CN217679799U - Thin-wall cavity wallboard connecting mechanism suitable for high-risk areas - Google Patents

Abstract

The utility model discloses a thin wall cavity wallboard coupling mechanism suitable for high risk area relates to construction technical field, can ensure thin wall cavity wallboard and major structure's the position intensity of being connected. The wall plate connecting assembly comprises a supporting part with a reinforcing screw rod penetrating through, and two ends of the reinforcing screw rod are respectively in threaded connection with a clamping piece and are used for clamping two rib plates in cooperation with the supporting part; the supporting part is provided with a connecting screw rod, and the connecting screw rod is connected with two clamping pieces in a threaded manner and used for clamping the panel and the upper connecting piece or the lower connecting piece. The utility model discloses can still ensure to support and connect two floor and panels when the influence that receives high risk area produces the vibration thin wall cavity wallboard, make its pressure that bears when bearing installation thin wall cavity wallboard jointly to this delays the wallboard fracture, increases the life of wallboard.

Description

Thin-wall cavity wallboard connecting mechanism suitable for high-risk areas

Technical Field

The utility model relates to a construction technical field, concretely relates to thin wall cavity wallboard coupling mechanism suitable for high risk area.

Background

The building is a household with large energy consumption in China, the energy consumption of the wall structure accounts for about 65%, and the building has important significance in realizing energy conservation and heat preservation of the wall, particularly the outer wall. And traditional heat preservation walling has that the wholeness is not good, the dead weight is big, integration degree low grade problem, consequently in the work progress, can select thin wall cavity wallboard as the outer wall occasionally, solves above-mentioned problem through the good performance of its walling self and the structure of cavity.

However, because the structural strength of the thin-wall cavity wall panel is weak, when the thin-wall cavity wall panel is connected to a main structure including a beam body and a floor slab as a wall body, the connection part of the thin-wall cavity wall panel is easy to deform or crack due to stress concentration, so that the thin-wall cavity wall panel cannot be normally used, and especially in high-risk areas such as high-intensity areas and high-wind load areas, the strength requirement on the connection part is stricter, so that a connection mechanism capable of enhancing the strength of the connection part of the thin-wall cavity wall panel and the main structure is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: provided is a connecting mechanism which can ensure the strength of a connecting part between a thin-wall cavity wall plate and a main body structure.

The utility model discloses a following technical scheme realizes:

a thin-walled cavity wallboard connection mechanism suitable for use in high risk areas, comprising:

the upper connecting piece is used for being connected with the main body structure above;

the lower connecting piece is used for being connected with the main body structure below;

the wall plate connecting assembly comprises a supporting part, a reinforcing screw rod penetrates through the supporting part, and two ends of the reinforcing screw rod are respectively in threaded connection with a clamping piece; the supporting part is provided with a connecting screw rod, and the connecting screw rod is in threaded connection with two clamping pieces;

the supporting parts are arranged in an inner cavity of the thin-wall cavity wall plate, two ends of the reinforcing screw rod are used for respectively penetrating through rib plates on corresponding sides in the inner cavity, and the rib plates are clamped through the clamping parts and the supporting parts on the corresponding sides; the connecting screw rod is used for penetrating the panel facing the main body structure in the inner cavity and the upper connecting piece or the lower connecting piece, and clamping the panel and the upper connecting piece or the lower connecting piece through the two clamping pieces.

Optionally, the supporting portion has two supporting surfaces, the reinforcing screw rod is arranged in the two supporting surfaces in a penetrating mode, and the reinforcing screw rod can be tightly attached to the rib plate.

Optionally, the support portion includes a connecting plate and two support plates, and the connecting plate is connected to the two support plates through two intermediate plates;

the connecting plate is provided with the connecting screw in a penetrating way and is close to the panel, and the reinforcing screws penetrate through the two supporting plates and can be tightly attached to the rib plates;

the two side plate surfaces of the connecting plate are respectively provided with two connecting nuts, and the connecting nuts are in threaded connection with the connecting screw rods; the supporting plate is provided with a supporting nut on the side opposite to the attached rib plate, and the supporting nut is in threaded connection with the reinforcing screw.

Further optionally, the support nut is fixedly connected with the support plate.

Optionally, the connecting nut is fixedly connected with the connecting plate.

Optionally, the clamping member includes a clamping nut and a clamping washer, which are matched with the reinforcing screw or the connecting screw.

Optionally, the lower connecting piece includes a lower vertical plate, a first transverse plate and a second transverse plate;

the lower vertical plate is used for being clamped by a clamping piece on the connecting screw rod;

the first transverse plate is arranged on one side panel of the lower vertical plate back to the thin-wall cavity wall plate and is used for being placed above the main body structure below and fixedly connected with the embedded part in the main body structure;

the second transverse plate is arranged on one side panel of the lower vertical plate facing the thin-wall cavity wallboard and used for being placed below the panel and supporting the panel.

Further optionally, a reinforcing rib is arranged between the first transverse plate and the lower side vertical plate.

Optionally, the upper connection comprises an upper riser and a traction piece;

the traction piece comprises two side plates which are fixedly connected with each other in an L shape;

the upper side vertical plate can be clamped by a clamping piece on the connecting screw rod, a clamping gap for clamping one side plate of the upper side vertical plate and the panel are arranged at intervals, and the other side plate is fixedly connected with an embedded part in the main body structure above the upper side vertical plate.

Optionally, the upper connecting piece and the lower connecting piece are provided with oblong holes along the vertical direction for the connecting screw rod to pass through.

The utility model discloses have following advantage and beneficial effect:

the utility model provides a pair of thin wall cavity wallboard coupling mechanism suitable for high risk area, through holder on the both ends of supporting part and the reinforcing screw carries out the centre gripping to two floors and fixes, and carry out the centre gripping through last holder counterpiece on the connecting screw and the last connecting piece that highly corresponds with it or lower connecting piece and fix, make panel and two floors relatively fixed under two wallboard coupling assembling's effect form two highly different atress wholly from this, undertake the required holding power of installation thin wall cavity wallboard or prevent its traction force of empting jointly, and no longer only undertake through the panel, the condition that panel surface stress concentrates when avoiding original major structure directly to be connected with the panel from this, delay the wallboard fracture, increase the life of wallboard.

Simultaneously, the wallboard connecting assembly can also support the panel and the two ribbed plates, so that the strength of the connecting part is increased, and the possibility of deformation of the connecting part is reduced. The supporting part supports the two rib plates through two ends of the structure of the supporting part in the inner cavity, the supporting effect is relatively stable, even if the thin-wall cavity wallboard vibrates under the influence of strong wind or earthquake, the clamping piece on the reinforcing screw rod is loosened, the supporting part can also support the two rib plates practically, the supporting part is not influenced by the vibration, the strength of the connecting part is ensured, and the possibility of deformation of the connecting part is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a side sectional view of a thin-walled cavity wall panel of embodiment 1 of the present invention connected to a main structure;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is a schematic view of the structure of FIG. 2;

FIG. 4 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2;

fig. 5 is a schematic view of the connection between the wall panel connection assembly and the lower connection member of embodiment 1 of the present invention.

Reference numbers and corresponding part names in the drawings:

the wall plate comprises 1-thin-wall cavity wall plate, 11-ribbed plate, 12-panel, 2-main body structure, 21-embedded part, 3-wall plate connecting assembly, 31-supporting part, 311-connecting plate, 312-supporting plate, 313-middle plate, 32-reinforcing screw, 33-connecting screw, 34-clamping nut, 35-clamping gasket, 36-connecting nut, 37-supporting nut, 4-upper connecting piece, 41-upper side vertical plate, 42-traction piece, 5-lower connecting piece, 51-lower side vertical plate, 52-first transverse plate, 53-second transverse plate and 54-reinforcing rib.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more clearly understood, the following description is given for further details of the present invention with reference to the accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention, and are not intended to limit the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to one of ordinary skill in the art that: it is not necessary to employ these specific details to practice the invention. In other instances, well-known structures, circuits, materials, or methods have not been described in detail so as not to obscure the present invention.

Throughout the specification, reference to "one embodiment," "an embodiment," "one example," or "an example" means: the particular features, structures, or characteristics described in connection with the embodiment or example are included in at least one embodiment of the present invention. Thus, the appearances of the phrases "one embodiment," "an embodiment," "one example" or "an example" in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, or characteristics may be combined in any suitable combination and/or sub-combination in one or more embodiments or examples. Further, those of ordinary skill in the art will appreciate that the illustrations provided herein are for illustrative purposes and are not necessarily drawn to scale. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present invention, the terms "front", "rear", "left", "right", "upper", "lower", "vertical", "horizontal", "high", "low", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the scope of the present invention.

Example 1:

a thin-walled cavity wall panel connection suitable for use in high risk areas, as shown in figures 1 to 3, comprising:

an upper connecting piece 4, wherein the upper connecting piece 4 is used for being connected with the main body structure 2 positioned above;

a lower connecting piece 5, wherein the lower connecting piece 5 is used for being connected with the main body structure 2 below;

the wall plate connecting assembly 3 comprises a supporting part 31, a reinforcing screw rod 32 penetrates through the supporting part 31, and two ends of the reinforcing screw rod 32 are respectively in threaded connection with a clamping piece; the supporting part is provided with a connecting screw rod 33, and the connecting screw rod 33 is in threaded connection with two clamping pieces;

the supporting part 31 is used for being arranged in an inner cavity of the thin-wall cavity wall plate 1, and two ends of the reinforcing screw 32 are used for respectively penetrating through the ribbed plates 11 on the corresponding side in the inner cavity and clamping the ribbed plates 11 through the clamping piece and the supporting part 31 on the corresponding side; the connecting screw 33 is used for passing through the panel 12 facing the main body structure 2 and the upper connecting piece 4 or the lower connecting piece 5 in the inner cavity, and clamping the panel 12 and the upper connecting piece 4 or the lower connecting piece 5 through two clamping pieces.

The inner cavity of the thin-wall cavity wall plate 1 is formed by two panels 12 of the thin-wall cavity wall plate 1 and two adjacent rib plates 11 arranged between the two panels 12 in a surrounding manner; the main structure 2 can be a beam body or a floor slab; the upper main structure 2 and the lower main structure 2 may be two relatively independent main structures 2 with different heights, or two portions of the same main structure 2 with different heights. The upper connecting piece 4 and the lower connecting piece 5 which are arranged up and down are connected with the thin-wall cavity wall board 1 through the wall board connecting component 3, and the thin-wall cavity wall board 1 is fixed on the main body structure 2.

Specifically, when the thin-wall cavity wall panel 1 is installed on the main structure 2, the upper connecting piece 4 and the lower connecting piece 5 are respectively arranged on the main structure 2, and the two supporting portions 31 are arranged in the inner cavity according to the corresponding heights, at this time, the two ends of the two supporting portions 31 along the axial direction of the reinforcing screw 32 abut against the opposite sides of the two rib plates 11, then the two rib plates 11 are clamped and fixed by the two ends of the supporting portions 31 and the clamping pieces on the reinforcing screw 32, and the panel 12 and the upper connecting piece 4 or the lower connecting piece 5 corresponding to the height of the panel 12 are clamped and fixed by the clamping pieces on the connecting screw 33, so that the panel 12 and the two rib plates 11 are relatively fixed under the action of the two wall panel connecting components 3 to form two stressed whole bodies with different heights, and bear the supporting force or the traction force for preventing the thin-wall cavity wall panel 1 from toppling together, instead of the supporting force and the traction force only passing through the panel 12, thereby avoiding the situation that the surface stress of the panel 12 is concentrated when the original main structure 2 is directly connected with the panel 12, delaying the wall panel from cracking, and prolonging the service life of the wall panel.

Meanwhile, the wallboard connecting assembly 3 can also support the panel 12 and the two rib plates 11, so that the strength of the connecting part is increased, and the possibility of deformation of the connecting part is reduced. The supporting portion 31 supports the two rib plates 11 through the two ends of the structure of the supporting portion 31 in the inner cavity, so that the supporting effect is relatively stable, even if the thin-wall cavity wall panel 1 vibrates under the influence of strong wind or earthquake to cause the clamping piece on the reinforcing screw rod 32 to be loosened, the supporting portion 31 can also support the two rib plates 11 practically, the influence of the vibration is avoided, the strength of the connecting portion is ensured, and the possibility of deformation of the connecting portion is reduced.

It should be noted that although the clamping member on the connecting screw 33 may also be loosened by the vibration of the thin-wall cavity wall panel 1, at this time, since the upper connecting member 4 or the lower connecting member 5 cannot be tightly connected with the thin-wall cavity wall panel 1 through the clamping member on the connecting screw 33, the vibration mode of the thin-wall cavity wall panel 1 is changed from the vibration of the original structure to a low-amplitude swing of the whole, which is easy to be found by people, and one of the clamping members on the connecting screw 33 is exposed outside the panel 12, so that the clamping effect of the clamping member on the connecting screw 33 on the panel 12 and the upper connecting member 4 or the lower connecting member 5 can be ensured again by directly screwing the clamping member. And the supporting part 31, the reinforcing screw 32 and the clamping piece thereon are all arranged inside the wallboard and are not easy to process, so that the supporting effect of the wallboard connecting assembly 3 on two ribbed plates 11 is very necessary in the high-intensity area and the strong wind load area.

The support portion 31 has two support surfaces, and the reinforcing screw 32 is disposed through the two support surfaces, and can be tightly attached to the rib plate 11. At this time, the support portion 31 supports the rib 11 through the support surface, and increases the support area of the rib 11, thereby reducing the stress concentration of the support portion 31 on the support portion 31 of the rib 11 and improving the support effect.

However, if the distance between the two support surfaces is always fixed, it is necessary to ensure that the two support surfaces can be reliably and closely attached to the two ribs 11, and this is necessary to ensure that the distance between the two ribs 11 always coincides with the distance between the two support surfaces, but it is difficult to achieve this requirement in view of the processing accuracy of the wall panel, and therefore, it is necessary to have a certain adjustability of the distance between the two support surfaces for ensuring that the two support surfaces can be reliably attached to the two ribs 11. Thus, in one or more embodiments, as shown in fig. 4 to 5, the support portion 31 includes a link plate 311 and two support plates 312, the link plate 311 being connected with the two support plates 312 by two intermediate plates 313;

the connecting plate 311 is provided with the connecting screw 33 in a penetrating manner and is close to the panel 12, and the two supporting plates 312 are provided with the reinforcing screw 32 in a penetrating manner and can be tightly attached to the rib plate 11;

two connecting nuts 36 are respectively arranged on two side plate surfaces of the connecting plate 311, and the connecting nuts 36 are in threaded connection with the connecting screw 33; the supporting plate 312 is provided with a supporting nut 37 on a side plate surface facing away from the attached rib plate 11, and the supporting nut 37 is in threaded connection with the reinforcing screw 32.

In this case, the supporting portion 31 may be regarded as a plate having multiple bending sections, wherein the connecting nut 36 is screwed to clamp the connecting plate 311, so as to fix the connecting plate 311 and the connecting screw 33 relatively, and the supporting plate 312 is tightly attached to the rib plate 11 by screwing the supporting nut 37, and at this time, the clamping member on the reinforcing screw 32 is engaged with the supporting nut 37 to firmly hold the rib plate 11 and the supporting plate 312.

This structure is mainly for the wall panel connection assembly 3 to have a certain adjustability, and the distance between the support plates 312 can be relatively increased by the pressing of the support nuts 37 to the support plates 312, so as to ensure that the two support plates 312 can be reliably attached to the two rib plates 11, and at this time, the distance between the connection plate 311 and the panel 12 is increased along with the increase of the distance between the two support plates 312, so that two connection nuts 36 are required to ensure the connection between the connection plate 311 and the connection screw 33, and the rib plates 11 and the panel 12 can jointly bear the supporting force required for installing the thin-walled cavity wall panel 1 or the traction force for preventing the inclination thereof.

It should be noted that, in order to ensure that the performance of the support portion 31 itself is not affected, the distance between the two support plates 312 cannot be changed too much, and therefore, the adjustment method can only be used to deal with the production error under the preset specification.

However, in one or more embodiments, the support nut 37 is fixedly attached to the support plate 312, considering that the attachment nut 36 and the support nut 37 may now loosen under the influence of vibrations of the thin-walled cavity wall panel 1.

In this case, the distance between the two support plates 312 can be adjusted in advance according to the distance between the two ribs 11 at the installation position of the support portion 31, and the two support nuts 37 are connected by the reinforcing screw 32, and at this time, the two support nuts 37 are restricted by the support portion 31 and are difficult to rotate relatively, and at this time, the distance between the two support nuts 37 on the reinforcing screw 32 is fixed, and further, the distance between the two support plates 312 is fixed, so that the support plates 312 can reliably support the two ribs 11 in this process.

One of the connecting nuts 36 is fixedly connected with the connecting plate 311. By fixedly connecting one of the connection nuts 36 to the connection plate 311, the connection between the connection plate 311 and the connection screw 33 can be ensured, and the situation that the connection screw 33 is loosened, the integrity of the connection part is affected, and the supporting force required for installing the thin-walled cavity wall panel 1 or the traction force for preventing the connection part from falling cannot be shared can be avoided.

Wherein the clamping member comprises a clamping nut 34 and a clamping washer 35 which are matched with the reinforcing screw 32 or the connecting screw 33. Wherein the clamping nut 34 is in threaded connection with the reinforcing screw rod 32 or the connecting screw rod 33, the clamping gasket 35 is sleeved on the reinforcing screw rod 32 or the connecting screw rod 33 and can be tightly attached to the corresponding rib plate 11, the panel 12, the upper connecting piece 4 or the lower connecting piece 5 by the extrusion of the clamping nut 34.

In one or more embodiments, the lower link 5, as shown in fig. 2 and 5, includes a lower side riser 51, a first cross plate 52, and a second cross plate 53;

the lower vertical plate 51 is clamped by a clamping piece on the connecting screw rod 33;

the first transverse plate 52 is arranged on a side panel 12 of the lower side vertical plate 51, which faces away from the thin-wall cavity wall panel 1, and is used for being placed above the main body structure 2 below and fixedly connected with the embedded part 21 in the main body structure 2;

the second cross plate 53 is disposed on a side panel 12 of the lower riser 51 facing the thin-walled cavity wall panel 1 for placement under the panel 12 and supporting the panel 12.

At this time, the required supporting force is provided to the thin-wall cavity wall panel 1 through the lower connecting piece 5. Wherein the cooperation through downside riser 51 and first diaphragm 52 realizes being connected of thin wall cavity wallboard 1 and major structure 2, through placing second diaphragm 53 in panel 12 below, and then supports whole thin wall cavity wallboard 1, reduces the holding power that wallboard coupling assembling 3 and wallboard connected position need undertake, further delays the wallboard fracture, increases the life of wallboard.

The embedded part 21 in the main body structure 2 is a connecting piece pre-embedded in the main body structure 2 casting process, and is used for connecting the main body mechanism with other parts, and the embedded part 21 is a conventional technical means of a person skilled in the art, and is not described in detail herein.

And a reinforcing rib 54 is arranged between the first transverse plate 52 and the lower vertical plate 51. Therefore, the connection strength of the first transverse plate 52 and the lower vertical plate 51 is improved, and the phenomenon that the connection between the first transverse plate 52 and the lower vertical plate 51 is deformed or broken under the load action of the thin-wall cavity wall plate 1 to influence the installation of the thin-wall cavity wall plate 1 is avoided.

In one or more embodiments, the upper connection 4, as shown in fig. 2, includes an upper riser 41 and a tractor 42;

the traction piece 42 comprises two side plates which are fixedly connected with each other in an L shape;

the upper vertical plate 41 can be clamped by a clamping piece on the connecting screw rod 33, a clamping gap for clamping one side plate of the upper vertical plate 41 and the panel 12 is formed at intervals, and the other side plate is fixedly connected with an embedded part 21 in the main body structure 2 above.

At this time, the thin-walled cavity wall panel 1 is provided with a traction force preventing it from toppling over by the lower connecting member 5. The pulling member 42 is pre-arranged on the main structure 2 above and pulls the upper vertical plate 41 connected to the thin-wall cavity wall panel 1 towards the inside to prevent the wall panel from falling.

It is preferable that the clamping gap is consistent with the width of the side plate clamped by the clamping gap, so that the traction piece 42 and the thin-wall cavity wall plate 1 are relatively stable, and the thin-wall cavity wall plate 1 is prevented from vibrating under the influence of strong wind or earthquake to influence the use of the thin-wall cavity wall plate.

The upper connecting piece 4 and the lower connecting piece 5 are provided with oblong holes along the vertical direction for the connecting screw rods 33 to pass through. The end of the connecting screw 33 can move vertically in the oblong hole to a certain extent, so that the wallboard can adapt to the deformation of the main structure 2 and keep being connected with the main structure 2 under the influence of strong wind or earthquake.

Wherein, in this application, need ensure the support to two floor 11 through supporting part 31, and then improve floor 11's intensity, but consider that 1 specification of thin wall cavity wallboard is more, and wherein the supporting part is difficult to the different specification of adaptation, need pertinence go to set up the supporting part, the expenditure is more and comparatively inconvenient, therefore, another utility model has been submitted on the same day, its name is "a coupling mechanism who is applicable to thin wall cavity wallboard 1 of different specifications", can be applicable to being connected of thin wall cavity wallboard 1 and major structure 2 of different specifications, strengthen its connection site's intensity simultaneously, the utility model discloses mainly be applied to except high intensity area and high risk area such as strong wind load area the area outside, promptly to the lower scene of connection site intensity requirement. Therefore, the two utility models have different application directions.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A thin-walled cavity wallboard connecting mechanism suitable for high risk areas, comprising:

the upper connecting piece (4) is used for being connected with the main body structure (2) above;

a lower connecting piece (5), wherein the lower connecting piece (5) is used for being connected with the main body structure (2) below;

the wall plate connecting assembly (3) comprises a supporting part (31), a reinforcing screw rod (32) penetrates through the supporting part (31), and two ends of the reinforcing screw rod (32) are respectively in threaded connection with a clamping piece; the supporting part is provided with a connecting screw rod (33), and the connecting screw rod (33) is in threaded connection with two clamping pieces;

the supporting part (31) is arranged in an inner cavity of the thin-wall cavity wall plate (1), two ends of the reinforcing screw rod (32) are used for respectively penetrating through rib plates (11) on corresponding sides in the inner cavity, and the rib plates (11) are clamped through the clamping piece and the supporting part (31) on the corresponding side; the connecting screw rod (33) is used for penetrating through the panel (12) facing the main body structure (2) in the inner cavity and the upper connecting piece (4) or the lower connecting piece (5), and clamping the panel (12) and the upper connecting piece (4) or the lower connecting piece (5) through two clamping pieces.

2. The connecting mechanism for thin-walled hollow wall panels suitable for high-risk areas of claim 1, wherein the supporting portion (31) has two supporting surfaces, and the two supporting surfaces are provided with the reinforcing screw rod (32) in a penetrating way and can be tightly attached to the rib plate (11).

3. A thin-walled cavity wall panel connection means adapted for high risk areas according to claim 1, characterized in that the support portion (31) comprises two support plates (312) and a connection plate (311), the connection plate (311) being connected with the two support plates (312) by two intermediate plates (313);

the connecting plate (311) is provided with the connecting screw rod (33) in a penetrating manner and is close to the panel (12), and the two supporting plates (312) are provided with the reinforcing screw rod (32) in a penetrating manner and can be tightly attached to the rib plate (11);

two side plate surfaces of the connecting plate (311) are respectively provided with two connecting nuts (36), and the connecting nuts (36) are in threaded connection with the connecting screw rods (33); one side face of the supporting plate (312) back to the rib plate (11) is provided with a supporting nut (37), and the supporting nut (37) is in threaded connection with the reinforcing screw (32).

4. A thin-walled cavity wall panel connection means adapted for use in high risk areas according to claim 3, wherein said support nut (37) is fixedly connected to said support plate (312).

5. The connecting mechanism for the thin-wall cavity wall panel suitable for the high risk areas as claimed in claim 3, wherein one of the connecting nuts (36) is fixedly connected with the connecting plate (311).

6. A thin-walled cavity wall panel connection suitable for high-risk areas according to claim 1, characterized in that the clamping means comprises a clamping nut (34) cooperating with the reinforcement screw (32) or the connection screw (33) and a clamping washer (35).

7. A thin-walled cavity wall panel connection suitable for high risk areas according to claim 1, characterized in that the lower connector (5) comprises a lower side riser (51), a first cross plate (52) and a second cross plate (53);

the lower vertical plate (51) is clamped by a clamping piece on the connecting screw rod (33);

the first transverse plate (52) is arranged on a side face plate (12) of the lower side vertical plate (51) back to the thin-wall cavity wall plate (1) and is used for being placed above a main body structure (2) below and fixedly connected with embedded parts (21) in the main body structure (2);

the second transverse plate (53) is arranged on one side face plate (12) of the lower side vertical plate (51) facing the thin-wall cavity wall plate (1) and is used for being placed below the face plate (12) and supporting the face plate (12).

8. A thin-walled cavity wall panel connection suitable for high risk areas according to claim 7 wherein a reinforcement bar (54) is provided between the first cross plate (52) and the lower riser (51).

9. A thin-walled cavity wall panel connection suitable for use in high risk areas according to claim 1, wherein the upper connection (4) comprises an upper riser (41) and a tractor (42);

the traction piece (42) comprises two side plates which are fixedly connected with each other in an L shape;

the upper side vertical plate (41) can be clamped by a clamping piece on the connecting screw rod (33), a clamping gap for clamping one side plate of the upper side vertical plate (41) and the panel (12) is formed at intervals, and the other side plate is fixedly connected with an embedded piece (21) in the main body structure (2) above.

10. A thin-walled cavity wall panel connection mechanism suitable for high risk areas according to claim 1, characterized in that the upper connector (4) and the lower connector (5) are provided with oblong holes in vertical direction for the connection screw (33) to pass through.

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