This application claims the benefit of priority from Chinese Patent Application No. 202110981061.0, filed on Aug. 25, 2021. The content of the aforementioned application, including any intervening amendments thereto, is incorporated herein by reference in its entirety.
This application relates to steel support structures of foundation pits, and more particularly to a haunched structure-based steel support structure for a foundation pit.
Currently, a common foundation pit steel support structure includes an enclosing purlin beam, a support beam located on the inner side of the enclosing purlin beam, and a triangular support arranged on the enclosing purlin beam, where a base side of the triangular support is fixedly arranged on the enclosing purlin beam, and an end of the support beam is supported on the enclosing purlin beam through the triangular support. In this way, the arrangement density of the support beam in the foundation pit can be reduced, which can provide a larger working space for the excavation of the foundation pit. However, the span between two adjacent triangular supports tends to increase, which will render the enclosing purlin beam prone to bending deformation, and make it adverse to the mitigation of the lateral deformation of the foundation pit.
An object of this application is to provide a haunched structure-based steel support structure for a foundation pit, in which the span of the purlin between two adjacent triangular supports is shortened without increasing the number of triangular supports and the arrangement density of the support beams in the foundation pit, thereby reducing the bending deformation of the enclosing purlin beam and the lateral deformation of the foundation pit.
The technical solutions of this application are described as follows.
This application provides a haunched structure-based steel support structure for a foundation pit, comprising:
an enclosing purlin beam;
a support beam located on an inner side of the enclosing purlin beam; and
a triangular support arranged on the enclosing purlin beam;
wherein a first edge of the triangular support is fixedly arranged on the enclosing purlin beam; an end of the support beam is supported on the enclosing purlin beam through the triangular support, and abuts against a second edge of the triangular support; a haunched component is arranged between the enclosing purlin beam and a third edge of the triangular support; a first side of the haunched component is connected to the second side of the triangular support; and a second side of the haunched component is connected to the enclosing purlin beam. In this application, by arranging the haunched component between the enclosing purlin beam and the third edge of the triangular support, the controlling range of the triangular support is increased, and the span of the purlin between adjacent two triangular supports is shortened, thereby reducing the bending deformation of the enclosing purlin beam and the lateral deformation of the foundation pit.
In an embodiment, the haunched component is triangular; a first edge of the haunched component is connected to the third edge of the triangular support; and a second edge of the haunched component is connected to the enclosing purlin beam. In this application, an outer edge angle (obtuse angle) formed by a third edge of the haunched component and the enclosing purlin beam is larger than the outer edge angle (obtuse angle) in the prior art that is formed by the third edge of the triangular support and the enclosing purlin beam. By enlarging the outer edge angle, the stress between the haunched component and the enclosing purlin beam is further dispersed, thereby improving the local yield resistance between the haunched component and the enclosing purlin beam.
In an embodiment, the haunched component has an integrated structure; or the haunched component is composed of two or more parts, and any adjacent two parts are boltedly connected.
This application also provides a haunched component-based steel support structure for a foundation pit, comprising:
an enclosing purlin beam;
a support beam located on an inner side of the enclosing purlin beam; and
a triangular support arranged on the enclosing purlin beam;
wherein a first edge of the triangular support is fixedly arranged on the enclosing purlin beam; the support beam comprises two inclined support beams arranged in a splayed manner; an end of each of the two inclined support beams close to the enclosing purlin beam is supported on the enclosing purlin beam through the triangular support, and abuts against a second edge of the triangular support; a haunched component is arranged between the enclosing purlin beam and a third edge of the triangular support; a first side of the haunched component is connected to the third edge of the triangular support; and a second side of the haunched component is connected to the enclosing purlin beam. In this application, by arranging the haunched component between the enclosing purlin beam and the third edge of the triangular support, the controlling range of the triangular support is increased, which can reduce the span of the purlin between two adjacent triangular supports without increasing the number of triangular supports and the arrangement density of the support beam in the foundation pit, thereby reducing the bending deformation of the enclosing purlin beam and the lateral deformation of the foundation pit.
In an embodiment, the number of the triangular support is two; two triangular supports are respectively corresponding to the two inclined support beams; the number of the haunched component is two; the two triangular supports are arranged between two haunched components; the two haunched components are connected through a prestressed cable; and the prestressed cable is configured to provide a pre-tensioning force between the two haunched components. In the haunched component-based steel support structure provided herein, the two triangular supports are subjected to a horizontal shear along the enclosing purlin beam under the pressure from the soil outside the foundation pit such that a displacement of the triangular support along the enclosing purlin beam or a deformation of the connecting part between the triangular support and the enclosing purlin beam occurs during a long-term working of the steel support structure, which causes the lateral deformation of the foundation pit. Moreover, the partial enclosing purlin beam located between the two triangular supports may surfer bending and deformation under the pressure from the soil outside the foundation pit. To overcome the above defects, in this application, the two haunched components are connected through a prestressed cable to provide a pre-tensioning force between the two haunched components to offset partial horizontal shear of the two triangular supports along the enclosing purlin beam. At the same time, the prestressed cable and the bolt connecting the triangular support with the enclosing purlin beam can be used to share the horizontal shear of the two triangular supports along the enclosing purlin beam, so as to effectively reduce the lateral deformation of the foundation pit caused by the displacement of the triangular support along the enclosing purlin beam or the deformation of the connecting part between the triangular support and the enclosing purlin beam. More importantly, due to the pre-tensioning force between the two haunched components produced by the prestressed cable, the enclosing purlin beam located between the two triangular supports can form a reverse arch force toward the outside of the foundation pit, further improving the bearing capacity of the enclosing purlin beam located between the two triangular supports, so as to reduce the bending deformation of the enclosing purlin beam under the pressure from the soil outside the foundation pit.
In an embodiment, the prestressed cable comprises a plurality of prestressed cables; and one part of the plurality of prestressed cables are located above the two triangular supports, and the other part of the plurality of prestressed cables are located below the two triangular supports.
In an embodiment, the haunched component is triangular; a first edge of the haunched component is connected to the third edge of the triangular support; and a second edge of the haunched component is connected to the enclosing purlin beam. In this application, an outer edge angle (obtuse angle) formed by a third edge of the haunched component and the enclosing purlin beam is larger than the outer edge angle (obtuse angle) in the prior art that is formed by the third edge of the triangular support and the enclosing purlin beam. By enlarging the outer edge angle, the stress between the haunched component and the enclosing purlin beam is further dispersed, thereby improving the local yield resistance between the haunched component and the enclosing purlin beam.
In an embodiment, the haunched component has an integrated structure; or
the haunched component is composed of two or more parts, and any adjacent two parts are boltedly connected.
In an embodiment, the two inclined support beams are arranged symmetrically.
In an embodiment, the haunched component is made of steel; and a ribbed plate is arranged in the haunched component and is configured to enhance strength of the haunched component.
Compared with the prior art, the beneficial effects of the present invention are described below.
The steel support structure provided herein can reduce the span of the purlin between two adjacent triangular supports without increasing the number of triangular supports and the arrangement density of the support beams in the foundation pit, thereby reducing the bending deformation of the enclosing purlin beam and the lateral deformation of the foundation pit.
In the drawings, 1, enclosing purlin beam; 2, support beam; 2.0, main support beam; 2.1, inclined support beam; 2.2, steel triangular component; 3, triangular support; 4, haunched component; and 5, prestressed cable.
To make the objects, technical solutions, and advantages of the technical solutions of the present disclosure clearer, the technical solutions of the embodiments of the present disclosure will be clearly explained and illustrated below with reference to the accompanying drawings. The following embodiments are merely preferred embodiments of the present disclosure, and are not intended to limit the disclosure. Based on these embodiments, other embodiments obtained by those skilled in the art without paying creative efforts shall fall within the scope of the present disclosure.
The embodiments of this disclosure will be described below in detail with reference to the accompanying drawings. It should be understood that the same or similar reference numerals refer to the same or similar components or components with the same or similar functions throughout the disclosure. The embodiments described below are only illustrative of the technical solutions, and are not intended to limit this disclosure.
With reference to the following descriptions and accompanying drawings, the embodiments will be clearly illustrated, some specific implementations of the embodiments of this disclosure are disclosed in detail to explain the principles of this disclosure, but are not intended to limit this disclosure. It should be understood that any changes, modifications and replacements made by those skilled in the art without departing from the spirit of the disclosure shall fall within the scope of the disclosure defined by the appended claims.
It should be understood that the indicative terms used herein (such as “thickness”, “upper”, “lower”, “horizontal”, “top”, “bottom”, “inner”, “outer”, “circumferential”) indicate orientation or positional relationship shown in the drawings, which are intended to describe the present disclosure and simplify the description, rather than indicating or implying that the indicated devices or elements must have a particular orientation, are constructed and operated in a specific orientation, and are thus not to be considered as limitations on the present disclosure. In the description of the present disclosure, the term “multiple” means at least two, for example, two, three, or more. Unless otherwise specifically defined, the term “a plurality of” means one or more.
In the present disclosure, unless otherwise specifically defined, terms (such as “arrangement”, “connection”, “joint”, and “fixed”) should be understood broadly, such as fixed connections, detachable connections, integrated connections, mechanical connections, electrical connections, communications with each other, direct connections, indirectly connections by using intermediate mediums, communications inside two elements, and an interactive relationship between two elements. For one of ordinary skill in the art, the specific meanings of the above terms in the present disclosure may be understood according to specific situations.
Referring to
In this embodiment, the first side of the haunched component 4 is connected to the third edge of the triangular support 3 through bolts, and the second side of the haunched component 4 is connected to the enclosing purlin beam 1 through bolts. In other embodiments, the first side of the haunched component 4 is connected to the third edge of the triangular support 3 by welding, and the second side of the haunched component 4 is connected to the enclosing purlin beam 1 by welding.
In this embodiment, the haunched component 4 is made of steel and has an integrated structure; or the haunched component 4 is composed of two or more parts, and any adjacent two parts are boltedly connected. A ribbed plate is arranged in the haunched component 4 for enhancing strength of the haunched component 4.
In this embodiment, the support beam 2, the triangular support 3, and the enclosing purlin beam 1 are both made of steel.
In this embodiment, by arranging the haunched component between the enclosing purlin beam and the third edge of the triangular support, the controlling range of the triangular support is increased, which can reduce the span of the purlin between two adjacent triangular supports without increasing the number of triangular supports and the arrangement density of the support beam in the foundation pit, thereby reducing the bending deformation of the enclosing purlin beam and the lateral deformation of the foundation pit.
Furthermore, as illustrated in
As shown in
In this embodiment, the first side of the haunched component 4 is connected to the third edge of the triangular support 3 through bolts, and the second side of the haunched component 4 is connected to the enclosing purlin beam 1 through bolts. In other embodiments, the first side of the haunched component 4 is connected to the third edge of the triangular support 3 by welding, and the second side of the haunched component 4 is connected to the enclosing purlin beam 1 by welding.
In this embodiment, the haunched component 4 is made of steel and has an integrated structure; or the haunched component 4 is composed of two or more parts, and any adjacent two parts are boltedly connected. A ribbed plate is arranged in the haunched component 4 for enhancing strength of the haunched component 4.
In this embodiment, the support beam 2, the triangular support 3, and the enclosing purlin beam 1 are both made of steel.
In this embodiment, by arranging the haunched component between the enclosing purlin beam and the third edge of the triangular support, the controlling range of the triangular support is increased, which can reduce the span of the purlin between two adjacent triangular supports without increasing the number of triangular supports and the arrangement density of the support beam in the foundation pit, thereby reducing the bending deformation of the enclosing purlin beam and the lateral deformation of the foundation pit.
Specifically, as shown in
Furthermore, as shown in
In this embodiment, as shown in
Furthermore, the haunched component 4 is triangular. A first edge of the haunched component 4 is connected to the third edge of the triangular support 3, and a second edge of the haunched component 4 is connected to the enclosing purlin beam 1. In this application, an outer edge angle (obtuse angle) formed by a third edge of the haunched component 4 and the enclosing purlin beam 1 is larger than the outer edge angle (obtuse angle) in the prior art that is formed by the third edge of the triangular support 3 and the enclosing purlin beam 1. By enlarging the outer edge angle, the stress between the haunched component 4 and the enclosing purlin beam 1 is further dispersed, thereby improving the local yield resistance between the haunched component 4 and the enclosing purlin beam 1.
The above-mentioned embodiments are merely preferred embodiments, which are not intended to limit the present disclosure. It should be noted that any modifications, changes and replacements made by those skilled in the art without departing from the spirit of the disclosure shall fall within the scope of the present disclosure defined by the appended claims.
Number | Date | Country | Kind |
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202110981061.0 | Aug 2021 | CN | national |