JP2014517170A - Frame support - Google Patents

Abstract

A frame support that can be used for inspection platforms, plants and equipment, prefab building, and structures. Installation is carried out in three main stages, starting with fixing a lightweight threaded base inside a pre-prepared hole, then a load bearing member is attached to the base and threaded and threaded It is adjusted by the color. Then, the threaded base, the threaded collar, and the protruding portion of the load bearing member are substantially wrapped in concrete or a chemical compound to complete the installation.
[Selection] Figure 1

Description

  The present invention relates to a frame support used in inspection platforms, plants and equipment, prefabricated buildings and structures.

  In construction and maintenance operations in the vicinity of hazardous areas such as motorway embankments and railway cut slopes (eg bridge inspection and maintenance), installation of permanent or temporary platforms is generally required. They provide a safe work area with horizontal surfaces and protective walls, and keep away from the hazards of adjacent hazards (ie motorways or railways). However, in general, the embankments of motorways and the cut slopes of railways are inclined with irregular surfaces, making it difficult to construct the platform. A particularly difficult situation occurs in the installation of large platforms where multiple supports must be accurately aligned in three dimensions.

  Currently, various types of frame supports are used, such as driven columns and piles, screw piles, supports embedded in concrete. However, all of these tend to suffer from inaccuracies. Depending on the requirements, this may result in subsequent adjustments with associated costs and delays.

  The driven pillars or piles and screw piles are usually installed in a dedicated plant. The plant must be transported to the site and positioned adjacent or close to the installation point, leading to the costs and risks necessary for proper access.

  Embedding the support in concrete avoids the need for a dedicated plant. However, accuracy usually depends on the usage of the formwork or support. The formwork or support must be installed and then removed or left in place, adding complexity, cost and time throughout the installation process.

  Frames associated with such types of supports typically incorporate some range of adjustment. However, that limit is often exceeded in irregular, undulating or inclined locations, especially in complex installations involving vertical adjustment.

  All types of frame supports described above can be assisted by load-bearing screw jacks, which are placed between the support and the frame for vertical adjustment. However, these typically result in a significant increase in cost due to the thread size and associated components required for load bearing. In addition, they are prone to unauthorized use.

  According to the present invention, the installation is carried out in three main stages, starting with fixing a lightened and threaded base in a prepared hole. A load-bearing member is then attached to the base and adjusted by a thread and a threaded collar. Then, the threaded base, the threaded collar, and the protrusion of the load bearing member are substantially encased in concrete or a chemical compound, completing the installation.

  Typically, installation may be completed with hand tools, avoiding the need to transfer heavy plants to or from the site, along with associated costs and risks.

  Since the threaded base does not withstand the load (except for the weight of the load bearing member and threaded collar at installation), the base may be smaller than a conventional screw jack. Thus, this avoids a significant increase in cost while providing the same benefits as a load bearing screw jack. Further, when installation is complete, the base is substantially encased in concrete or chemical compounds, thus avoiding the risk of tampering.

  The advantages of the present invention appear to be greatest when there is a need to accurately adjust multiple supports in irregular, undulating or inclined locations where access is restricted. There is no requirement for heavy or dedicated plants, formwork, struts or load bearing screw jacks, so that installation can be completed without the associated complexity, danger, time and cost.

  The present invention provides frame supports and methods for installing them that allow for accurate positioning in three dimensions without the need for dedicated equipment.

The first aspect of the present invention is
(I) a base comprising an elongated member having a threaded outer surface;
(Ii) a threaded collar dimensioned to mate with the threaded outer surface of the elongate member;
(Iii) a load bearing member attachable to the threaded collar;
A frame support is provided.

  The load bearing member may include a protrusion that is attachable to the threaded collar. The protrusion may contact or connect directly or indirectly to the threaded collar. Similarly, the protrusion may contact or connect directly or indirectly to the load bearing member. For example, the protrusion may be separated from the threaded collar by a washer, spacer or the like, and / or the protrusion may be separated from the load bearing member. In one embodiment, the protrusion comprises a flange. The load bearing member may comprise a support surface and the frame may be attached directly or indirectly to the support surface.

  The load bearing member may include a hollow member having an internal gap larger than the outer diameter of the elongated member of the base, a protrusion at the lower end, and a support surface at the upper end. The hollow member may have a square, rectangular or circular cross section, for example.

  On the elongated member, the height of the threaded collar may be adjustable. The load bearing member may engage the threaded collar so that rotation of the threaded collar about the base elongate member provides a means to adjust the height of the load bearing member.

  A structure may be provided that engages the load bearing member and the threaded collar so that the load bearing member provides rotation of the threaded collar. The engagement structure of the load bearing member may include a bolt.

  The threaded collar may comprise a nut. The threaded collar may be integral with the load bearing member and / or the protrusion. Alternatively, the threaded collar may be separated from the load bearing member and / or protrusion. Alternatively, the protrusion and the threaded collar may be joined, for example, by welding.

  The base may further comprise one or more openings into which fasteners are inserted to secure the base to the ground. The frame support may further comprise fasteners, such as pins or bolts.

According to a preferred aspect of the present invention,
(I) a base comprising an elongated member having a threaded outer surface;
(Ii) a threaded collar dimensioned to engage the threaded outer surface of the elongate member;
(Iii) a load bearing member attachable to a threaded collar, wherein the load bearing member comprises a protrusion and a load bearing member,
Rotation of the threaded collar about the base elongated member, wherein the load bearing member engages the threaded collar so that rotation of the load bearing member provides a means to adjust the height of the load bearing member And in use, a frame support is provided in which the base, the threaded collar, and the protrusion of the load bearing member are substantially encased.

  In its assembled form, it means that some of the components of the frame support can be interconnected, meaning that any one or all of the components need not be in direct contact Should be understood. For example, the load bearing member may comprise a support surface and the frame may be directly or indirectly attached to the support surface. Similarly, the protrusions may be separated from the threaded collar by, for example, washers, spacers, or the like. Similarly, the protrusion may be separated from the load bearing member by, for example, a washer, spacer, or the like.

  A second aspect of the present invention provides a frame assembly comprising one or more frame supports and a frame supported by the one or more frame supports according to any one of claims 1 to 15. To do. A single frame support may be sufficient to support a small frame, while at least three, four or more supports may be required for a large frame. is there.

  The weight of the frame is received through the load bearing member rather than the base.

  The frame may be secured to one or more frame supports by welding or by bolts or other fasteners.

The third aspect of the present invention is
(I) attaching a base comprising an elongated member having a threaded outer surface to a pre-prepared hole;
(Ii) fixing the base in the hole;
(Iii) fitting a load bearing member onto the threaded base;
(Iv) adjusting the height of the load bearing member with a threaded collar dimensioned to engage the threaded outer surface of the elongate member;
(V) filling the hole so as to at least substantially wrap the base, the threaded collar, and the bottom of the load bearing member.

  This method allows the frame support to be easily adjusted in three dimensions. The base may be accurately positioned horizontally within the hole. When the base is fixed, adjustment of the threaded collar allows for vertical adjustment.

  The bottom of the load bearing member may include a protrusion, such as a flange. The protrusion may contact or connect directly or indirectly to the threaded collar. Similarly, the protrusion may contact or connect directly or indirectly to the load bearing member. For example, the protrusion may be separated from the threaded collar by a washer, spacer, or the like, and / or the protrusion may be separated from the load bearing member. Substantially enveloping the protrusion allows the protrusion to perform the function of an anchor. Therefore, once encased, the protrusion supports the load of the frame attached to the support.

  The step of securing the base may include partially filling the base with concrete or a chemical compound. The concrete may include dry-mixed concrete or wet-mixed concrete. Dry construction concrete offers the advantages of convenience and speed. The chemical compound can preferably set sufficiently to support the base in place. Alternatively, securing the base includes securing the base to the bottom of the hole using a fastener, such as a pin or bolt.

  Filling the hole to at least substantially wrap the base, the threaded collar, and the bottom of the load bearing member may include substantially filling the hole with concrete or a chemical compound. The concrete may include dry method concrete or wet method concrete. The chemical compound is preferably capable of supporting the load bearing member in place once the chemical compound reaches full strength.

  The method may comprise attaching the frame directly or indirectly to the exposed portion of the load bearing member.

  Frame supports and methods of installing the same include platforms on irregular, sloping or undulating ground, such as platforms adjacent to inspection platforms adjacent to highways and railways and reservoirs for water sampling It is particularly suitable for supporting. Furthermore, the apparatus and method are suitable for supporting plants and equipment, prefabricated buildings and structures.

According to a preferred aspect of the present invention,
(I) attaching a base comprising an elongate member having a threaded outer surface within a pre-prepared hole;
(Ii) fixing the base in the hole;
(Iii) fitting a load bearing member comprising a protrusion onto a threaded base;
(Iv) adjusting the height of the load bearing member with a threaded collar dimensioned to engage the threaded outer surface of the elongate member;
(V) filling the hole to at least substantially wrap the base, the threaded collar, and the protrusion of the load bearing member;
A method for installing a frame support is provided.

  The preferred structures of the second and third aspects of the present invention may relate to the first aspect as described above.

  Throughout the description and claims, the words “comprise” and “contin” and variations of the words, for example, “comprising” and “comprises”, mean “inclusion but not limited to” Do not exclude other parts, additions, configurations, integers or steps.

  Throughout this description and the claims, the singular includes the plural unless the context otherwise requires. In particular, where indefinite articles are used, the specification should be understood to be plural as well as singular unless the context requires otherwise.

  Other configurations of the present invention will become apparent from the following examples. In general, the present invention extends to any novel or any novel combination of features disclosed herein (including any appended claims and drawings). Thus, any configuration, integer, feature, or mixture described in connection with a particular aspect, embodiment or example of the present invention, unless otherwise specified, can be any other aspect, embodiment or implementation described herein. It should be understood that it can be applied to examples.

  Further, unless otherwise specified, any configuration disclosed herein may be replaced by an alternative configuration that serves the same or a similar purpose.

  The present invention is shown by way of example only with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view of an assembled frame support according to the invention. It is a figure which shows the installation method of a frame support body.

  FIG. 1 shows an assembled frame support consisting of a base with an elongated member having a threaded outer surface 1, a threaded collar 2 and a load bearing member 3 on which a flange 4 is mounted. A bolt 5 attached to the flange 4 engages the threaded collar 2 and provides a means for adjusting the height of the load bearing member 3 when it is rotated. Since the bolt 5 engages the threaded collar feature, rotation of the load bearing member results in rotation of the threaded collar. Alternatively, engagement of multiple features of the load bearing member and the threaded collar may be used, or the load bearing member and the threaded collar may be joined, for example, by welding.

  The frame support is placed in a pre-prepared hole 6 that is filled with dry concrete in two stages, stage 7 and subsequent stage 8 (see FIG. 2). Subsequently, the assembly of the frame support is attached to the frame 9.

FIG. 2 shows a method for installing a pair of frame supports consisting of the following steps shown in the order of A to G.
A: Prepare the hole 6 for the frame support at the required position.
B: Place a layer of concrete 7 at the bottom of each hole.
C: With the base buried in the concrete, the base 1 and the threaded collar 2 are positioned at the bottom of each hole.
D: When the concrete is partially cured and sufficient strength to prevent movement is obtained, the load bearing member 3 is adjusted to each base.
E: Adjust the height of the load bearing member by rotating the threaded collar on the base. The load bearing member is rotated so that the threaded collar engages the bolt 5 attached to the flange 4.
F: The base, the threaded collar, and the flange of each load bearing member are substantially wrapped with concrete 8.
G: When the concrete is partially cured and has sufficient strength to prevent movement, the frame 9 is attached to each load bearing member.

Claims (35)

A frame support,
(I) a base comprising an elongated member having a threaded outer surface;
(Ii) a threaded collar dimensioned to engage the threaded outer surface of the elongate member;
(Iii) a load bearing member attachable to the threaded collar, the load bearing member comprising a protrusion, and a load bearing member.
The threading around the elongated member of the base, wherein the load bearing member engages the threaded collar so that rotation of the load bearing member provides a means to adjust the height of the load bearing member. Effected color rotation,
In use, the frame support wherein the base, the threaded collar, and the protrusion of the load bearing member are substantially encased.   The frame support of claim 1, wherein the protrusion is attachable to the threaded collar.   The frame support according to claim 1 or 2, wherein the protrusion is separated from the threaded collar by a washer, a spacer, or the like.   The frame support according to claim 1 or 2, wherein the protruding portion and the threaded collar are in direct contact or connection.   The frame support according to any one of claims 1 to 4, wherein the protruding portion and the load bearing member are in contact or connected directly or indirectly.   The frame support according to claim 1, wherein the protrusion includes a flange.   The frame support according to any one of claims 1 to 6, wherein the load bearing member includes a support surface, and the frame is directly or indirectly attached to the support surface.   The load bearing member includes a hole having an internal gap larger than the outer diameter of the elongated member of the base, the protrusion is at the lower end of the load bearing member, and the support surface is at the upper end of the load bearing member. The frame support according to any one of claims 1 to 7.   9. A frame support according to any preceding claim, wherein the height of the threaded collar on the elongate member is adjustable.   10. A frame support according to any preceding claim, wherein the threaded collar comprises a nut.   11. A frame support according to any one of the preceding claims, wherein the threaded collar is integral with the load bearing member and / or protrusion.   11. A frame support according to any one of the preceding claims, wherein the threaded collar is not integral with the load bearing member and / or protrusion.   The frame support according to any one of claims 1 to 12, wherein the base further includes one or more openings into which fasteners can be inserted to fix the base to the ground.   The frame support according to claim 13, further comprising a fastener.   15. A frame support according to claim 14, wherein the fastener is selected from the group of pins and bolts.   16. A frame assembly comprising one or more frame supports according to any one of claims 1 to 15 and a frame supported by the one or more frame supports.   The frame assembly of claim 16, wherein the weight of the platform is supported by the load bearing member of the frame support.   18. A frame assembly according to claim 16 or 17, wherein the frame is fixed to the one or more frame supports by welding or by bolts or other fasteners. A method of installing a frame support,
(I) attaching a base comprising an elongate member having a threaded outer surface within a pre-prepared hole;
(Ii) fixing the base in the hole;
(Iii) fitting a load bearing member comprising a protrusion onto the threaded base;
(Iv) adjusting the height of the load bearing member with a threaded collar dimensioned to engage the threaded outer surface of the elongate member;
(V) filling the hole to at least substantially enclose the base, the threaded collar, and the protrusion of the load bearing member;
Including methods.   The method of claim 19, wherein fixing the base comprises embedding the base in concrete or a chemical compound.   21. The method of claim 20, wherein the concrete comprises dry construction concrete.   21. The method of claim 20, wherein the concrete comprises wet method concrete.   The method of claim 19, wherein the step of securing the base includes securing the base to the bottom of the hole using a fastener.   24. The method of claim 23, wherein the fastener comprises a pin or bolt.   20. The method of claim 19, wherein the protrusion is separated from the threaded collar by a washer, spacer, or the like.   The method of claim 19, wherein the protrusion directly contacts or couples to the threaded collar.   20. The method of claim 19, wherein the protrusion and the load bearing member contact or connect directly or indirectly.   28. A method according to any one of claims 19, 25, 26, 27, wherein the protrusion comprises a flange.   The method of claim 19, wherein the hole is substantially filled with concrete or a chemical compound.   30. The method of claim 29, wherein the concrete comprises dry construction concrete.   30. The method of claim 29, wherein the concrete comprises wet method concrete.   32. A method according to any one of claims 19 to 31, comprising the step of attaching a frame directly or indirectly to an exposed portion of the load bearing member.   A frame support substantially as herein described with reference to the accompanying explanatory drawings.   A frame assembly substantially as herein described with reference to the accompanying explanatory drawings.   A method of installing a frame support substantially as herein described with reference to the accompanying explanatory drawings.

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