CN104947821A - Restrained bracing device with inspection window holes - Google Patents

Abstract

The invention discloses a restrained bracing device with inspection window holes. The restrained bracing device comprises a bracing assembly and an enclosing component surrounding the bracing assembly to form restrained supporting. The bracing assembly is provided with at least one bracing shaft piece. The two sides of each bracing shaft piece are provided with one or more concave flanges to form one or more load segments. The enclosing assembly comprises one or more sets of side positioning pieces corresponding to all the concave flanges and two restraining frame pieces abutting against the bracing assembly and fixedly connected with all the side positioning pieces respectively. All the restraining frame pieces are flat frame rods with the H-shaped section. At least one inspection window hole capable of inspecting the corresponding bracing shaft pieces and capable of being in any shape is correspondingly formed in the positions, corresponding to all the bracing shaft pieces, of the enclosing component. Inspection personnel can inspect the states of the bracing shaft pieces through the inspection window holes, and the structural safety of buildings is guaranteed.

Description

There is the bundle bracing or strutting arrangement inspecting fenestra

Technical field

The present invention relates to a kind of strengthening bracing or strutting arrangement applying to building and various civil engineering, particularly relate to and a kind of there is the bundle bracing or strutting arrangement inspecting fenestra.

Background technology

For strengthening fracture toughness and the support strength of building and various civil engineering, general meeting arranges the bundle bracing or strutting arrangement forming skewed horizontal load between the crossbeam and column of building, uses the usefulness such as axial toughness, strengthening structure and the elimination vibration energy providing suitable.For this problem, the previous development and Design successively of applicant goes out as No. M321445, TW certificate number number, No. M345092, TW certificate number number, the bundle bracing or strutting arrangements disclosed in Patent Case such as No. M345836, TW certificate number number and No. M3891426, TW certificate number number, bundle bracing or strutting arrangement disclosed in these Patent Cases mainly comprises the support shaft member that is positioned at shaft core position, more than one group is arranged at the strong direction of principal axis that supports shaft member axle portion and forms the side keeper of support, and one can surround the confinement structure supporting shaft member axle portion, allow the axle portion supporting shaft member obtain by side keeper and confinement structure support and restrain effect, using generation when preventing support shaft member from acting in being stressed frustrates in the wrong.

The bundle bracing or strutting arrangement of the various types that applicant had previously proposed, the difference that can meet various building supports demand, when building is out of shape by seismic forces or high wind effect, the lateral force that bundle bracing or strutting arrangement processed can be utilized 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, confinement structure due to existing bundle bracing or strutting arrangement processed is the comprehensive load section being coated with contained support shaft member, unless confinement structure is removed, otherwise whether reviewer cannot check the load section supporting shaft member to be damaged, become great restriction during bundle support device structure safety verification processed, particularly because the high and constructional difficulties of the cost of confinement structure dismounting again, the inspection whether the support shaft member that reviewer often can only skip halved tie bracing or strutting arrangement is damaged or is out of shape, form the secret worry in fabric structure safety.

Summary of the invention

The deficiency and restriction that are difficult to inspect the carrying out of support shaft member is there is for solving existing bundle bracing or strutting arrangement processed, main purpose of the present invention is that proposition is a kind of and has the bundle bracing or strutting arrangement inspecting fenestra, its mainly confinement structure correspond to support that the position of shaft member offers that at least one can be any shape inspect fenestra, allow reviewer can support the state of shaft member by inspecting fenestra to inspect, solve existing bundle bracing or strutting arrangement processed and cannot inspect the deficiency and restriction that support shaft member state, guarantee the structural safety of building.

The object of the invention is to adopt following technical scheme to realize.

What propose according to the present invention has the bundle bracing or strutting arrangement inspecting fenestra, comprising:

One supporting component, it is provided with at least one and supports shaft member, this support shaft member is provided with one to be connected at these two ends, axle portion respectively connector in the axle portion and two of long slab sheet, and the both sides in this axle portion are provided with more than one recessed edge and form more than one load section accordingly; And

One confinement structure, it is enclosed in this supporting component outside and forms contained supporting role, this confinement structure comprises more than the one group corresponding side keeper being located at each recessed edge position, and two are posted by this supporting component biside plate face and the contained framework be connected and fixed with corresponding each side keeper respectively, each contained framework is the tabular frame bar of I-shaped cross-section and has an inner plate body reclining this supporting component, the one outer plate body and being positioned at outside is positioned at centre position and integrally connects this, the connector of outer plate body, this confinement structure respectively supports the position of shaft member in correspondence, respectively be provided with accordingly at least one can the corresponding support shaft member of intervisibility inspect fenestra.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein each contained framework is in the position of each load section of correspondence, is respectively provided with at least one runs through described inner plate body or run through described in described inside and outside plate body simultaneously and inspect fenestra at least side of described connector.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein at least one side keeper is in the position of each load section of correspondence, is respectively provided with to inspect fenestra described at least one.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and each side keeper of side is in the position of each load section of correspondence wherein, is respectively provided with to inspect fenestra described at least one.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and at least one side keeper of the support shaft member both sides described in one of them, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

Described has the bundle bracing or strutting arrangement inspecting fenestra, one of them contained framework, in the position of each load section of correspondence, is respectively provided with at least one and runs through described inner plate body or run through described in described inside and outside plate body simultaneously and inspect fenestra at least side of described connector.

Described has the bundle bracing or strutting arrangement inspecting fenestra, inspects the described contained framework of fenestra described in being wherein provided with, in each load fragment position of correspondence with a row or side by side form be respectively interval with and inspect fenestra described in two or three.

Described has the bundle bracing or strutting arrangement inspecting fenestra, inspects the described side keeper of fenestra described in being wherein provided with, and is interval with inspects fenestra described in two or three in each load fragment position of correspondence.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein said supporting component comprises the support shaft member described at least one.

Described has the bundle bracing or strutting arrangement inspecting fenestra, the recessed edge of wherein said each support shaft member in both sides accordingly described in each recessed one and the load section formed described in.

Described has the bundle bracing or strutting arrangement inspecting fenestra, the recessed edge of wherein said each support shaft member in both sides accordingly described in each recessed two of interval and the load section formed described in two.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein said each side keeper and each contained framework are that solder bond is fixed.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein said each side keeper and each contained framework combine fixing with multiple bolt or rivet.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and the connector of wherein said support shaft member is set to tabular or has the crosswise of binding plate or the T-shaped with binding plate or the tabular had in conjunction with recess.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein said supporting component comprises one in long slab sheet and the connecting elements and two being positioned at centre position lays respectively at the described support shaft member of this connecting elements relative to two sides.

Described has the bundle bracing or strutting arrangement inspecting fenestra, and wherein said connecting elements is made up of two-layer sheet material.

The beneficial effect that technical scheme proposed by the invention can obtain is, the present invention in the confinement structure of bundle bracing or strutting arrangement processed be provided with can be any shape inspect fenestra, allow reviewer can by bundle bracing or strutting arrangement processed outside, direct intervisibility is to support shaft member, effectively with the structure of simplifying and cheap cost, reach the state allowing reviewer check easily to detect and support shaft member, guarantee the structural safety of building further, dark tool industry utilization benefit.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Accompanying drawing explanation

Fig. 1 to Figure 37 is the composition component decomposition map of the present invention the 1st to the 37th preferred embodiment.

Wherein, Reference numeral:

A supporting component

10 support shaft member 11 axle portion

112 recessed edge 114 load sections

12 connectors 124 are in conjunction with recess

122 binding plates

20 confinement structure 21 side keepers

212 flanges 214 inspect fenestra

22 restrain framework 222 inner plate body

224 outer plate body 226 connectors

228 inspect fenestra 23 bolt

30 connecting elementss

Detailed description of the invention

Below in conjunction with accompanying drawing, structural principle of the present invention and operating principle are described in detail:

The present invention is the bundle bracing or strutting arrangement that a kind of installation applies to the structural framing of building or bridge, as shown in each graphic embodiment disclosed, the present invention includes a supporting component A and, to be enclosed in this supporting component A outside and form the confinement structure 20 restraining supporting role, wherein, this supporting component A comprises at least one support shaft member 10 in strip form, this support shaft member 10 is provided with the connector 12 that an axle portion 11 and two in long slab sheet is connected at these two ends, axle portion 11 respectively, this axle portion 11 is provided with more than one recessed edge 112 and forms non-linear lateral margin, and form more than one load section 114 accordingly in the position of this more than one recessed edge 112, this confinement structure 20 comprise more than one group corresponding be arranged at each support shaft member 10 each recessed edge 112 position and form the side keeper 21 of support, and two are posted by this supporting component A biside plate face and the contained framework 22 be connected and fixed with corresponding each side keeper 21 respectively, this contained framework 22 is the tabular frame bar of I-shaped cross-section, it has an inner plate body 222 reclining this supporting component A, the one outer plate body 224 and being positioned at outside is positioned at centre position and integrally connects this, outer plate body 222, the connector 226 of 224, this confinement structure 20 respectively supports the position of shaft member 10 in correspondence, respectively be provided with accordingly at least one can intervisibility corresponding support shaft member 10 and can be any shape inspect fenestra 214, 228, use to reach and get final product by the outside of bundle bracing or strutting arrangement processed the state that Direct Test detects each support shaft member 10, group formation is a kind of has the bundle bracing or strutting arrangement inspecting fenestra.

In the 1st preferred embodiment shown in Fig. 1, this bundle bracing or strutting arrangement comprises a supporting component A and and is enclosed in this supporting component A outside and forms the confinement structure 20 restraining supporting role, the supporting component A of the present embodiment is the support shaft member 10 without exception in long slab sheet, and this support shaft member 10 has one and is positioned at axial position and axle portion in long slab sheet 11 and two is integrally connected to the connector 12 at these two ends, axle portion 11 respectively; Wherein, this axle portion 11 is the more than one recessed edge 112 of recessed formation accordingly in both sides, one is respectively formed accordingly in order to bear the load section 114 of external force in the position of each recessed edge 112, in the embodiment shown in fig. 1, in both sides each recessed recessed edge 112 and a formation load section 114 accordingly in this axle portion 11 of this support shaft member 10; This connector 12 is provided with the tabular of multiple combined hole for plate EDS maps, use allow this support shaft member 10 can be fixed on corresponding crossbeam or column by bolt or the fixed component such as rivet or welding position is set.

Coated the enclosing of this confinement structure 20 is restrainted in outside, the axle portion 11 of this support shaft member 10, and comprise more than one group corresponding be arranged at this support shaft member 10 each recessed edge 112 position and be positioned at the strong axial side keeper 21 of this support shaft member 10, and two are posted by this support shaft member 10 biside plate face and the contained framework 22 affixed with each side keeper 21 respectively; Wherein, both sides keeper 21 coordinates the recessed edge 112 set by this axle center component 10, the each projection of opposite position in both sides keeper 21 forms a flange 212 matched, allow between axle center component 10 and the non-linear lateral margin of both sides keeper 21 and form concavo-convex matched form, and be installed with a gap between the recessed edge 112 and the flange 212 of both sides keeper 21 of this axle center component 10; Preferably, this axle center component 10 can utilize cutting implement longitudinally to cut the three-chip type component formed 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 utilize machining machine and tool further, the thickness of axle center component 10 is processed into the thickness that thickness is slightly less than both sides keeper 21.

Aforesaid two restrain the tabular frame bar that framework 22 is I-shaped cross-section, its have an inner plate body 222, reclining this supporting component A be positioned at outside outer plate body 224 and be positioned at centre position and integrally connect the connector 226 of this inside and outside plate body 222,224, and allow two both side edges of restraining the inner plate body 222 of framework 22 be fixedly connected with corresponding side keeper 21 in modes such as welding, screw lock or riveted joints, allow this confinement structure 20 be formed this support shaft member 10 and enclose bundle form, both sides keeper 21 in should the position of load section 114 of back shaft part 10, be respectively interval with at least one run through side keeper 21 and can the corresponding load section 114 of intervisibility inspect fenestra 214, two restrain frameworks 22 in should the position of load section 114 of back shaft part 10, respectively be provided with at least one runs through inner plate body 222 or run through simultaneously, outer plate body 222, 224 and can the corresponding load section 114 of intervisibility inspect fenestra 228, in the embodiment shown in figure, two side keepers 21 are in should the position of load section 114 of back shaft part 10, respectively be interval with three and inspect fenestra 214, and two contained frameworks 22 this inner plate body 222 in these connector 226 both sides is to should the position of load section 114 of back shaft part 10, respectively be interval with three with form side by side and inspect fenestra 228.

In the 2nd preferred embodiment shown in Fig. 2, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment only at two inner plate bodies 222 restraining frameworks 22 to should the position of load section 114 of back shaft part 10, respectively be interval with three with form side by side and inspect fenestra 228, and do not arrange in both sides keeper 21 and inspect fenestra 214.

In the 3rd preferred embodiment shown in Fig. 3, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment at both sides keeper 21 to should the position of load section 114 of back shaft part 10, respectively be interval with three and inspect fenestra 214, and do not inspect fenestra 228 in two contained frameworks 22 settings.

In the 4th preferred embodiment shown in Fig. 4, shown in this embodiment with Fig. 3, the difference of the 3rd preferred embodiment is: the present embodiment is interval with multiple perforation accordingly at both sides keeper 21 and two marginal positions restraining framework 22, and utilize multiple bolt 23 pass each perforation of aligning mutually respectively and locked with nut, allow the both sides keeper 21 of this confinement structure 20 and two restrain frameworks 22 by multiple bolt 23 install combine fixing.

In the 5th preferred embodiment shown in Fig. 5, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment in one of them side keeper 21 to should the position of load section 114 of back shaft part 10, be interval with three and inspect fenestra 214, and in two inner plate bodies 222 restraining frameworks 22 to should the position of load section 114 of back shaft part 10, be respectively interval with three with form side by side and inspect fenestra 228.

In the 6th preferred embodiment shown in Fig. 6, shown in this embodiment and Fig. 1, the difference of the 1st preferred embodiment is: the present embodiment only in one of them side keeper 21 to the location interval of load section 114 of back shaft part 10 should being provided with three and inspecting fenestra 214.

In the 7th preferred embodiment shown in Fig. 7, shown in this embodiment with Fig. 6, the difference of the 6th preferred embodiment is: the present embodiment is interval with multiple perforation accordingly at both sides keeper 21 and two marginal positions restraining framework 22, and utilize multiple bolt 23 pass each perforation of aligning mutually respectively and locked with nut, allow the both sides keeper 21 of this confinement structure 20 and two restrain frameworks 22 by multiple bolt 23 install combine fixing.

In the 8th preferred embodiment shown in Fig. 8, the supporting component A of this embodiment is provided with one and is long slab sheet and is positioned at the connecting elements 30 in centre position, and two are long slab sheet and lay respectively at the support shaft member 10 of the relative two sides of this connecting elements 30; Wherein, this connecting elements 30 is long slab material, and each both sides supporting shaft member 10 are equipped with a recessed edge 112 and form non-linear lateral margin, form one accordingly in order to bear the load section 114 of external force in this recessed edge 112 position; The confinement structure 20 of the present embodiment comprise two groups respectively corresponding be arranged at two support shaft member 10 recessed edge 112 position and be positioned at the strong axial side keeper 21 of this support shaft member 10, and the contained framework 22 that two are posted by this supporting component A biside plate face respectively, and the corresponding lateral margin allowing two groups of side keepers 21, two restrain framework 22 and this connecting elements 30 combines with engagement means such as welding, screw lock or riveted joints fixing, allow this confinement structure 20 be formed this supporting component A and enclose bundle form; Each side keeper 21 supports the position of load section 114 of shaft member 10 in correspondence, be respectively interval with three run through side keeper 21 and can the corresponding load section 114 of intervisibility inspect fenestra 214; Two restrain the tabular frame bar that framework 22 is I-shaped cross-section, its have an inner plate body 222, reclining this supporting component A be positioned at outside outer plate body 224 and be positioned at centre position and integrally connect the connector 226 of this inside and outside plate body 222,224, and this inner plate body 222 correspondence in these connector 226 both sides supports the position of the load section 114 of shaft member 10, be respectively interval with three with form side by side and inspect fenestra 228.

In the 9th preferred embodiment shown in Fig. 9, shown in this embodiment with Fig. 8, the difference of the 8th good embodiment is: two of the present embodiment restrains the position of the load section 114 of framework 22 this inner plate body 222 in these connector 226 both sides corresponding support shaft member 10, respectively be interval with three with form side by side and inspect fenestra 228, and do not arrange in each side keeper 21 and inspect fenestra 214.

In the 10th preferred embodiment shown in Figure 10, shown in this embodiment with Fig. 8, the difference of the 8th good embodiment is: the present embodiment is respectively interval with three in the position that each side keeper 21 corresponding two supports the load section 114 of shaft member 10 and inspects fenestra 214, and does not inspect fenestra 228 in two contained frameworks 22 settings.

In the 11st preferred embodiment shown in Figure 11, shown in this embodiment with Figure 10, the difference of the 10th preferred embodiment is: the present embodiment is interval with multiple perforation accordingly at this connecting elements 30, both sides keeper 21 and two marginal positions restraining framework 22, and utilize multiple bolt 23 pass each perforation of aligning mutually respectively and locked with nut, allow this connecting elements 30, both sides keeper 21 and two restrain frameworks 22 by multiple bolt 23 install combine fixing.

In the 12nd preferred embodiment shown in Figure 12, shown in this embodiment with Fig. 8, the difference of the 8th preferred embodiment is: the present embodiment is in the position of the wherein load section 114 of one group of side keeper 21 corresponding support shaft member 10, respectively be interval with three and inspect fenestra 214, and the position of the load section 114 of shaft member 10 is supported in one of them contained framework 22 correspondence, be respectively interval with three with form side by side and inspect fenestra 228.

In the 13rd preferred embodiment shown in Figure 13, shown in this embodiment with Fig. 8, the difference of the 8th preferred embodiment is: the position of the load section 114 of two the side keepers 21 of the present embodiment in wherein side corresponding support shaft member 10, respectively be interval with three and inspect fenestra 214, and do not inspect fenestra 228 in two contained frameworks 22 settings.

In the 14th preferred embodiment shown in Figure 14, shown in this embodiment with Figure 13, the difference of the 13rd preferred embodiment is: the present embodiment is interval with multiple perforation accordingly at this connecting elements 30, both sides keeper 21 and two marginal positions restraining framework 22, and utilize multiple bolt 23 pass each perforation of aligning mutually respectively and locked with nut, allow this connecting elements 30, both sides keeper 21 and two restrain frameworks 22 by multiple bolt 23 install combine fixing.

In the 15th preferred embodiment shown in Figure 15, shown in this embodiment and Fig. 8, the difference of the 8th preferred embodiment is: the connecting elements 30 of this embodiment is made up of two-layer sheet material, and the structure design of other parts is then identical.

In shown in Figure 16 to Figure 18 the 16th to the 18th preferred embodiment, shown in these embodiment and Fig. 1 to Fig. 3, the difference of the 1st to the 3rd preferred embodiment is: the support shaft member 10 of these embodiments in both sides accordingly interval be respectively provided with two recessed edge 112 and 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 the concavo-convex coupling of corresponding recessed edge 112, the structure design of other parts is then identical.

In the 19th preferred embodiment shown in Figure 19, shown in this embodiment with Figure 15, the difference of the 15th preferred embodiment is: the support shaft member 10 of this embodiment is respectively interval with two recessed edge 112 accordingly and forms two load sections 114 in both sides, and coordinate each load section 114 and be respectively provided with accordingly one group with the side keeper 21 of the concavo-convex coupling of corresponding recessed edge 112, the structure design of other parts is then identical.

In shown in Figure 20 to Figure 21 the 20th to the 21st preferred embodiment, these embodiments are with the difference of the 9th to the 10th preferred embodiment shown in Fig. 9 to Figure 10: the support shaft member 10 of these embodiments is respectively interval with two recessed edge 112 accordingly in both sides and forms two load sections 114, and coordinate each load section 114 and be respectively provided with accordingly one group with the side keeper 21 of the concavo-convex coupling of corresponding recessed edge 112, the structure design of other parts is then identical.

In the 22nd preferred embodiment shown in Figure 22, shown in this embodiment with Fig. 1, the difference of the 1st preferred embodiment is: the connector 12 of the support shaft member 10 of this embodiment is arranged with one in conjunction with recess 124 and is provided with multiple combined hole, and the structure design of other parts is then identical.

In shown in Figure 23 to Figure 29 the 23rd to the 29th preferred embodiment, these embodiments are with the difference of the 15th to the 21st preferred embodiment shown in Figure 15 to Figure 21: the connector 12 of the support shaft member 10 of these embodiments is arranged with one in conjunction with recess 124 and is provided with multiple combined hole, and the structure design of other parts is then identical.

In shown in Figure 30 to Figure 34 the 30th to the 34th preferred embodiment, shown in these embodiment and Figure 22 to Figure 26, the difference of the 22nd to the 26th preferred embodiment is: the connector 12 of the support shaft member 10 of these embodiments is convexly equipped with a pair binding plate 122 and is crosswise, and being provided with multiple combined hole in each connector 12, the structure design of other parts is then identical.

In shown in Figure 35 to Figure 37 the 35th to the 37th preferred embodiment, shown in these embodiment and Figure 27 to Figure 29, the difference of the 27th to the 29th preferred embodiment is: the connector 12 of the support shaft member 10 of these embodiments is convexly equipped with a binding plate 122 and is T-shaped, and being provided with multiple combined hole in each connector 12, the structure design of other parts is then identical.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the present invention.

Claims (27)

1. there is the bundle bracing or strutting arrangement inspecting fenestra, comprising:

One supporting component, it is provided with at least one and supports shaft member, this support shaft member is provided with one to be connected at these two ends, axle portion respectively connector in the axle portion and two of long slab sheet, and the both sides in this axle portion are provided with more than one recessed edge and form more than one load section accordingly; And

One confinement structure, it is enclosed in this supporting component outside and forms contained supporting role, this confinement structure comprises more than the one group corresponding side keeper being located at each recessed edge position, and two are posted by this supporting component biside plate face and the contained framework be connected and fixed with corresponding each side keeper respectively, each contained framework be I-shaped cross-section tabular frame bar and have an inner plate body, reclining this supporting component be positioned at outside outer plate body and be positioned at centre position and integrally connect the connector of this inside and outside plate body, it is characterized in that

This confinement structure respectively supports the position of shaft member in correspondence, be respectively provided with accordingly at least one can the corresponding support shaft member of intervisibility inspect fenestra.

2. according to claim 1 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, each contained framework, in the position of each load section of correspondence, is respectively provided with at least one and runs through described inner plate body or run through described in described inside and outside plate body simultaneously and inspect fenestra at least side of described connector.

3. according to claim 2 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one side keeper, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

4. according to claim 2 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, each side keeper of side, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

5. according to claim 2 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one side keeper of the support shaft member both sides described in, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

6. according to claim 1 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one contained framework, in the position of each load section of correspondence, is respectively provided with at least one and runs through described inner plate body or run through described in described inside and outside plate body simultaneously and inspect fenestra at least side of described connector.

7. according to claim 6 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one side keeper, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

8. according to claim 6 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, each side keeper of side, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

9. according to claim 6 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one side keeper of the support shaft member both sides described in, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

10. according to claim 1 have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one side keeper, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

11. according to claim 1ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, each side keeper of side, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

12. according to claim 1ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, at least one side keeper of the support shaft member both sides described in, in the position of each load section of correspondence, is respectively provided with and inspects fenestra described at least one.

13. as claimed in any of claims 1 to 9ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, inspect the described contained framework of fenestra described in being provided with, in each load fragment position of correspondence with a row or side by side form be respectively interval with and inspect fenestra described in two or three.

14. inspect the bundle bracing or strutting arrangement of fenestra according to having in claim 1 to 12 described in any one, it is characterized in that, inspect the described side keeper of fenestra described in being provided with, and be interval with inspect fenestra described in two or three in each load fragment position of correspondence.

15. inspect the bundle bracing or strutting arrangement of fenestra according to having in claim 1 to 12 described in any one, it is characterized in that, described supporting component comprises the support shaft member described at least one.

16. according to claim 15ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, the recessed edge of described each support shaft member in both sides accordingly described in each recessed one and the load section formed described in.

17. according to claim 15ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, the recessed edge of described each support shaft member in both sides accordingly described in each recessed two of interval and the load section formed described in two.

18. according to claim 15ly have the bundle bracing or strutting arrangement inspecting fenestra, and 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 the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, described each side keeper and each contained framework combine fixing with multiple bolt or rivet.

20. according to claim 15ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, the connector of described support shaft member is set to tabular or has the crosswise of binding plate or the T-shaped with binding plate or the tabular had in conjunction with recess.

21. inspect the bundle bracing or strutting arrangement of fenestra according to having in claim 1 to 12 described in any one, it is characterized in that, described supporting component comprises one in long slab sheet and the connecting elements and two being positioned at centre position lays respectively at the described support shaft member of this connecting elements relative to two sides.

22. according to claim 21ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, the recessed edge of described each support shaft member in both sides accordingly described in each recessed one and the load section formed described in.

23. according to claim 21ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, the recessed edge of described each support shaft member in both sides accordingly described in each recessed two of interval and the load section formed described in two.

24. according to claim 21ly have the bundle bracing or strutting arrangement inspecting fenestra, and 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 the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, described each side keeper and each contained framework combine fixing with multiple bolt or rivet.

26. according to claim 21ly have the bundle bracing or strutting arrangement inspecting fenestra, it is characterized in that, the connector of described support shaft member is set to tabular or has the crosswise of binding plate or the T-shaped with binding plate or the tabular had in conjunction with recess.

27. according to claim 21ly have the bundle bracing or strutting arrangement inspecting fenestra, and it is characterized in that, described connecting elements is made up of two-layer sheet material.