Embodiments of the present invention generally relate to excavation support structures, in particular to the excavation support structures for slide-rail post trench shoring systems.
In the excavation industry, cave-in and trench collapse are common safety hazards associated with open trench excavation methods. In addition to the inherent safety concerns, there are also productivity issues that must be addressed due to the man hour requirements for the installation and removal of the excavation support structure.
Depending upon the project requirements, slide-rail post trench shoring systems may eliminate many of the safety and productivity issues found when using trench shields, tight sheeting, beam and plate systems and wood shoring systems. However, there is still a need for continuous safety and productivity improvements in the industry. More particularly, there is a need for improvements in safety and job efficiency with the vertical mobility of hydraulic braces during installation and removal of slide-rail post trench shoring systems.
An excavation support system and methods for installing and using same are provided. The system can include a plurality of linear slide-rail posts, each linear slide-rail post having at least one recessed groove formed in a longitudinal axis thereof; a plurality of corner slide-rail posts, each corner slide-rail post having two substantially parallel recessed grooves formed in a longitudinal axis thereof, wherein the two substantially parallel recessed grooves define an angle therebetween; at least one slide-rail panel having opposing first and second ends, wherein the first end is disposed within the recessed groove of the linear slide-rail post and the second end is disposed within one of the recessed grooves of the corner slide-rail posts; at least one linear roller cart, having at least one roller attached thereto, adapted to slide onto the linear slide-rail post and secure thereto, the linear roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein the linear roller cart is movable in an upward and downward direction relative to the vertical axis of the linear slide-rail post without interference from the slide-rail panel; and at least one corner roller cart having at least one roller attached thereto, adapted to slide onto the corner slide-rail post and secure thereto, the corner roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein each corner roller cart is movable in an upward and downward direction relative to the vertical axis of the corner slide-rail post.
A method for installing an excavation support system includes assembling a base structure in a pre-excavation trench, wherein the base structure comprises: a plurality of linear slide-rail posts, each linear slide-rail post having at least one recessed groove formed in a longitudinal axis thereof; a plurality of corner slide-rail posts, each corner slide rail post having two substantially parallel recessed grooves formed in a longitudinal axis thereof, wherein the two substantially parallel recessed grooves define an angle therebetween; a plurality of slide-rail panels having opposing first and second ends, wherein the first end is disposed within one of the recessed grooves of the linear slide-rail posts and the second end is disposed within one of the recessed grooves of the corner slide-rail posts; disposing at least one linear roller cart, having at least one roller attached thereto, onto at least one of the plurality of linear slide-rail posts, wherein the at least one linear roller cart is adapted to slide onto the linear slide-rail post and secure thereto, the linear roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein the linear roller cart is movable in an upward and downward direction relative to the vertical axis of the linear slide-rail; and disposing at least one corner roller cart, having at least one roller attached thereto, onto at least one of the plurality of corner slide-rail posts, wherein the at least one corner roller cart is adapted to slide onto the corner slide-rail post and secure thereto, the corner roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein each corner roller cart is movable in an upward and downward direction relative to the vertical axis of the corner slide-rail post.
The present disclosure is best understood from the following detailed description when read with the accompanying Figures. It is emphasized that, in accordance with the standard practice in industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.
To make the excavation support system 100, a pre-excavation or preliminary trench 200 can be formed. The shape of the pre-excavation trench 200 can vary. For example, it can be square, rectangular, hexagonal, or any other shape or geometric pattern. In general, the pre-excavation trench 200 can have any shape and dimension that complies with the appropriate safety regulations and the particular soil type at the installation site.
The pre-excavation trench 200 can have a width that is up to about 14 inches, up to about 12 inches, or up to about 10 inches wider than the desired pit dimensions. The pre-excavation or preliminary depth can be about 2 feet to about 8 feet, about 3 feet to about 7 feet, or about 4 feet to about 6 feet in depth. For example, the depth of the pre-excavation trench 200 can be up to about 8 feet, up to about 7 feet, up to about 6 feet, up to about 4 feet, or up to about 3 feet in depth.
After the pre-excavation trench 200 has been formed, a first lower slide-rail panel 105 can be placed inside of the pre-excavation trench 200 so that one side of the slide-rail panel 105 is vertically aligned with one corner of the pre-excavation trench 200. As discussed above, in some embodiments, there can be a lower slide-rail panel 105 and at least one upper slide-rail panel 106. It should be noted that the at least one upper panel 106 can also be referred to as an extension panel 106.
The linear slide-rail post 110 can be pushed into the soil using the boom of the excavator 300. The linear slide-rail post 110 can be leveled, or pushed to grade, to an approximate depth equal to the corner slide-rail post 115. However, in some embodiments, the linear slide-rail post 110 can be leveled to a depth that can be either greater than or less than the depth of the corner slide-rail post 115. A third lower slide-rail panel 105 can be added by aligning one side of the lower slide-rail panel 105 with the outer track 190 on the free end of the linear slide-rail post 110.
Referring again to
In some embodiments, after the completion of the foregoing installation, hydraulic brace legs 130 can be lowered into the excavation trench 180. For example, in a four-sided application, where the excavation trench 180 can be square or rectangular shaped, there can be four hydraulic brace legs 130. Each leg 130 can include a hydraulic power unit (not shown), where the hydraulic power unit can be powered by an enclosed hydraulic cylinder. Each hydraulic brace leg 130 can be positioned between a corner slide-rail post 115 and a linear slide-rail post 110. For example, a first hydraulic brace leg 130 can be positioned between the first corner slide-rail post 115 and the first linear slide-rail post 110. One end 139 of the first hydraulic brace leg 130 can be disposed on the base plate 551 of a first linear roller cart 120, and the opposing end 137 of the first hydraulic brace leg 130 can be disposed on the base plate 552 of the first corner roller cart 125, adjacent to one side of the corner swivel brace assembly 160.
As mentioned above, the corner swivel brace assembly 160 can include a generally vertical teardrop support 161 that can facilitate connecting the ends 136, 137 of two hydraulic brace legs 130, forming an approximate 90-degree angle therebetween. In some embodiments, the hydraulic brace legs 130 can remain positioned by the force of the hydraulic pressure applied thereto. In other embodiments, the ends of the first hydraulic brace leg 130 can be securely connected to the first linear roller cart 120 and the first corner roller cart 125 and corresponding corner swivel brace assembly 160 with connectors, such as a pin, bolt, screw, dowel, or any other appropriate connector.
A first hydraulic knee brace or crossing brace 135 can be placed in diagonal alignment, positioned between the first and the second hydraulic brace legs 130. It should be noted that, in some embodiments, struts (not shown) can be used in lieu of knee braces or crossing braces 135. One end of the first hydraulic knee brace or crossing brace 135 can be securely connected to the first hydraulic brace leg 130, while the opposing end of the hydraulic knee brace or crossing brace 135 can be securely connected to the second hydraulic brace leg 130. In some embodiments, the secured connection between the first hydraulic knee brace or crossing brace 135 with both the first and the second hydraulic brace legs 130 can be achieved with applying hydraulic pressure thereto. In other embodiments, the secured connection between the first hydraulic knee brace or crossing brace 135 can be achieved with connectors, such as a pin, bolt, screw, dowel, or any other appropriate connector.
Referring again to
Another method for installing an excavation support system as provided herein can include assembling the base structure 400 in the pre-excavation trench 200. The base structure 400 can include: a plurality of linear slide-rail posts 110, wherein each linear slide-rail post 110 can have at least one recessed groove 190, 191 formed in a longitudinal axis thereof; a plurality of corner slide-rail posts 115, wherein each corner slide rail post can have two substantially parallel recessed grooves 150, 151 formed in a longitudinal axis thereof, wherein the two substantially parallel recessed grooves 150, 151 can define an angle therebetween; and at least one slide-rail panel 105 having opposing first and second ends, wherein the first end can be disposed within the recessed groove 190 of the linear slide-rail post 110 and the second end can be disposed within one of the recessed grooves 150 of the corner slide-rail posts 115. After the base structure 400 is installed in the pre-excavation trench 200, the area outlined by the pre-excavation trench 200 can be excavated.
The method can also include disposing a hydraulic brace legs 130 onto each of the linear roller carts 120 disposed onto each of the plurality of linear slide-rail posts 110; securing a plurality of corner connections of the hydraulic brace legs 130, wherein each corner connection can form an approximate 90-degree angle therebetween; and securing a plurality of knee brace or crossing brace 135 connections, wherein each knee brace or crossing brace 135 can be disposed in a generally diagonal orientation proximate each hydraulic brace leg 130 corner connection. Moreover, for example, the method can include connecting a generally vertical linking tube 140 to each linear roller cart 120, wherein the linking tube 140 can be configured to vertically connect each linear roller cart 120 to an additional linear roller cart 120, and wherein the linking tube 140 can have a top end and a bottom end; connecting a generally vertical linking tube 140 to each corner linear roller cart 120, wherein the linking tube 140 can be configured to vertically connect each corner roller cart 125 to an additional corner roller cart 125, and wherein the linking tube 140 can have a top end and a bottom end.
In some embodiments, the method can also include installing at least one additional lower slide-rail panel 105, wherein the at least one additional lower slide-rail panel 105 can be installed behind the at least one slide-rail panel 105 in the base structure 400, wherein the at least one additional lower slide-rail panel 105 can have opposing first and second ends, wherein the first end can be disposed within a recessed groove 191 of the linear slide-rail post 110 and the second end can be disposed within one of the recessed grooves 150 of the corner slide-rail posts 115. In other embodiments, the method can include connecting an additional linear roller cart 120 to the top end of the linking tube 140, and connecting an additional corner roller cart 125 to the top end of the linking tube 140.
A method of excavating an area can include the following steps. A pre-excavation trench 200 having an inward facing side and an outer facing side can be dug using standard excavating equipment such as a backhoe or excavator. The pre-excavation trench 200 can outline a square, rectangular, hexagonal, or any other shape or geometric pattern any geometric shape. A base structure 400 is completed. Once the base structure 400 is completed, the area outlined by the pre-excavation trench 200 can be excavated. After the area is excavated, first linear roller carts 120 can be slideably inserted on linear slide-rail post 110 and first corner roller carts 125 can be slideably inserted on corner slide rail posts 115. Hydraulic brace legs 130 can then be connected to first linear roller carts 120 and first corner rail carts 120. Additional crossing braces 135 can also be connected to hydraulic brace legs 130. Linking tube 140 can be connected to the first linear roller cart 120 or first corner roller cart 125 at or near the bottom end, and secured at an aperture (not shown). The linking tube 140 can also be connected to a second roller cart 120 or second corner roller cart 125 at or near the top end, and secured at another aperture (not shown).
After the hydraulic brace legs 130 are connected to the first linear roller carts 120 and first corner roller carts 125, a second set of lower elongated panels (not shown) can be slideably positioned in the additional recessed groove or track 190, 191 that can function as track of the linear slide-rail post 110 or the additional recessed groove or track 150, 151 that can function as track of the corner slide rail posts 115. Hydraulic brace legs 130 can be connected to the second roller carts 120 and second corner rail carts 125. Additional crossing braces 135 can also be connected to the hydraulic brace legs 130.
After the hydraulic brace legs 130 are connected to the second roller carts 120 and second corner rail carts 125, one of the two lower elongated panels connected to the slide posts 110 and 115 can be forced further into the ground using any machinery capable of generating enough downward force such as a backhoe.
After the entire perimeter of one set of lower side rail panels 105 is lowered, the area inside is excavated again and the system of roller carts 120, corner roller carts 125, linear slide rail posts 110, corner slide rail posts 115, hydraulic brace legs 130 and crossing braces 135 can be lowered to the base of the excavated area. First upper side rail panels 106 can be slideably positioned in grove 190, 191 of the linear slide rail posts and groove 150, 151 corner slide rail posts 200 such that the first upper side rail panels 106 are in the same grove as the lower side rail panel that has not been forced further into the ground.
After the first upper side rail panels 106 are in place, the first upper side rail panel 106 and the lower side rail panel 105 can be forced further into the ground until the first lower side rail panels 105 and the second lower side rail panels 105 are at substantially the same depth. A second upper side rail panel 106 can be inserted in the grove 150, 151, 190, 191 that is not occupied by the first upper side rail panel 106. This process can be repeated until the depth of the excavated area is 3, 4, 5, or more panels deep.
The corner linear roller cart 120 and the corner roller cart 125 can provide for improved operator safety during the installation and removal of excavation support systems 100, such as slide-rail post trench shoring systems, because the interface between the operator and heavy equipment, such as the hydraulic brace legs 130 can be minimized during this process. Moreover, improvements in efficiency can be realized with a faster mechanical installation and removal process versus a manual process.
Embodiments of the present disclosure further relate to any one or more of the following paragraphs 1 to 20:
1. An excavation support system, comprising: a plurality of linear slide-rail posts, each linear slide-rail post having at least one recessed groove formed in a longitudinal axis thereof; a plurality of corner slide-rail posts, each corner slide-rail post having two substantially parallel recessed grooves formed in a longitudinal axis thereof, wherein the two substantially parallel recessed grooves define an angle therebetween; at least one slide-rail panel having opposing first and second ends, wherein the first end is disposed within the recessed groove of the linear slide-rail post and the second end is disposed within one of the recessed grooves of the corner slide-rail posts; at least one linear roller cart, having at least one roller attached thereto, adapted to slide onto the linear slide-rail post and secure thereto, the linear roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein the linear roller cart is movable in an upward and downward direction relative to the vertical axis of the linear slide-rail post without interference from the slide-rail panel; and at least one corner roller cart having at least one roller attached thereto, adapted to slide onto the corner slide-rail post and secure thereto, the corner roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein each corner roller cart is movable in an upward and downward direction relative to the vertical axis of the corner slide-rail post.
2. The excavation support system according to paragraph 1, wherein the linear roller cart comprises a generally vertical back plate having a front surface and a back surface, wherein the at least one roller is attached to the back plate, extending from the back surface thereof.
3. The excavation support system according to paragraphs 1 or 2, wherein the corner roller cart comprises a generally vertical back plate having a front surface and a back surface, wherein the at least one roller is attached to the back plate, extending from the back surface thereof.
4. The excavation support system according to any one or more paragraphs 1 to 3, wherein the two substantially parallel recessed grooves formed in the longitudinal axis of the corner slide-rail post define an approximate 90-degree angle therebetween.
5. The excavation support system according to any one or more paragraphs 1 to 4, wherein each linear slide-rail post further comprises an extended faceplate disposed along the longitudinal axis thereof.
6. The excavation support system according to any one or more paragraphs 1 to 5, wherein the corner slide-rail posts further comprise an extended faceplate disposed along the longitudinal axis thereof.
7. The excavation support system according to paragraph 5, wherein the corner roller cart further comprises a plurality of guide plates, wherein the guide plates are configured to slide onto and secure to the extended faceplate of the linear slide-rail post, and wherein the guide plates are configured to facilitate slideable movement of the corner slide cart in an upward and downward direction relative to the vertical axis of the linear slide-rail post.
8. The excavation system according to any one or more paragraphs 5 to 7, wherein the corner roller cart further comprises a plurality of guide plates, wherein the guide plates are configured to slide onto and secure to the extended faceplate of the corner slide-rail post, and wherein the guide posts are configured to facilitate slideable movement of the corner slide cart in an upward and downward direction relative to the vertical axis of the corner slide-rail post.
9. The excavation system according to any one or more paragraphs 1 to 8, wherein the corner roller cart further comprises a corner swivel brace, wherein the corner swivel braces comprises a generally vertical support configured to connect ends of two hydraulic brace legs, forming an angle therebetween.
10. The excavation system according to any one or more paragraphs 1 to 9, wherein the generally vertical support is a generally vertical teardrop support.
11. The excavation system according to any paragraph 9 to 10, wherein the angle between the two hydraulic brace legs is about 90-degrees.
12. The excavation system according to any one or more paragraphs 1 to 11, wherein the corner roller cart further comprises a linking tube, wherein the linking tube is configured to connect two corner roller carts to one another when vertically aligned.
13. The excavation system according to any one or more paragraphs 1 to 12, wherein the linear roller cart further comprises a linking tube, wherein the linking tube is configured to connect two linear roller carts to one another when vertically aligned.
14. A method for installing an excavation support system, comprising: assembling a base structure in a pre-excavation trench, wherein the base structure comprises: a plurality of linear slide-rail posts, each linear slide-rail post having at least one recessed groove formed in a longitudinal axis thereof; a plurality of corner slide-rail posts, each corner slide rail post having two substantially parallel recessed grooves formed in a longitudinal axis thereof, wherein the two substantially parallel recessed grooves define an angle therebetween; a plurality of slide-rail panels having opposing first and second ends, wherein the first end is disposed within one of the recessed grooves of the linear slide-rail posts and the second end is disposed within one of the recessed grooves of the corner slide-rail posts; disposing at least one linear roller cart, having at least one roller attached thereto, onto at least one of the plurality of linear slide-rail posts, wherein the at least one linear roller cart is adapted to slide onto the linear slide-rail post and secure thereto, the linear roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein the linear roller cart is movable in an upward and downward direction relative to the vertical axis of the linear slide-rail; and disposing at least one corner roller cart, having at least one roller attached thereto, onto at least one of the plurality of corner slide-rail posts, wherein the at least one corner roller cart is adapted to slide onto the corner slide-rail post and secure thereto, the corner roller cart comprising a generally horizontal plate for supporting at least one hydraulic brace leg, wherein each corner roller cart is movable in an upward and downward direction relative to the vertical axis of the corner slide-rail post.
15. The method according to paragraph 14, further comprising disposing a beam onto each of the at least one linear roller carts disposed onto each of the plurality of linear slide-rail posts.
16. The method according to paragraph 14 or 15, further comprising securing a plurality of corner connections of the hydraulic brace legs, wherein each corner connection forms an approximate 90-degree angle.
17. The method according to any one or more paragraphs 14 to 16, further comprising securing a plurality of knee brace or crossing brace connections, wherein each knee brace or crossing brace is disposed in a generally diagonal orientation proximate each hydraulic brace leg corner connection.
18. The method according to any one or more paragraphs 14 to 17, further comprising connecting a generally vertical linking tube to each linear roller cart, wherein the linking tube is configured to vertically connect each linear roller cart to an additional linear roller cart, and wherein the linking tube has a top end and a bottom end.
19. The method according to any one or more paragraphs 14 to 18, further comprising connecting a generally vertical linking tube to each corner roller cart, wherein the linking tube is configured to vertically connect each corner roller cart to an additional corner roller cart, and wherein the linking tube has a top end and a bottom end.
20. The method according to any one or more paragraphs 14 to 19, further comprising installing a second plurality of slide-rail panels.
Certain embodiments and features have been described using a set of numerical upper limits and a set of numerical lower limits. It should be appreciated that ranges including the combination of any two values, e.g., the combination of any lower value with any upper value, the combination of any two lower values, and/or the combination of any two upper values are contemplated unless otherwise indicated. Certain lower limits, upper limits and ranges appear in one or more claims below. All numerical values are “about” or “approximately” the indicated value, and take into account experimental error and variations that would be expected by a person having ordinary skill in the art.
Various terms have been defined above. To the extent a term used in a claim is not defined above, it should be given the broadest definition persons in the pertinent art have given that term as reflected in at least one printed publication or issued patent. Furthermore, all patents, patent application publications, test procedures, and other documents cited in this application are fully incorporated by reference herein to the extent such disclosure is not inconsistent with this application and for all jurisdictions in which such incorporation is permitted.
While the foregoing has been disclosed and described in preferred forms with a certain degree of particularity, it is understood that the present disclosure of the preferred forms is only by way of example and that numerous changes in the details of operation and in the combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention, which is defined by the claims that follow.
While the foregoing has been disclosed and described in preferred forms with a certain degree of particularity, it is understood that the present disclosure of the preferred forms is only by way of example and that numerous changes in the details of operation and in the combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention, which is defined by the claims that follow.
This application is a continuation of co-pending U.S. patent application Ser. No. 16/193,615, filed on Nov. 16, 2018, which claims priority to U.S. Provisional Patent Application No. 62/589,888, filed on Nov. 22, 2017, which are both incorporated by reference herein.
Number | Date | Country | |
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62589888 | Nov 2017 | US |
Number | Date | Country | |
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Parent | 16193615 | Nov 2018 | US |
Child | 16551215 | US |