CN101666126B - Energy-dissipating bracing device - Google Patents

Abstract

The invention discloses an energy-dissipating bracing device, which comprises a supporting assembly and a group of confined components of which the side edges are fixedly combined with the supporting assembly so as to form a confinement form for the supporting assembly, wherein the supporting assembly comprises more than one plate body which are arranged in parallel with the supporting assembly and more than one connection reinforced body which are vertically connected to the plate body. By using the reinforced support action generated by the connection reinforced body, the energy-dissipating bracing device can strengthen the confinement support effect of the confined components and improve the buckling-restrained bracing efficiency of the energy-dissipating bracing device.

Description

Energy-dissipating bracing device

Technical field

The present invention is a kind of reinforcement bracing device that applies to building and various civil engineerings, refers to a kind of energy-dissipating bracing device that can improve bundle inclined strut usefulness especially.

Background technology

In order to strengthen the structure toughness and the support strength of building and various civil engineerings, tend between the crossbeam of building and column, be provided with the energy-dissipating bracing device that forms oblique support, use the usefulness such as axial toughness, strengthening structure and elimination vibration energy that provide suitable, at this problem, the previous development and Design of applicant goes out the energy-dissipating bracing device shown in TaiWan, China letters patent book number M256407 number " but support structure material of energy dissipating " and I245828 number patent cases such as " energy-dissipating bracing devices " of TaiWan, China letters patent book number.

In M256407 patent case and I245828 patent case, be to utilize one group of individual layer sheet material or flat frame material to coat the axle center member and form and enclose the bundle structure in the upper and lower side of supporting component.It is still appropriate inadequately that yet the bundle system that simple individual layer sheet material or flat frame material can provide adds competent structure, is not enough to allow the axle center member of energy-dissipating bracing device obtain enough bundle branch support effects of enclosing, and directly influences energy-dissipating bracing device in the effect of implementing in the utilization.

Summary of the invention

For solve existing energy-dissipating bracing device relevant for enclosing existing problem and the restriction of enclosing bundle branch support effect deficiency of bundle structure, inventor's development and Design go out a kind of have strengthen the energy-dissipating bracing device that encloses Shu Xiaoguo.The present invention is the connection intensive aspect more than the plate body of the confinement structure of energy-dissipating bracing device is provided with together, utilize and connect the structural strength that intensive aspect comes the reinforcement confinement structure, use to improve and enclose the bundle structure and enclosed bundle branch support effect, effectively improve the bundle inclined strut usefulness of energy-dissipating bracing device supporting component produces.

The technological means that the present invention used is to be to provide a kind of energy-dissipating bracing device, comprising:

One supporting component, be to be provided with axle center member elongated more than, each axle center member is to be provided with one to support axial region and two connectors that are linked to these support axial region two ends respectively, this support axial region is to be provided with one group of above symmetrical side, is provided with the non-linear lateral margin of the recessed edge of a tool in each symmetrical side; And

Two confinement structures, be to set firmly on the relative contact that is incorporated into this supporting component with lateral margin respectively and this axle center member formed enclose the bundle form, each confinement structure is two inner plate body, outer plate bodys that are provided with at interval that include the symmetrical side that is parallel to this support axial region, and two connection intensive aspects that are close to the medial margin one bending of midline position by each inner plate body respectively and are linked to this outer plate body with vertical topography.

Aforesaid energy-dissipating bracing device, wherein said outer plate body binding is provided with a build-in material, and this build-in material is set fixedly connected between corresponding two described connection intensive aspects.

Aforesaid energy-dissipating bracing device, supporting component wherein is the side keeper that comprises an axle center member and be located at the symmetrical side of this axle center member more than two respectively, this axle center member respectively is arranged with in symmetrical side and is formed with more than one recessed edge, and each side keeper is to cooperate pairing recessed edge and be convexly equipped with in relative position and form a flange.

Energy-dissipating bracing device provided by the present invention, confinement structure is designed to possess the reinforcement supporting form that connects intensive aspect, can strengthen the structural strength of confinement structure, and the bundle branch that encloses that supporting component produced is supportted effect, effectively improve the bundle inclined strut usefulness of energy-dissipating bracing device.

Fig. 1 is the perspective exploded view of the present invention's the 1st preferred embodiment.

Fig. 2 is the combining structure schematic diagram of the present invention's the 1st preferred embodiment.

Fig. 3 to Fig. 6 is the structural representation of the present invention's the 2nd to the 5th set supporting component of preferred embodiment.

Fig. 7 to Figure 29 is the stereochemical structure configuration schematic diagram of the present invention's the 6th to the 28th preferred embodiment.

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Description of drawings

The A-supporting component

10-axle center member 11-supports axial region

The recessed edge 12--of 112--connector

The 122--combined hole

20--side keeper 21--flange

30--confinement structure 31--inner plate body

The outer plate body 33--of 32--connects intensive aspect

34--build-in material 35--plate body

The 40--coupling member

The specific embodiment

Being can detail knowledge technical characterictic of the present invention and practical effect, and can implement according to the content of manual, further with as the preferred embodiment shown in graphic, describes in detail as the back now:

The present invention can install the crossbeam of civil engineerings such as applying to building or bridge and the energy-dissipating bracing device between the column for a kind of, category for the invention process utilization is not done specific restriction, shown in each accompanying drawing, the present invention includes a supporting component A and one group to set firmly with lateral margin and this supporting component A and combine and this supporting component A formed the confinement structure 30 that encloses the bundle form; Wherein, this confinement structure 30 is to comprise being parallel to the plate body that this supporting component A is provided with more than one, and the above together connection intensive aspect 33 that is linked to this plate body with vertical topography, the reinforcement supporting role that utilizes this connection intensive aspect 33 to be produced, the bundle branch that encloses of strengthening confinement structure 30 supports effect, improves the bundle inclined strut usefulness of energy-dissipating bracing device.

See also the preferred embodiment shown in Fig. 1,2, the supporting component A of this embodiment includes an axle center member 10 that is the long shaped plate sheet, and two side keepers 20 of being located at the long shaped plate sheet of these axle center member 10 both sides respectively, and be provided with two confinement structures 30 that lay respectively at upper and lower side and combine with both sides keeper 20; Wherein:

This axle center member 10 and both sides keeper 20 can utilize cutting implement vertically to cut formed three-chip type member in two side positions by same microscler sheet material, 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 the thickness that thickness is slightly less than side keeper 20; This axle center member 10 forms one in the axial position in stage casing and supports axial region 11, respectively is arranged with formation in the both sides of this supports axial region 11 and is trapezoidal recessed edge 112 without exception, allows the non-linear lateral margin of recessed edge 112 forms of both sides formation tool of axle center member 10; Respectively form a connector 12 in the two ends of axle center member 10, be distributed with combined hole 122, use axle center member 10 can be locked be loaded on the corresponding position of corresponding crossbeam or column in this connector 12;

The length of this both sides keeper 20 is slightly short than axle center member 10, and cooperate the set recessed edge 112 of axle center member 10, respectively be convexly equipped with formation in the opposite position of both sides keeper 20 and be trapezoidal flange 21 without exception, allow and form concavo-convex matched form between the non-linear lateral margin of axle center member 10 and both sides keeper 20, and between the flange 21 of the recessed edge 112 of axle center member 10 and side keeper 20, stay the gap of establishing the suitable distance of a tool;

This two confinement structure 30 is to comprise the connection intensive aspect 33 that an inner plate body 31, one outer plate body 32 and is linked to inside and outside plate body 31,32 midline positions, allows this confinement structure 30 form the cross section and is I-shaped reinforcement support structure; The lateral margin of this inner plate body 31 is fixedly connected with the corresponding side of corresponding side keeper 20 in modes such as welding or screw locks, allows 30 pairs of axle center members of confinement structure 10 form and encloses the bundle form;

So, utilize the assembling of aforesaid axle center member 10, both sides keeper 20 and two confinement structures 30 to link, group constitutes energy-dissipating bracing device as shown in Figure 2.

Supporting component A as shown in Figure 3 be utilize cutting implement each cut-space of microscler sheet material both sides form one be positioned in the middle of axial location and both sides respectively be provided with the axle center member 10 of two recessed edge 112 and four side keepers 20 that lay respectively at these axle center member 10 both sides and be set in distance.

Supporting component A as shown in Figure 4 utilizes cutting implement to begin in the approaching wherein both sides of an end of microscler sheet material, each cutting forms together towards central curved arc and extends behind the segment distance towards the axially extended cut channel of an other end, the axle center member 10 of axial location in the middle of formation one is positioned at, and two side keepers 20 that lay respectively at these axle center member 10 both sides.

Supporting component A as shown in Figure 5 utilizes cutting implement to begin on the both sides in the centre position of microscler sheet material both sides, each cutting forms together towards central curved arc and extends behind the segment distance the axially extended cut channel towards two ends respectively, the axle center member 10 of axial location in the middle of formation one is positioned at, and four side keepers 20 that lay respectively at these axle center member 10 both sides and be set in distance.

Supporting component A as shown in Figure 6 utilizes cutting implement to begin in the position of microscler sheet material both sides near two ends, each cutting forms together towards central curved arc and extends behind the segment distance respectively towards the axially extended cut channel in sheet material middle part, the axle center member 10 of axial location in the middle of formation one is positioned at, and four side keepers 20 that lay respectively at these axle center member 10 both sides and be set in distance.

See also preferred embodiment shown in Figure 7, this embodiment and difference embodiment illustrated in fig. 1 are the structural forms that is confinement structure 30, this confinement structure 30 is to comprise two inner plate body 31, one outer plate bodys 32 that are provided with at interval, and two connection intensive aspects 33 that are linked to outer plate body 32 respectively by the medial margin one bending of inner plate body 31 contiguous midline positions, allow confinement structure 30 form and possess the reinforcement support structure that twice connect intensive aspect 33.

See also preferred embodiment shown in Figure 8, this embodiment and difference embodiment illustrated in fig. 1 are the structural forms that is confinement structure 30, this confinement structure 30 is to comprise the outer plate body of two inner plate bodies that are provided with at interval 31, one 32, two connection intensive aspects 33 that the medial margin one bending that is close to midline positions by inner plate body 31 respectively forms, and one be incorporated into this outer plate body 32 and set fixedly connectedly in the two build-in materials 34 that connect between the intensive aspects 33, allows confinement structure 30 form and possess the reinforcement support structure that twice connect intensive aspect 33 and one build-in material 34.

See also preferred embodiment shown in Figure 9, this embodiment and difference embodiment illustrated in fig. 1 are the structural forms that is confinement structure 30, this confinement structure 30 is to comprise an inner plate body 31 and two connection intensive aspects 33 that formed by inner plate body 31 both sides one bendings respectively, allows confinement structure 30 form to possess twice to connect the reinforcement support structure that intensive aspect 33 and cross section are the U font.

See also preferred embodiment shown in Figure 10, the supporting component A of this embodiment is provided with one to be the long shaped plate sheet and to be positioned at the coupling member 40 in centre position, two axle center members 10 that are the long shaped plate sheet and lay respectively at these coupling member 40 upper and lower sides, and four side keepers 20 of establishing two axle center members, 10 both sides respectively and being set in distance, and be provided with two and lay respectively at upper and lower side and the confinement structure 30 fixedly connected with pairing side keeper 20; Wherein:

This coupling member 40 is the sheet material for a microscler shape, this two axle center member 10 is the upper and lower sides that are positioned at this coupling member 40, and the both sides of each axle center member 10 are equipped with the non-linear lateral margin that is recessed edge 112 forms, are provided with the flange 21 that is concavo-convex coupling with corresponding non-linear lateral margin in each side keeper 20; Simultaneously, each axle center member 10 of the present invention and be positioned at the corresponding side keeper 20 of both sides can utilize cutting implement to form in the corresponding cutting in left and right two halves position of microscler sheet material both sides, uses and takes maximum business efficiency to utilize board-like material;

This two confinement structure 30 is to comprise the connection intensive aspect 33 that an inner plate body 31, one outer plate body 32 and is linked to inside and outside plate body 31,32 midline positions, allows this confinement structure 30 form the cross section and is I-shaped reinforcement support structure; The lateral margin of this inner plate body 31 is fixedly connected with the corresponding side of corresponding side keeper 20 in modes such as welding or screw locks, allows 30 pairs of axle center members of confinement structure 10 form and encloses the bundle form.

Embodiment as shown in figure 11, this embodiment and difference embodiment illustrated in fig. 10 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 12, this embodiment and difference embodiment illustrated in fig. 11 are to be: each axle center member 10 respectively is interval with the example of two recessed edge 112 and both sides keeper 20 in dual-side.

Embodiment as shown in figure 13, this embodiment and difference embodiment illustrated in fig. 12 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 14, this embodiment and difference embodiment illustrated in fig. 10 are to be: this confinement structure 30 is to comprise two inner plate body 31, one outer plate bodys 32 that are provided with at interval, and two connection intensive aspects 33 that are linked to outer plate body 32 respectively by the medial margin one bending of the contiguous midline positions of inner plate body 31, use allowing confinement structure 30 possess twice connection intensive aspect 33 and good reinforcement supporting role is provided.

Embodiment as shown in figure 15, this embodiment and difference embodiment illustrated in fig. 14 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 16, this embodiment and difference embodiment illustrated in fig. 14 are to be: each axle center member 10 respectively is interval with the example of two recessed edge 112 and both sides keeper 20 in dual-side.

Embodiment as shown in figure 17, this embodiment and difference embodiment illustrated in fig. 16 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 18, this embodiment is to be with difference embodiment illustrated in fig. 10: this confinement structure 30 be comprise that the outer plate body of two inner plate bodies that are provided with at interval 31, one 32, two medial margin one bendings that are close to midline positions by inner plate body 31 respectively form be connected intensive aspect 33, and one be incorporated into this outer plate body 32 and set fixedly connectedly in the two build-in materials 34 that connect between the intensive aspects 33, uses allowing confinement structure 30 possess twice to connect intensive aspect 33 and one build-in material 34 and good reinforcement supporting role is provided.

Embodiment as shown in figure 19, this embodiment and difference embodiment illustrated in fig. 18 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 20, this embodiment and difference embodiment illustrated in fig. 18 are to be: each axle center member 10 respectively is interval with the example of two recessed edge 112 and both sides keeper 20 in dual-side.

Embodiment as shown in figure 21, this embodiment and difference embodiment illustrated in fig. 20 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 22, this embodiment is to be with difference embodiment illustrated in fig. 10: this confinement structure 30 is to comprise an inner plate body 31 and two to be connected intensive aspect 33 by what inner plate body 31 both sides one bendings formed respectively, uses to allow confinement structure 30 form to possess twice to connect the reinforcement support structure that intensive aspect 33 and cross section are the U font.

Embodiment as shown in figure 23, this embodiment and difference embodiment illustrated in fig. 22 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

Embodiment as shown in figure 24, this embodiment and difference embodiment illustrated in fig. 22 are to be: each axle center member 10 respectively is interval with the example of two recessed edge 112 and both sides keeper 20 in dual-side.

Embodiment as shown in figure 25, this embodiment and difference embodiment illustrated in fig. 24 are to be: coupling member 40 is made as example with the superimposed composition of two layers or more microscler shape sheet material.

See also preferred embodiment shown in Figure 26, the supporting component A of this embodiment is provided with one to be the long shaped plate sheet and to be positioned at the coupling member 40 in centre position, two axle center members 10 that are the long shaped plate sheet and lay respectively at these coupling member 40 upper and lower sides, and is provided with two confinement structures 30 that lay respectively at upper and lower side; Wherein:

This coupling member 40 is by two layers or more microscler shape sheet material superimposed composition, and this two axle center member 10 is the upper and lower sides that are positioned at this coupling member 40, and the both sides of each axle center member 10 are equipped with the non-linear lateral margin that is recessed edge 112 forms; This confinement structure 30 is to comprise a microscler plate body 35 and two connection intensive aspects 33 that are individually fixed in these microscler plate body 35 both sides, allows confinement structure 30 form to possess twice to connect the reinforcement support structure that intensive aspect 33 and cross section are the H font.

Embodiment as shown in figure 27, this embodiment and difference embodiment illustrated in fig. 26 are to be: each axle center member 10 respectively is interval with the example of two recessed edge 112 in dual-side.

Embodiment as shown in figure 28, this embodiment and difference embodiment illustrated in fig. 26 are to be: this confinement structure 30 is to comprise an inner plate body 31 and an outer plate body 32 that is provided with at interval, and two fixedly connected respectively in inside and outside plate body 31,32 both sides and medial margin are the connection intensive aspect 33 of outstanding form, allow confinement structure 30 form and possess the reinforcement support structure that twice connect intensive aspect 33.

Embodiment as shown in figure 29, this embodiment and difference embodiment illustrated in fig. 28 are to be: each axle center member 10 respectively is interval with the example of two recessed edge 112 in dual-side.

Comprehensive aforesaid each embodiment, major technology feature of the present invention is to constitute with the structure material that possesses connection intensive aspect 33 the axle center member is formed the confinement structure that encloses Shu Zuoyong, can strengthen enclosing that the bundle structure produced encloses bundle branch support effect, effectively improve the bundle inclined strut usefulness of energy-dissipating bracing device.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, have in the technical field under any and know the knowledgeable usually, if in the scope that does not break away from technical scheme that the present invention puies forward, utilize disclosed technology contents to do the local equivalent embodiment that changes or modify, and do not break away from technical scheme content of the present invention, all still belong in the scope of technical solution of the present invention.

Claims (16)

1. an energy-dissipating bracing device is characterized in that, comprising:

One supporting component, be to be provided with axle center member elongated more than, each axle center member is to be provided with one to support axial region and two connectors that are linked to these support axial region two ends respectively, this support axial region is to be provided with one group of above symmetrical side, is provided with the non-linear lateral margin of the recessed edge of a tool in each symmetrical side; And

Two confinement structures, be to set firmly on the relative contact that is incorporated into this supporting component with lateral margin respectively and this axle center member formed enclose the bundle form, each confinement structure is two inner plate body, outer plate bodys that are provided with at interval that include the symmetrical side that is parallel to this support axial region, and two connection intensive aspects that are close to the medial margin one bending of midline position by each inner plate body respectively and are linked to this outer plate body with vertical topography.

2. energy-dissipating bracing device as claimed in claim 1 is characterized in that, wherein said outer plate body binding is provided with a build-in material, and this build-in material is set fixedly connected between corresponding two described connection intensive aspects.

3. energy-dissipating bracing device as claimed in claim 1 or 2, it is characterized in that, wherein said supporting component is the side keeper that comprises a described axle center member and be located at the symmetrical side of this axle center member more than two respectively, this axle center member respectively is arranged with in symmetrical side and is formed with more than one recessed edge, and each side keeper is to cooperate pairing recessed edge and be convexly equipped with in relative position and form a flange.

4. energy-dissipating bracing device as claimed in claim 3 is characterized in that, wherein said axle center member and each side keeper are by same microscler sheet material institute excision forming.

5. energy-dissipating bracing device as claimed in claim 3 is characterized in that, a wherein end of wherein said axle center member and each side keeper is to form one to link form.

6. energy-dissipating bracing device as claimed in claim 3 is characterized in that, the both sides of wherein said support axial region center section part position are to form one with the corresponding end of institute respective side keeper to link form.

7. energy-dissipating bracing device as claimed in claim 3 is characterized in that, wherein said axle center member respectively is interval with two recessed edge in dual-side, and correspondingly is provided with four described side keepers.

8. energy-dissipating bracing device as claimed in claim 1 or 2, it is characterized in that, wherein said supporting component is to comprise one to be positioned at the coupling member in centre position, two described axle center members that lay respectively at the upper and lower side of this coupling member, and the side keeper of being located at the symmetrical side of this axle center member more than two respectively, each axle center member respectively is arranged with in symmetrical side and is formed with more than one recessed edge, and each side keeper is to cooperate pairing recessed edge and be convexly equipped with in relative position and form a flange.

9. energy-dissipating bracing device as claimed in claim 8 is characterized in that, wherein said axle center member and each side keeper are by same microscler sheet material institute excision forming.

10. energy-dissipating bracing device as claimed in claim 8 is characterized in that, a wherein end of wherein said axle center member and each side keeper is to form one to link form.

11. energy-dissipating bracing device as claimed in claim 8 is characterized in that, the both sides of wherein said support axial region center section part position are to form one with the corresponding end of institute respective side keeper to link form.

12. energy-dissipating bracing device as claimed in claim 8 is characterized in that, wherein said coupling member is by superimposed composition of microscler shape sheet material more than two layers.

13. energy-dissipating bracing device as claimed in claim 8 is characterized in that, wherein said axle center member respectively is interval with two recessed edge in dual-side, and correspondingly is provided with four described side keepers.

14. energy-dissipating bracing device as claimed in claim 1 or 2, it is characterized in that, wherein said supporting component is to comprise one to be positioned at the coupling member in centre position, two described axle center members that lay respectively at the upper and lower side of this coupling member, and each axle center member respectively is arranged with in symmetrical side and is formed with more than one recessed edge.

15. energy-dissipating bracing device as claimed in claim 14 is characterized in that, wherein said coupling member is by superimposed composition of microscler shape sheet material more than two layers.

16. energy-dissipating bracing device as claimed in claim 15 is characterized in that, wherein said axle center member respectively is interval with two recessed edge in dual-side, and correspondingly is provided with four described side keepers.

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