed on the sandal wood strip 200 through a bolt 13 when working, L-shaped buckle plates 14 are arranged on the T-shaped seat 12 and positioned at two ends of the groove 11, a connecting plate 15 with the bottom matched with the L-shaped buckle plate 14 in a sliding buckle mode is arranged on each L-shaped buckle plate 14, and the top of the connecting plate 15 is in nested fit with the edge rib of the metal roof panel 100 when working; an elastic plate 16 for cooperating with the corresponding connecting plate 15 to define the mounting position of the connecting plate 15 is further arranged on the T-shaped seat 12 and in the groove 11 at the front end of each connecting plate 15.

Each connecting plate 15 comprises a U-shaped sliding sheet 151 in sliding-buckle fit with the L-shaped buckle plate 14, an L-shaped supporting sheet 152 is arranged at one end of the U-shaped sliding sheet 151, which is positioned at the top of the L-shaped buckle plate 14, a U-shaped connecting sheet 153 capable of being matched with the L-shaped supporting sheet 152 and being embedded with the edge rib of the metal roof panel 100 is arranged at one end of the L-shaped supporting sheet 152, which is far away from the U-shaped sliding sheet 151, a sealing layer 154 is arranged at the bottom of the joint of the L-shaped supporting sheet 152 and the U-shaped connecting sheet 153, an elastic buckle sheet 155 is arranged below the L-shaped supporting sheet 152 and positioned at the same side of the U-shaped connecting sheet 153, and the elastic buckle sheet 155 and the U-shaped connecting sheet 153 are clamped and matched with each other and buckled on the edge rib of the metal roof panel 100 when in operation; the elastic buckle further comprises a limit buckle 156 which is arranged on the L-shaped support piece 152 and one end of which is far away from the elastic buckle piece 155 and is used for being in snap fit with the elastic plate 16 to limit the installation position of the L-shaped support piece 152.

The sealing layer 154 is made of a non-setting adhesive material.

The U-shaped sliding sheet 151, the L-shaped supporting sheet 152 and the U-shaped connecting sheet 153 are of an integrally formed structure.

Each elastic plate 16 includes an elastic seat 161 disposed on the T-shaped seat 12 and located at the front end of the corresponding L-shaped support sheet 152, wherein the upper end of the elastic seat 161 can bounce up and down, a limit sheet 162 is disposed on the outer edge of the top of the elastic seat 161, a limit groove 163 is disposed on the top of one end of the limit sheet 162 close to the limit buckle 156, and the limit groove 163 is normally in snap fit with the limit buckle 156 to limit the mounting position of the L-shaped support sheet 152 on the L-shaped buckle plate 14.

The L-shaped support sheet 152 is provided with M-shaped reinforcing ribs 2.

A plurality of reinforcing ribs 3 which are transversely arranged are arranged on the T-shaped seat 12 and positioned in the groove 11.

When the support is used specifically, firstly, the T-shaped seat 12 of the support body 1, the L-shaped buckle plate 14 and the elastic plate 16 are placed on the sandal wood strip 200, and the top of one end of the T-shaped seat 12 abuts against the bottom of the edge rib of the metal roof panel 100; secondly, the U-shaped connecting sheets 153 of the connecting plates 15 of the support body 1 are all nested on the edge ribs of the metal roof panel 100, at the moment, the sealing layer 154 is attached to the top of the edge ribs of the metal roof panel 100, the elastic buckle sheet 155 is also abutted against the bottom of a folded edge in the middle of the edge ribs of the upper metal roof panel 100 to be matched with the U-shaped connecting sheets 153 to clamp the edge ribs of the metal roof panel 100, and then the L-shaped supporting sheets 152 of the connecting plates 15 are pushed to drive the U-shaped sliding sheets 151, the U-shaped connecting sheets 153, the sealing layer 154, the elastic buckle sheet 155 and the limiting buckles 156 to move towards the corresponding L-shaped buckle plates 14 until the U-shaped sliding sheets 151 extend into cavities formed by the mutual matching of the corresponding L-shaped buckle plates 14 and the T-shaped seats 12, and then the L-shaped supporting sheets 152 are stopped being pushed; then, pressing the elastic seat 161 of the elastic plate 16 drives the limiting piece 162 and the limiting groove 163 to bounce downward, pushing the corresponding L-shaped supporting piece 152 to drive the corresponding U-shaped sliding piece 151, together with the U-shaped connecting piece 153, the sealing layer 154, the elastic buckle piece 155 and the limiting buckle 156, to slide in the cavity formed by the corresponding L-shaped buckle plate 14 and the T-shaped seat 12 in cooperation with each other, stopping pushing the L-shaped supporting piece 152 to move until the limiting buckle 156 is located right above the limiting groove 163 of the elastic plate 16, then releasing the elastic seat 161, enabling the elastic seat 161, together with the limiting piece 162 and the limiting groove 163, to bounce upward and reset under the action of the elastic reset force, enabling the limiting groove 163 and the limiting buckle 156 to be in snap-fit with each other, thereby enabling the U-shaped connecting piece 153, the L-shaped supporting piece 152, the U-shaped sliding piece 151, the limiting buckle 156, the limiting groove 163, the limiting piece 162, the elastic seat 161, the L-shaped buckle 14 and the T-shaped seat 12 to be connected together, meanwhile, the edge ribs of the metal roof panel 100 and the connecting plate are firmly connected together through the nesting fit of the U-shaped sliding sheet 151 and the edge ribs of the metal roof panel 100 and the clamping action of the U-shaped sliding sheet 151 and the elastic buckle sheet 155 on the edge ribs of the metal roof panel 100; finally, the T-shaped seat 12 is fixed on the sandal wood strip 200 through the bolt 13, and in addition, the strength of the L-shaped support sheet 152 and the T-shaped seat 12 can be effectively improved through the M-shaped reinforcing ribs 2 arranged on the L-shaped support sheet 152 and the reinforcing ribs 3 arranged on the T-shaped seat 12, and the T-shaped seat can bear larger pulling force.

In a word, the structure has the advantages that the edge ribs of the two metal roof boards at the outermost ends can be stably fixed on the sandal wood strips, the metal roof boards are not easy to lift under the action of strong wind suction force, and the wind uncovering resistance is strong.

It will be apparent to those skilled in the art that various other changes and modifications may be made in the above-described embodiments and concepts and all such changes and modifications are intended to be within the scope of the appended claims.

Claims

1. A conjoined support with high wind resistance comprises a support body (1) which can firmly connect the edge rib of a metal roof board (100) and a sandalwood strip (200) together; the method is characterized in that: the support body (1) comprises a T-shaped seat (12) with a groove (11) formed in the top, the T-shaped seat (12) is detachably fixed on the sandal wood strip (200) through a bolt (13) when working, L-shaped buckle plates (14) are arranged on the T-shaped seat (12) and positioned at two ends of the groove (11), each L-shaped buckle plate (14) is provided with a connecting plate (15) with the bottom matched with the L-shaped buckle plate (14) in a sliding buckle mode, and the top of the connecting plate (15) is in nested fit with the edge rib of the metal roof panel (100) when working; and an elastic plate (16) used for being matched with the corresponding connecting plate (15) to limit the installation position of the connecting plate (15) is arranged on the T-shaped seat (12) and in the groove (11) at the front end of each connecting plate (15).

2. The integral support with high wind uncovering resistance according to claim 1, wherein: each connecting plate (15) comprises a U-shaped sliding sheet (151) matched with the L-shaped buckle plate (14) in a sliding and buckling way, an L-shaped support sheet (152) is arranged at one end of the U-shaped slide sheet (151) which is positioned at the top of the L-shaped buckle plate (14), one end of the L-shaped supporting sheet (152) far away from the U-shaped sliding sheet (151) is provided with a U-shaped connecting sheet (153) which can be matched with the L-shaped supporting sheet (152) and is embedded with the edge rib of the metal roof panel (100), the bottom of the joint of the L-shaped supporting sheet (152) and the U-shaped connecting sheet (153) is provided with a sealing layer (154), an elastic buckling piece (155) is arranged on the L-shaped supporting piece (152) and positioned below the same side of the U-shaped connecting piece (153), and when the elastic buckling piece (155) works, the elastic buckling piece and the U-shaped connecting piece (153) are mutually clamped, matched and buckled on a side rib of the metal roof panel (100); the L-shaped support piece (152) is provided with an elastic buckle piece (155), and the L-shaped support piece is provided with a limit buckle (156) which is arranged on the L-shaped support piece (152) and is far away from one end of the elastic buckle piece (155) and used for limiting the installation position of the L-shaped support piece (152) in a buckling fit mode with the elastic plate (16).

3. The integral support with high wind uncovering resistance according to claim 2, wherein: the sealing layer (154) is made of a non-setting adhesive material.

4. The integral support with high wind uncovering resistance according to claim 2, wherein: the U-shaped sliding sheet (151), the L-shaped supporting sheet (152) and the U-shaped connecting sheet (153) are of an integrally formed structure.

5. The integral support with high wind uncovering resistance according to claim 2, wherein: each elastic plate (16) comprises an elastic seat (161) which is arranged on the T-shaped seat (12) and is located at the front end of the corresponding L-shaped support sheet (152), wherein the upper end of the elastic seat (161) can bounce up and down, a limiting sheet (162) is arranged on the outer edge of the top of the elastic seat (161), a limiting groove (163) is formed in the top of one end, close to the limiting buckle (156), of the limiting sheet (162), and the limiting groove (163) is normally matched with the limiting buckle (156) in a buckling mode to limit the installation position of the L-shaped support sheet (152) on the L-shaped buckle plate (14).

6. The integral support with high wind uncovering resistance according to claim 5, wherein: the L-shaped support sheet (152) is provided with an M-shaped reinforcing rib (2).

7. The integral support with high wind uncovering resistance according to any one of claims 1 to 6, wherein: a plurality of reinforcing ribs (3) which are transversely arranged are arranged on the T-shaped seat (12) and in the groove (11).