CN203795587U - Energy dissipation and diagonal bracing device with inspection window holes - Google Patents

Abstract

The utility model discloses an energy dissipation and diagonal bracing device with inspection window holes. The energy dissipation and diagonal bracing device comprises a bracing component and a surrounding and binding component, the surrounding and binding component surrounds the outside of the bracing component to form binding and bracing effect, the bracing component is provided with at least one bracing shaft, more than one concave edge is arranged on two sides of each bracing shaft to form more than one load segment, the surrounding and binding component comprises more than one group of lateral positioning pieces correspondingly arranged at the positions of the concave edges and two binding frames respectively clinging to the bracing component and fixedly connected with the corresponding lateral positioning pieces, and each binding frame is a flat hollow pipe fitting with a rectangular section. The surrounding and binding component is provided with at least one inspection window hole, which can be intervisible with the corresponding bracing shaft and can be in any shape, at the position corresponding to each bracing shaft. Inspection personnel can be allowed to inspect states of the bracing shafts through the inspection window holes so as to guarantee structural safety of the building.

Description

There is the energy-dissipating bracing device of inspecting fenestra

Technical field

The utility model relates to a kind of strengthening bracing or strutting arrangement that applies to building and various civil engineerings, particularly relates to a kind of energy-dissipating bracing device of inspecting fenestra that has.

Background technology

For strengthening structure toughness and the support strength of building and various civil engineerings, the energy-dissipating bracing device that forms oblique support generally can be set between the crossbeam of building and column, use axial toughness, the strengthening structure that provides suitable and eliminate the usefulness such as vibration energy.For this problem, applicant previously successively development and Design go out and count No. M321445 as TW certificate number, TW certificate number is counted No. M345092, TW certificate number is counted No. M345836 and TW certificate number such as counts No. M3891426 at the disclosed energy-dissipating bracing device of Patent Case, the disclosed energy-dissipating bracing device of these Patent Cases is mainly to comprise that one is positioned at the back shaft part of shaft core position, one group is arranged at above the strong direction of principal axis of back shaft part axial region and forms the side keeper of support, and the confinement structure that can surround back shaft part axial region, obtain and support and contained effect by the axial region of back shaft part by side keeper and confinement structure, use prevent back shaft part do in being stressed the used time produce frustrate in the wrong.

The energy-dissipating bracing device of the various types that applicant had previously proposed, the difference that can meet various buildings supports demand, in the time that building is subject to seismic forces or high wind effect and is out of shape, the lateral force that can utilize energy-dissipating bracing device to help opposing earthquake or high wind to cause, reduces the degree that building rolls.But after the earthquake or after high wind effect, when the structural safety of building is tested, because the confinement structure of existing energy-dissipating bracing device is the comprehensive load section that is being coated contained back shaft part, unless confinement structure is removed, otherwise whether reviewer cannot check the load section of back shaft part to be damaged, significant limitation while becoming the inspection of energy-dissipating bracing device structural safety, particularly because the confinement structure high and constructional difficulties of the cost of dismounting again, reviewer often can only skip the inspection whether the back shaft part of energy-dissipating bracing device is damaged or is out of shape, form the secret worry in fabric structure safety.

Utility model Inner holds

There is for solving existing energy-dissipating bracing device the not enough and restriction that is difficult to back shaft part to be inspected, main purpose of the present utility model is to propose a kind of energy-dissipating bracing device of inspecting fenestra that has, it is mainly the fenestra of inspecting of offering at least one and can be any shape at confinement structure corresponding to the position of back shaft part, can allow reviewer inspect the state of back shaft part by inspecting fenestra, solve existing energy-dissipating bracing device and cannot inspect the not enough and restriction of back shaft part state, guarantee the structural safety of building.

The purpose of this utility model is to adopt following technical scheme to realize.

According to the energy-dissipating bracing device of inspecting fenestra that has the utility model proposes, comprising:

One supporting component, it is provided with at least one back shaft part, this back shaft part is provided with an axial region and two that is long slab sheet and links respectively the connector of being located at these axial region two ends, and the both sides of this axial region are provided with more than one recessed edge and form accordingly more than one load section; And

One confinement structure, it is enclosed in this supporting component outside and forms contained supporting role, this confinement structure comprises that one group of above correspondence is located at the side keeper of each recessed edge position, and two be posted by respectively this supporting component biside plate face and link fixing contained framework with corresponding each side keeper, the tabular hollow pipe fitting that each contained framework is square-section and have an inner plate body and that reclines this supporting component be positioned at outside outer plate body, this confinement structure is in the position of the each back shaft part of correspondence, respectively be provided with accordingly the fenestra of inspecting that at least one can the corresponding back shaft part of intervisibility.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein each contained framework is in the respectively position of the section of load of correspondence, be respectively provided with at least one run through described inside and outside plate body described in inspect fenestra.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein at least one side keeper is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

Described have an energy-dissipating bracing device of inspecting fenestra, and each side keeper of a side is in the respectively position of the section of load of correspondence therein, is respectively provided with the fenestra of inspecting described at least one.

Described have an energy-dissipating bracing device of inspecting fenestra, and at least one side keeper of the back shaft part both sides described in one of them is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

Described have an energy-dissipating bracing device of inspecting fenestra, and one of them contained framework is in the respectively position of the section of load of correspondence, be respectively provided with at least one run through described inside and outside plate body described in inspect fenestra.

Described have an energy-dissipating bracing device of inspecting fenestra, inspects the described contained framework of fenestra described in being wherein provided with, in correspondence respectively load fragment position set described in inspect fenestra quantity be two or three.

Described have an energy-dissipating bracing device of inspecting fenestra, inspects the described side keeper of fenestra described in being wherein provided with, in correspondence respectively load fragment position set described in inspect fenestra quantity be two or three.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein said supporting component comprises the back shaft part described in.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein said each back shaft part is respectively arranged with accordingly the recessed edge described in both sides and forms the load section described in.

Described have an energy-dissipating bracing device of inspecting fenestra, wherein said each back shaft part in both sides accordingly interval be respectively arranged with the recessed edge described in two and form the load section described in two.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein said each side keeper and each contained framework are that solder bond is fixed.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein said each side keeper and each contained framework are in conjunction with fixing with multiple bolts or rivet.

Described have an energy-dissipating bracing device of inspecting fenestra, and the connector of wherein said back shaft part is made as tabular or has the crosswise of binding plate or have the T word shape of binding plate or have the tabular in conjunction with recess.

Described have an energy-dissipating bracing device of inspecting fenestra, and the supporting component described in it comprises that a coupling member and two that is long slab sheet and is positioned at centre position lays respectively at the described back shaft part of these relative two sides of coupling member.

Described have an energy-dissipating bracing device of inspecting fenestra, and wherein said coupling member is to be made up of two-layer sheet material.

The beneficial effect that the technical scheme that the utility model proposes can obtain is, the utility model is provided with the fenestra of inspecting that can be any shape in the confinement structure of energy-dissipating bracing device, can get final product the load section of direct intervisibility to back shaft part by the outside of energy-dissipating bracing device, effectively with the structure of simplifying and cheap cost, reach and allow reviewer check easily the state that detects back shaft part, further guarantee the structural safety of building, dark tool industry is utilized benefit.

Below coordinate in preferred embodiment graphic and of the present utility model, further set forth the technological means that the utility model is taked for reaching predetermined object.

Brief description of the drawings

Fig. 1 to Figure 33 is the composition component decomposition map of the utility model the 1st to the 33rd preferred embodiment.

Wherein, Reference numeral:

A supporting component

10 back shaft part 11 axial regions

112 recessed edge 114 load sections

12 Lian Jie Head 122 Jie He Ban Block

124 in conjunction with recess

20 confinement structure 21 side keepers

212 flanges 214 are inspected fenestra

22 restrain framework 222 Inner Ban Body

224 outer plate Body 226 inspect fenestra

30 coupling members

Detailed description of the invention

The utility model is the energy-dissipating bracing device that a kind of installation applies to the structural framing of building or bridge, as shown in each graphic disclosed embodiment, the utility model comprises that a supporting component A and is enclosed in this supporting component A outside and forms the confinement structure 20 of restraining supporting role, wherein, this supporting component A comprises at least one back shaft part 10 that is strip form, this back shaft part 10 is provided with an axial region 11 and two that is long slab sheet and links respectively the connector 12 of being located at these axial region 11 two ends, this axial region 11 is provided with more than one recessed edge 112 and forms non-linear lateral margin, and form accordingly more than one load section 114 in the position of this more than one recessed edge 112, this confinement structure 20 comprises that one group of above correspondence is arranged at each recessed edge 112 positions of each back shaft part 10 and forms the side keeper 21 of support, and two be posted by respectively this supporting component A biside plate face and link fixing contained framework 22 with corresponding each side keeper 21, this confinement structure 20 is in the position of the each back shaft part 10 of correspondence, respectively be provided with accordingly at least one can the corresponding back shaft part 10 of intervisibility and can be any shape inspect fenestra 214, 226, use the state that can Direct Test be detected each back shaft part 10 by the outside of energy-dissipating bracing device that reaches, group forms a kind of energy-dissipating bracing device of inspecting fenestra that has.

In the 1st preferred embodiment as shown in Figure 1, this energy-dissipating bracing device comprises that a supporting component A and is enclosed in this supporting component A outside and forms the confinement structure 20 of restraining supporting role, the supporting component A of the present embodiment is the back shaft part 10 that is without exception long slab sheet, this back shaft part 10 have an axial region 11 and two that is positioned at axial position and is long slab sheet respectively one be linked to the connector 12 at these axial region 11 two ends; Wherein, this axial region 11 is arranged with accordingly in both sides and forms more than one recessed edge 112, respectively form accordingly one in order to bear the load section 114 of external force in the position of each recessed edge 112, in embodiment as shown in the figure, be respectively arranged with accordingly a recessed edge 112 in the both sides of this axial region 11 of this back shaft part 10 and form a load section 114; This connector 12 is distributed with the lithographic plate shape of multiple combined holes for plate face, uses and allows this back shaft part 10 see through the fixed components such as bolt or rivet or welding to be fixed on the position that arranges of corresponding crossbeam or column.

Coated axial region 11 outsides of restrainting in this back shaft part 10 of enclosing of this confinement structure 20, and comprise that one group of above correspondence is arranged at each recessed edge 112 positions of this back shaft part 10 and is positioned at the strong axial side keeper 21 of this back shaft part 10, and the two contained frameworks 22 that are posted by respectively these back shaft part 10 biside plate faces and link with each side keeper 21; Wherein, both sides keeper 21 coordinates the set recessed edge 112 of this axle center member 10, respectively be convexly equipped with and form a flange matching 212 in the opposite position of both sides keeper 21, allow and form concavo-convex matched form between axle center member 10 and the non-linear lateral margin of both sides keeper 21, and be installed with a gap between the recessed edge 112 of this axle center member 10 and the flange 212 of both sides keeper 21; Preferably, this axle center member 10 can utilize cutting implement longitudinally to cut the three-chip type member forming in two side positions by same long slab material with both sides keeper 21, use and take maximum business efficiency to utilize board-like material, and also can further utilize machining machine and tool, the thickness of axle center member 10 is processed into thickness and be slightly less than the thickness of both sides keeper 21.

Aforesaid two restrain the tabular hollow pipe fitting that framework 22 is square-section, its have an inner plate body 222 and that reclines this supporting component A be positioned at outside outer plate body 224, and allowing two, to restrain the both side edges of inner plate body 222 of frameworks 22 fixedly connected with corresponding side keeper 21 in the mode such as welding or screw lock or rivet, allows this confinement structure 20 enclose bundle form to these back shaft part 10 formation; Two restrain frameworks 22 in the position of the load section 114 to should back shaft part 10, respectively be provided with at least one run through inside and outside plate body 222,224 and can intervisibility corresponding load section 114 inspect fenestra 226, in embodiment as shown in the figure, two restrain frameworks 22 inspects fenestra 226 in position that should the section of load 114 is respectively interval with to three, respectively inspect fenestra 226 and can be any shape, use and can be inspected easily by the outside of energy-dissipating bracing device the state of corresponding load section 114.

In the 2nd preferred embodiment as shown in Figure 2, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment is respectively interval with three in both sides keeper 21 to the position of load section 114 that should back shaft part 10 and inspects fenestra 214, and does not restrain frameworks 22 in two and arrange and inspect fenestra 226.

In the 3rd preferred embodiment as shown in Figure 3, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment is provided with three in one of them contained framework 22 to the location interval of load section 114 that should back shaft part 10 and inspects fenestra 226.

In the 4th preferred embodiment as shown in Figure 4, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment is respectively interval with three in one of them side keeper 21 and one of them contained framework 22 to the position of load section 114 that should back shaft part 10 and inspects fenestra 214,226.

In the 5th preferred embodiment as shown in Figure 5, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment is provided with three in one of them side keeper 21 to the location interval of load section 114 that should back shaft part 10 and inspects fenestra 214.

In the 6th preferred embodiment as shown in Figure 6, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment is the position to load section 114 that should back shaft part 10 in two side keepers 21 and two contained frameworks 22, is all respectively interval with three and inspects fenestra 214,226.

In the 7th preferred embodiment as shown in Figure 7, the supporting component A of this embodiment is provided with one and is long slab sheet and is positioned at the coupling member 30 in centre position, and two are long slab sheet and lay respectively at the back shaft part 10 of these coupling member 30 relative two sides, wherein, this coupling member 30 is long slab material, two back shaft parts 10 are positioned at the both sides of this coupling member 30, and the both sides of each back shaft part 10 are equipped with a recessed edge 112 and form non-linear lateral margin, form accordingly one in order to bear the load section 114 of external force in these recessed edge 112 positions, the confinement structure 20 of the present embodiment comprises two groups of corresponding strong axial side keepers 21 that are arranged at recessed edge 112 positions of two back shaft parts 10 and are positioned at this back shaft part 10 respectively, and two contained framework 22 that is posted by respectively this supporting component A biside plate face, and allow two groups of side keepers 21, the two corresponding lateral margins of restraining framework 22 and this coupling member 30 fix with the combination of the engagement means such as welding or screw lock or rivet, allow this confinement structure 20 form and to enclose bundle form this supporting component A, two restrain the tabular hollow pipe fitting that framework 22 is square-section, its have an inner plate body 222 and that reclines this supporting component A be positioned at outside outer plate body 224, and in the position of the load section 114 of corresponding two back shaft parts 10, respectively be provided with at least one runs through, outer plate body 222, 224 and can intervisibility corresponding load section 114 inspect fenestra 226, in embodiment as shown in the figure, two contained frameworks 22 are respectively interval with three in the position of the load section 114 of corresponding two back shaft parts 10 and inspect fenestra 226, use and can be inspected easily by the outside of energy-dissipating bracing device the state of corresponding load section 114.

In the 8th preferred embodiment as shown in Figure 8, this embodiment is with the difference of the 7th good embodiment shown in Fig. 7: the present embodiment is respectively interval with three in the position of the load section 114 of the corresponding two back shaft parts 10 of each side keeper 21 and inspects fenestra 214, and does not restrain framework 22 settings in two and inspect fenestra 226.

In the 9th preferred embodiment as shown in Figure 9, this embodiment is with the difference of the 7th preferred embodiment shown in Fig. 7: the present embodiment, in the position of the load section 114 of one of them side keeper 21 and the corresponding two back shaft parts 10 of one of them contained framework 22, is respectively interval with three and inspects fenestra 214,226.

In the 10th preferred embodiment as shown in figure 10, this embodiment is with the difference of the 7th preferred embodiment shown in Fig. 7: the present embodiment, in the position of the load section 114 of one group of side keeper 21 and the corresponding two back shaft parts 10 of one of them contained framework 22 wherein, is respectively interval with three and inspects fenestra 214,226.

In the 11st preferred embodiment as shown in figure 11, this embodiment is with the difference of the 7th preferred embodiment shown in Fig. 7: the present embodiment, in the position of the load section 114 of each side keeper 21 and the corresponding two back shaft parts 10 of each contained framework 22, is all respectively interval with three and inspects fenestra 214,226.

In the 12nd preferred embodiment as shown in figure 12, shown in this embodiment and Figure 11, the difference of the 11st preferred embodiment is: the coupling member 30 of this embodiment is to be made up of two-layer sheet material, and the structure design of other parts is identical.

In the 13rd to the 18th preferred embodiment as shown in Figure 13 to Figure 18, shown in these embodiment and Fig. 1 to Fig. 2, Fig. 6 to Fig. 8 and Figure 12 the the 1st to the 2nd, the 6th to the 8th and the difference of the 12nd preferred embodiment be: the back shaft part 10 of these embodiment is to be respectively interval with accordingly two recessed edge 112 in both sides and to form two load sections 114, and coordinate each load section 114 and be respectively provided with accordingly one group with the side keeper 21 of corresponding recessed edge 112 concavo-convex couplings, the structure design of other parts is identical.

In the 19th preferred embodiment as shown in figure 19, shown in this embodiment and Fig. 6, the difference of the 6th preferred embodiment is: the connector 12 of the back shaft part 10 of this embodiment convexes with a pair of binding plate 122 and is crosswise, and being provided with multiple combined holes in each connector 12, the structure design of other parts is identical.

In the 20th preferred embodiment as shown in figure 20, shown in this embodiment and Figure 12, the difference of the 12nd preferred embodiment is: the connector 12 of the back shaft part 10 of this embodiment convexes with a binding plate 122 and is T word shape, and being provided with multiple combined holes in each connector 12, the structure design of other parts is identical.

In the 21st to the 23rd preferred embodiment as shown in Figure 21 to Figure 23, shown in these embodiment and Figure 13 to Figure 15, the 13rd is to the difference of the 15th preferred embodiment: the connector 12 of the back shaft part 10 of these embodiment convexes with a pair of binding plate 122 and is crosswise, and being provided with multiple combined holes in each connector 12, the structure design of other parts is identical.

In the 24th to the 26th preferred embodiment as shown in Figure 24 to Figure 26, shown in these embodiment and Figure 16 to Figure 18, the 16th is to the difference of the 18th preferred embodiment: the connector 12 of the back shaft part 10 of these embodiment convexes with a binding plate 122 and is T word shape, and being provided with multiple combined holes in each connector 12, the structure design of other parts is identical.

In the 27th to the 33rd preferred embodiment as shown in Figure 27 to Figure 33, shown in these embodiment and Figure 19 and Figure 21 to Figure 26, the 19th and the 21st is to the difference of the 26th preferred embodiment: the connector 12 of the back shaft part 10 of these embodiment is concaved with one in conjunction with recess 124 and is provided with multiple combined holes, and the structure design of other parts is identical.

The foregoing is only in preferred embodiment of the present utility model; only illustrative for the utility model; and it is nonrestrictive; in the spirit and scope that limit in the utility model claim; those skilled in the art can understand and the amendment carried out or equivalence change, and all will belong to claim protection domain of the present utility model.

Claims (27)

1. there is an energy-dissipating bracing device of inspecting fenestra, comprising:

One supporting component, it is provided with at least one back shaft part, this back shaft part is provided with an axial region and two that is long slab sheet and links respectively the connector of being located at these axial region two ends, and the both sides of this axial region are provided with more than one recessed edge and form accordingly more than one load section; And

One confinement structure, it is enclosed in this supporting component outside and forms contained supporting role, this confinement structure comprises that one group of above correspondence is located at the side keeper of each recessed edge position, and Er Fen Do is posted by this supporting component biside plate face and links fixing contained framework with corresponding each side keeper, the tabular hollow pipe fitting that each contained framework is square-section and have an inner plate body and that reclines this supporting component be positioned at outside outer plate body, it is characterized in that:

This confinement structure is in the position of the each back shaft part of correspondence, is respectively provided with accordingly the fenestra of inspecting that at least one can the corresponding back shaft part of intervisibility.

2. according to claim 1 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, each contained framework is in the respectively position of the section of load of correspondence, be respectively provided with at least one run through described inside and outside plate body described in inspect fenestra.

3. according to claim 2 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, wherein at least one side keeper is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

4. according to claim 2 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, each side keeper of a side is in the respectively position of the section of load of correspondence therein, is respectively provided with the fenestra of inspecting described at least one.

5. according to claim 2 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, at least one side keeper of the back shaft part both sides described in one of them is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

6. according to claim 1 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, wherein at least one contained framework is in the respectively position of the section of load of correspondence, be respectively provided with at least one run through described inside and outside plate body described in inspect fenestra.

7. according to claim 6 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, wherein at least one side keeper is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

8. according to claim 6 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, each side keeper of a side is in the respectively position of the section of load of correspondence therein, is respectively provided with the fenestra of inspecting described at least one.

9. according to claim 6 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, at least one side keeper of the back shaft part both sides described in one of them is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

10. according to claim 1 have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, wherein at least one side keeper is in the respectively position of the section of load of correspondence, is respectively provided with the fenestra of inspecting described at least one.

11. according to claim 1ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, each side keeper of a side is in the respectively position of the section of load of correspondence therein, are respectively provided with the fenestra of inspecting described at least one.

12. according to claim 1ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, at least one side keeper of the back shaft part both sides described in one of them is in the respectively position of the section of load of correspondence, are respectively provided with the fenestra of inspecting described at least one.

13. inspect the energy-dissipating bracing device of fenestra according to having described in any one in claim 1 to 9, it is characterized in that, described in being provided with, inspect the described contained framework of fenestra, in correspondence respectively load fragment position set described in inspect fenestra quantity be two or three.

14. inspect the energy-dissipating bracing device of fenestra according to having described in any one in claim 1 to 12, it is characterized in that, described in being provided with, inspect the described side keeper of fenestra, in correspondence respectively load fragment position set described in inspect fenestra quantity be two or three.

15. inspect the energy-dissipating bracing device of fenestra according to having described in any one in claim 1 to 12, it is characterized in that, described supporting component comprises the back shaft part described in.

16. according to claim 15ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each back shaft part is respectively arranged with accordingly the recessed edge described in both sides and forms the load section described in.

17. according to claim 15ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each back shaft part in both sides accordingly interval be respectively arranged with the recessed edge described in two and form the load section described in two.

18. according to claim 15ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each side keeper and each contained framework are that solder bond is fixed.

19. according to claim 15ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each side keeper and each contained framework are in conjunction with fixing with multiple bolts or rivet.

20. according to claim 15ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, the connector of described back shaft part is made as tabular or has the crosswise of binding plate or have the T word shape of binding plate or have the tabular in conjunction with recess.

21. inspect the energy-dissipating bracing device of fenestra according to having described in any one in claim 1 to 12, it is characterized in that, described supporting component comprises that a coupling member and two that is long slab sheet and is positioned at centre position lays respectively at the described back shaft part of these relative two sides of coupling member.

22. according to claim 21ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each back shaft part is respectively arranged with accordingly the recessed edge described in both sides and forms the load section described in.

23. according to claim 21ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each back shaft part in both sides accordingly interval be respectively arranged with the recessed edge described in two and form the load section described in two.

24. according to claim 21ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each side keeper and each contained framework are that solder bond is fixed.

25. according to claim 21ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described each side keeper and each contained framework are in conjunction with fixing with multiple bolts or rivet.

26. according to claim 21ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, the connector of described back shaft part is made as tabular or has the crosswise of binding plate or have the T word shape of binding plate or have the tabular in conjunction with recess.

27. according to claim 21ly have an energy-dissipating bracing device of inspecting fenestra, it is characterized in that, described coupling member is to be made up of two-layer sheet material.