TWM481947U - Energy-dissipating support device with viewing holes - Google Patents

Description

Energy dissipation support device with inspection window hole

The present invention relates to an enhanced support device for use in buildings and various civil engineering projects, and more particularly to an energy dissipation support device having a inspection window hole.

In order to strengthen the structural toughness and support strength of large buildings and various civil engineering, energy dissipation support devices forming oblique support are generally provided between the beams and columns of the building to provide appropriate axial toughness, reinforcement structure and elimination. Vibration energy equivalent energy. In response to this issue, the applicant has previously developed and developed energy dissipating support devices such as TW certificate number M321445, TW certificate number M345092, TW certificate number M345836 and TW certificate number M3891426. The energy dissipating support device disclosed in these patents mainly comprises a supporting shaft member located at the axial center position, a plurality of side positioning members which are arranged to support the strong shaft direction of the shaft portion of the supporting shaft member, and a surrounding support member. The surrounding member of the shaft portion of the shaft member supports and restrains the shaft portion of the supporting shaft member by the side positioning member and the surrounding member, thereby preventing the supporting shaft member from being frustrated when subjected to pressure.

The various types of energy dissipating support devices previously proposed by the applicant have been able to meet the different support requirements of various buildings. When the building is deformed by seismic force or strong wind, the energy dissipating support device can be used to help resist earthquakes or strong winds. The lateral force reduces the degree of shaking of the building from side to side. However, after the earthquake occurs or after the strong wind is applied, when the structural safety of the building is checked, since the surrounding member of the existing energy dissipating support device is comprehensively covering the load section of the restraining support shaft member, unless the surrounding member is It shall be dismantled, otherwise the inspector will not be able to check whether the supporting shaft member is damaged or not, which becomes a major limitation in the safety inspection of the energy dissipating support device structure, especially because the cost of reassembling the surrounding beam member is high and the construction is difficult, the inspectors often can only jump Whether the support shaft of the energy dissipating support device is damaged or deformed is tested to form a safety concern for the structural structure of the building.

In order to solve the insufficiency and limitation of the existing energy dissipating support device, it is difficult to inspect the supporting shaft member. The main purpose of the present invention is to provide an energy dissipating support device having an inspection window hole, which mainly corresponds to the supporting shaft member of the surrounding beam member. At least one inspection window hole can be opened for any shape, which enables the inspector to check the state of the support shaft through the inspection window hole, and solve the problem that the existing energy dissipation support device cannot view the state of the support shaft member and ensure the building. The structure is safe.

The energy dissipating support device with the inspection window hole proposed by the prior art includes: a support assembly provided with at least one support shaft member, each support shaft member being provided with a long plate-shaped shaft portion and two Connecting the connecting heads at the two ends of the shaft portion respectively, the shaft portion is provided with more than one concave edge on one side to form one or more load segments; and a surrounding member surrounding the support assembly Forming a restraining support function, the bundle member includes a plurality of side positioning members corresponding to the positions of the respective concave edges, and two restraining plates respectively abutting on the two side plates of the supporting assembly and being fixedly coupled with the corresponding side positioning members The bundle member is correspondingly disposed at a position corresponding to each of the support shaft members, and correspondingly, at least one inspection window hole capable of viewing the corresponding support shaft member.

The energy dissipation supporting device with the inspection window hole, wherein each of the restraining plate members is provided with at least one inspection window hole at a position corresponding to each load segment.

The energy dissipation supporting device with the inspection window hole, wherein each side positioning member is provided with at least one of the inspection window holes at positions corresponding to the respective load segments.

The energy dissipation supporting device with the inspection window hole, wherein each of the restraining plate members is a flat plate or a frame plate having a U-shaped cross section or a T-shaped cross section.

The energy dissipation support device having a inspection window hole, wherein the support assembly includes one of the support shaft members.

The energy dissipating support device having the inspection window hole, wherein the support assembly comprises a connecting member in a long plate shape and located at an intermediate position, and the supporting shaft member respectively located on opposite sides of the connecting member.

The energy dissipation supporting device having the inspection window hole, wherein each inspection window hole can be any shape.

The novel surrounding beam member of the energy dissipating support device is provided with an inspection window hole of any shape, and can be directly viewed from the outside of the energy dissipating support device to the supporting shaft member, effectively reducing the structure and low cost. To enable the inspectors to easily check and check the state of the supporting shaft parts, further ensure the structural safety of the building, and deepen the industrial utilization benefits.

In order to understand the technical features and practical effects of the present invention in detail, and in accordance with the novel content, further detailed description will be given in the following preferred embodiments.

The present invention is an energy dissipating support device for mounting a structural frame applied to a building or a bridge. As shown in the embodiments disclosed in the drawings, the present invention includes a support assembly A and a periphery formed around the support assembly A. The support member A includes at least one support shaft member 10 in the form of a long strip, and the support shaft member 10 is provided with a shaft portion 11 having a long plate shape and two joints respectively The connecting head 12 at the two ends of the shaft portion 11 is provided with one or more concave edges 112 to form a non-linear side edge, and corresponding one or more load segments are formed corresponding to the positions of the one or more concave edges 112. 114. The beam forming member 20 includes a plurality of side positioning members 21 corresponding to the positions of the respective concave edges 122 of the supporting shaft members 10, and the two sides are respectively abutted against the side surfaces of the supporting assembly A and are opposite to each other. Correspondingly, each of the side positioning members 21 is coupled to the fixed restraining plate member 22, and the surrounding member 20 is correspondingly disposed at a position corresponding to each of the supporting shaft members 10, and at least one of the corresponding supporting shaft members 10 can be seen and can be any Shaped inspection window apertures 214, 222 Therefore, the state of each supporting shaft member 10 can be directly inspected and detected by the outside of the energy dissipating support device, and the group constitutes an energy dissipating supporting device having a detecting window hole.

As shown in the first preferred embodiment of FIG. 1, the energy dissipating support device includes a support assembly A and a surrounding member 20 that surrounds the support assembly A to form a restraining support. The support assembly A of the present embodiment a support shaft member 10 having a long plate shape, the support shaft member 10 has a shaft portion 11 in the axial direction and a long plate shape, and two joints 12 integrally coupled to the ends of the shaft portion 11; The shaft portion 11 is recessed to form one or more concave edges 112 correspondingly on both sides, and a load segment 114 for receiving an external force is formed correspondingly at the position of each concave edge 112, as in the illustrated embodiment. Correspondingly, a concave edge 112 is formed on each side of the shaft portion 11 of the support shaft member 10 and a load section 114 is formed. The connecting surface of the connecting head 12 is provided with a plurality of splicing holes of a plurality of coupling holes. The support shaft member 10 can be mounted and fixed to a corresponding portion of the beam or the column through a fixing member such as a bolt or a welding or a rivet.

The bundle member 20 is wrapped around the shaft portion 11 of the support shaft member 10 and includes a plurality of sets of corresponding positions corresponding to the respective concave edges 112 of the support shaft member 10 and located at the strong axis of the support shaft member 10. The side positioning member 21 of the direction, and the restraining plate member 22 respectively abutting on the two sides of the supporting shaft member 10 and fixed to the two side positioning members 21; wherein the two side positioning members 21 cooperate with the supporting shaft member 10 The concave edge 112 is disposed at a corresponding position on the two side positioning members 21 to form a matching flange 212, so that the support shaft member 10 and the non-linear side edges of the two side positioning members 21 form a concave-convex matching form. And a gap is left between the concave edge 112 of the support shaft member 10 and the flange 212 of the two side positioning members 21; preferably, the support shaft member 10 and the two side positioning members 21 can be cut by the same long plate. The three-piece member formed by longitudinally cutting the machine at both sides is used to take advantage of the plate material by taking the maximum economic efficiency, and the thickness of the support shaft 10 can be further processed to a thickness slightly smaller than the two side positioning members. The thickness of 21.

The two restraining plate members 22 are in the form of a flat frame, which may be a flat plate having a sufficient thickness or a U-shaped cross section or a T-shaped cross-section. The present invention is not limited in any particular way, and the two restraining plates are provided. The two side edges of the 22 are fixedly coupled with the corresponding side positioning members 21 by means of welding, rivets or screw locks, so that the surrounding member 20 forms a bundle shape for the support shaft member 10; the two restraining plates 22 correspond to each other. The position of the load section 114 of the support shaft member 10 is provided with at least one inspection window hole 222 which can view the corresponding load section 114 and can be any shape. In the embodiment shown in the figure, the two restraining plate members 22 are a flat plate having a sufficient width or a frame having a U-shaped cross section or a T-shaped cross section, and three circular inspection window holes 222 at intervals corresponding to the load section 114, thereby being capable of being supported by the outer portion of the energy dissipating device The state of the corresponding load segment 114 can be easily viewed.

As shown in the second preferred embodiment of FIG. 2, the difference between the embodiment and the first preferred embodiment shown in FIG. 1 is that the load portion 114 of the embodiment supports the shaft member 10 corresponding to the two side positioning members 21. Three inspection window holes 214 are provided at intervals of the positions, and the inspection window holes 222 are not provided in the two restraining plates 22.

The third preferred embodiment shown in FIG. 3 differs from the second preferred embodiment shown in FIG. 2 in that the edge positions of the two side positioning members 21 and the two restraining plate members 22 of the present embodiment are opposite. A plurality of perforations are provided at corresponding intervals, and a plurality of bolts 23 are respectively passed through the respective positive perforations and locked by a nut, so that the two side positioning members 21 and the two restraining plate members 22 of the surrounding member 20 pass through. A plurality of bolts 23 are mounted and fixed together.

As shown in the fourth preferred embodiment of FIG. 4, the difference between the embodiment and the first preferred embodiment shown in FIG. 1 is that the present embodiment corresponds to one of the side positioning members 21 and one of the restraining plates 22 thereof. The load section 114 of the support shaft member 10 is provided with three inspection window holes 214, 222 at intervals.

As shown in the fifth preferred embodiment of FIG. 5, the difference between the embodiment and the first preferred embodiment shown in FIG. 1 is that the present embodiment corresponds to the two side positioning members 21 and the two restraining plate members 22. The position of the load section 114 of the support shaft member 10 is provided with three inspection window holes 214, 222 at intervals.

As shown in the sixth preferred embodiment of FIG. 6, the support assembly A of the embodiment is provided with a connecting member 30 in the form of a long plate and located at an intermediate position, and two in the form of long plates and respectively located at the connecting member 30. The support member 10 is opposite to the two sides; wherein the connecting member 30 is a long plate, the two supporting shaft members 10 are located on two sides of the connecting member 30, and a concave edge 112 is formed on each side of each supporting shaft member 10 to form The non-linear side edge correspondingly forms a load segment 114 for receiving the external force at the position of the concave edge 112. The surrounding member 20 of the embodiment includes two sets of corresponding positions corresponding to the concave edges 122 of the two supporting shaft members 10 respectively. And a side positioning member 21 located in the direction of the strong axis of the support shaft member 10, and two restraining plate members 22 respectively abutting the plate faces of the support assembly A, and the two sets of the side positioning members 21 and the two restraining plate members 22 are provided. And the corresponding side edges of the connecting member 30 are combined and fixed by welding, rivet or screw locking, so that the surrounding member 20 forms a bundle shape for the supporting assembly A; the two restraining plates 22 are corresponding to the two supporting shaft members. 10 of the load section 114, each having at least one The inspection window hole 222 of the corresponding load segment 114 is viewed through. In the embodiment shown in the figure, the two restraining plate members 22 are provided with three inspection window holes 222 at intervals corresponding to the load segments 114 of the two supporting shaft members 10. Therefore, the state of the corresponding load section 114 can be easily checked by the outside of the energy dissipating support device.

The seventh preferred embodiment shown in FIG. 7 differs from the sixth preferred embodiment shown in FIG. 6 in that the side positioning members 21 of the present embodiment correspond to the load segments 114 of the two supporting shaft members 10. Three inspection window holes 214 are provided at intervals of the positions, and the inspection window holes 222 are not provided in the two restraining plates 22.

The eighth preferred embodiment shown in FIG. 8 differs from the seventh preferred embodiment shown in FIG. 7 in that the four-sided positioning member 21, the two restraining plate members 22, and the connecting member of the present embodiment are the same. The edge positions of the 30 are correspondingly spaced apart by a plurality of perforations, and the plurality of bolts 23 are respectively passed through the respective positive perforations and are locked by the nuts, so that the four side positioning members 21 and the two of the surrounding members 20 are The restraining plate member 22 and the connecting member 30 are attached and fixed by a plurality of bolts 23.

As shown in the ninth preferred embodiment of FIG. 9, the difference between the embodiment and the sixth preferred embodiment shown in FIG. 6 is that the present embodiment corresponds to one of the side positioning members 21 and one of the restraining plates 22 thereof. The positions of the load sections 114 of the two support shaft members 10 are provided with three inspection window holes 214, 222 at intervals.

In the tenth preferred embodiment shown in FIG. 10, the difference between the embodiment and the sixth preferred embodiment shown in FIG. 6 is that the two side support members 21 and the respective restraining plate members 22 correspond to the two support shafts. The position of the load section 114 of the piece 10 is provided with three inspection window holes 214, 222 at intervals.

The eleventh to fifteenth preferred embodiments shown in Figs. 11 to 15 differ from the sixth to tenth preferred embodiments shown in Figs. 6 to 10 in that the joint member 30 of these embodiments. It consists of two layers of sheet metal, and the other parts are identical in structural design.

16 to 30, the difference between these embodiments and the first to fifteenth preferred embodiments shown in Figs. 1 to 15 is that the support shafts of the embodiments are The member 10 is provided with two concave edges 112 at opposite intervals on the two sides to form two load segments 114, and correspondingly each of the load segments 114 is provided with a pair of sides matching the corresponding concave edges 112. The structural design of the positioning member 21 is the same.

31 to 60, the difference between these embodiments and the first to 30th preferred embodiments shown in Figs. 1 to 30 is that the support shaft members of these embodiments The connecting head 12 of the 10 is convexly formed with a pair of coupling plates 122 and has a cross shape or a T-shape, and a plurality of coupling holes are provided in each of the connecting heads 12. The other portions have the same structural design.

61 to 90, the difference between these embodiments and the first to 30th preferred embodiments shown in Figs. 1 to 30 is that the support shaft members of these embodiments The connecting heads 12 of the recesses 10 are each provided with a coupling recess 124 and are provided with a plurality of coupling holes, and the other portions have the same structural design.

In the embodiment of the two types of support shaft members 10 of the present invention shown in FIG. 91 and FIG. 92, a concave edge 112 and a phase are recessed on opposite sides of the shaft portion 11 of the support shaft member 10 disclosed in FIG. Correspondingly, a load segment 114 is formed, and the connector 12 having a flat plate shape and a plurality of coupling holes is integrally connected to both ends of the shaft portion 11 and correspondingly disposed on opposite sides of the support shaft member 10 There is a set of side positioning members 21 which are formed with concave and convex matching with the corresponding concave edges 112. The supporting shaft members 10, the two side positioning members 21 and the inspection window holes 214 can be formed by longitudinally cutting the same elongated plate with the cutting machine at both sides. In order to take the most economical efficiency to use the plate material. In the two sides of the shaft portion 11 of the support shaft member 10 disclosed in FIG. 92, two recessed edges 112 are recessed to form two load segments 114, and correspondingly on both sides of the support shaft member 10 Two sets of side positioning members 21 are formed on the opposite sides of the corresponding concave edges 112. The support shaft members 10, the side positioning members 21 and the inspection window holes 214 can be cut by the same elongated plate on both sides. Formed by longitudinal cutting.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any one of ordinary skill in the art may use the present invention without departing from the scope of the present invention. Equivalent embodiments of the novel modifications or modifications made by the novel teachings are still within the scope of the present invention.

A‧‧‧Support components
10‧‧‧Support shaft parts
11‧‧‧Axis
112‧‧‧ concave edge
114‧‧‧Load section
12‧‧‧Connecting head
122‧‧‧Combined plates
124‧‧‧ Combined notch
20‧‧‧Bundle members
21‧‧‧ side positioning parts
212‧‧‧Flange
214‧‧‧Check window hole
22‧‧‧Constrained plates
222‧‧‧Check window hole
23‧‧‧ bolt
30‧‧‧Connected components

1 to 90 are exploded views of the constituent members of the first to ninth preferred embodiments of the present invention. 91 and 92 are schematic views of the structure of two embodiments of the support shaft member of the present invention.

A‧‧‧Support components

10‧‧‧Support shaft parts

11‧‧‧Axis

112‧‧‧ concave edge

114‧‧‧Load section

12‧‧‧Connecting head

20‧‧‧Bundle members

21‧‧‧ side positioning parts

212‧‧‧Flange

22‧‧‧Constrained plates

222‧‧‧Check window hole

Claims (27)

An energy dissipating support device having a inspection window hole, comprising: a support assembly provided with at least one support shaft member, each support shaft member is provided with a long plate-shaped shaft portion and two respectively coupled to the shaft portion a connector of the end, the shaft portion is provided with more than one concave edge on one side to form more than one load segment; and a surrounding member that surrounds the support assembly to form a restraining support function, the bundle The member includes a plurality of side positioning members corresponding to the positions of the respective concave edges, and two restraining plate members respectively abutting on the two side plates of the supporting assembly and fixedly coupled with the corresponding side positioning members, the surrounding member corresponding thereto The positions of the support shaft members are correspondingly provided with at least one inspection window hole capable of viewing the corresponding support shaft member. The energy dissipating support device having the inspection window hole according to claim 1, wherein each of the restraining plate members is provided with at least one of the inspection window holes at positions corresponding to the respective load segments. The energy dissipation supporting device with the inspection window hole according to claim 2, wherein at least one of the side positioning members is provided with at least one of the inspection window holes at positions corresponding to the respective load segments. The energy dissipation supporting device having the inspection window hole according to claim 2, wherein each of the side positioning members on one side is provided with at least one of the inspection window holes at positions corresponding to the respective load segments. The energy dissipating support device with the inspection window hole according to claim 2, wherein at least one side positioning member on both sides of one of the support shaft members is disposed at a position corresponding to each load segment, and at least one of the inspection views is respectively provided. Window hole. The energy dissipation supporting device with the inspection window hole according to claim 1, wherein one of the restraining plate members is provided with at least one of the inspection window holes at positions corresponding to the respective load segments. The energy dissipation supporting device having the inspection window hole according to claim 6, wherein at least one of the side positioning members is provided with at least one of the inspection window holes at positions corresponding to the respective load segments. The energy dissipation supporting device with the inspection window hole according to claim 6, wherein at least one of the inspection window holes is provided at each of the side positioning members on one side at positions corresponding to the respective load segments. The energy dissipation supporting device with the inspection window hole according to claim 6, wherein at least one side positioning member on both sides of one of the supporting shaft members is provided with at least one of the inspection positions corresponding to each load segment. Window hole. The energy dissipation supporting device with the inspection window hole according to claim 1, wherein at least one of the side positioning members is provided with at least one of the inspection window holes at positions corresponding to the respective load segments. The energy dissipation supporting device having the inspection window hole according to claim 1, wherein at least one of the inspection window holes is provided at each of the side positioning members on one side at positions corresponding to the respective load segments. The energy dissipating support device with the inspection window hole according to claim 1, wherein at least one side positioning member on both sides of one of the supporting shaft members is disposed at a position corresponding to each load segment, and at least one of the inspection views is respectively provided. Window hole. The energy dissipation supporting device having the inspection window hole according to any one of claims 1 to 9, wherein the restraining plate member of the inspection window hole is provided, and the inspection is set at a position corresponding to each load segment. The number of apertures is two or three. The energy dissipating support device having the inspection window hole according to any one of claims 1 to 12, wherein the side positioning member of the inspection window hole is provided, and the view is set at a position corresponding to each load segment. The number of apertures is two or three. The energy dissipating support device having the inspection window hole according to any one of claims 1 to 12, wherein the restraining plate member is a flat plate or a frame plate having a U-shaped cross section or a T-shaped cross section, the support The assembly includes at least one of said support shaft members. The energy dissipating support device having the inspection window hole according to claim 15, wherein each of the support shaft members has a recessed edge corresponding to each other on the two sides to form one of the load segments. The energy dissipating support device having the inspection window hole according to claim 15, wherein each of the support shaft members is provided with two of the concave edges at intervals on the two sides to form two of the loads. segment. The energy dissipation supporting device with the inspection window hole according to claim 15, wherein each of the side positioning members and the restraining plate members are welded and fixed. The energy dissipation supporting device with the inspection window hole according to claim 15, wherein each of the side positioning members and the restraining plate members are fixed by a plurality of bolts or rivets. The energy dissipation supporting device with the inspection window hole according to claim 15, wherein the connecting head of the supporting shaft member is formed in a flat shape, or has a cross shape with a combined plate, or a T-shaped shape with a combined plate. Or a flat plate with a recessed joint. The energy dissipating support device having the inspection window hole according to any one of claims 1 to 12, wherein the restraining plate member is a flat plate or a frame plate having a U-shaped cross section or a T-shaped cross section, the support The assembly includes a coupling member in a long plate shape and located at an intermediate position, and two support shaft members respectively located on opposite sides of the coupling member. The energy dissipating support device having the inspection window hole according to claim 21, wherein each of the support shaft members has a recessed edge corresponding to each other on the two sides to form one of the load segments. The energy dissipating support device having the inspection window hole according to claim 21, wherein each of the support shaft members is recessed at two sides correspondingly to each of the two recessed edges to form two of the loads. segment. The energy dissipating support device having the inspection window hole according to claim 21, wherein each of the side positioning members and each of the restraining plate members are welded and fixed. The energy dissipating support device having the inspection window hole according to claim 21, wherein each of the side positioning members and each of the restraining plate members are fixed by a plurality of bolts or rivets. The energy dissipating support device having the inspection window hole according to claim 21, wherein the connecting head of the supporting shaft member is formed in a flat shape, or is provided with a cross shape of a combined plate, or a T shape provided with a combined plate. Or a flat plate with a recessed joint. The energy dissipating support device having the inspection window hole according to claim 21, wherein the joint member is composed of two layers of sheets.