• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a system and method for tensioning struts by incorporating, or replacing with, improved filling material. Specifically, the method consists in removing in a zone the sheath that covers the tie rod and the cement slurry (if these elements are available) and leaving it clean, placing a formwork around which the improved filling material is injected, which allows, once set, to have an area with improved resistance and adhesion to be able to place on it some clamps at the ends and from them yoke-shaped structures joined together by post-tensioning bars or tendons, on which they act hydraulic cylinders to release tension from the tie and pass it to the post-tensioning bars or tendons and therefore be able to cut the strands or wires of the straps, to subsequently relax the hydraulic cylinders in stages until the strap is fully tensioned. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2735145A1
    申请号:ES201830573
    申请日:2018-06-12
    公开日:2019-12-16
    发明作者:Villa José Manuel Illescas;Moya Juan Manuel Linero;Salcedo José Martinez
    申请人:FCC Construction SA;
    IPC主号:
    专利说明:

    [0001]
    [0002] System and procedure for weaning braces by incorporation of, or replacement by, improved filling material
    [0003]
    [0004] Field of the Invention
    [0005]
    [0006] The invention relates to a system and a method for weaning braces where in a given area the padding material is replaced by another one with improved features or said padding material is incorporated into the brace if it initially lacked it.
    [0007] Background of the invention
    [0008]
    [0009] In the state of the art some systems related to the disassembly or replacement of prestressed cables are known as those described in the following documents.
    [0010]
    [0011] US6701599 B2 for the disassembly of a prestressing cable that has a sheath, where the tensioner extends into the sheath and is tensioned between two anchoring devices, and a hardened material fills the wrap around the tendons.
    [0012]
    [0013] Spanish patent ES2377716 T3 proposes a method of disassembling a tensioned cable between a first and a second anchor points in a structure that includes the steps of releasing a cable opening from said first and second anchor points; support said cable opening; and removing said distance from the cable at a distance from at least one of said first and second anchor points.
    [0014]
    [0015] Document US 9021644 B2 describes a method for replacing a cable of a structure, a suspension bridge type with towers in its structure, which involves placing a set of temporary mobile hangers on the upper cable to which you want to replace, the cable is placed to replace in the lower part of these hangers and the cable of the anchors is removed, in such a way that it is maintained thanks to the upper cable. The hangers are moved towards the bridge deck to remove the cable to be replaced.
    [0016]
    [0017] Description of the invention
    [0018]
    [0019] The present invention relates to a stripping system of braces (100) by incorporating or replacing with improved filler material (125), in a given area, which is formed by:
    [0020] - a formwork in two or more parts (130) arranged to be placed around an area of the tie rod (100) to which the sheath (110) and the cement slurry has previously been removed, if these elements are available, leaving Clean the cords or wires (120) of the tie rod (100), where said formwork (130) is arranged to be able to inject a filler material (125) which, once set, provides an area of improved strength and adhesion,
    [0021]
    [0022] - two clamps (145) arranged to be placed each on one side of the strap area (100) with clean cords or wires (120), on the area of improved strength and adhesion, on the formwork tube (130) ,
    [0023]
    [0024] - two yoke-shaped structures (160) arranged to be placed one on each outer side of each clamp (145) and around the strap (100),
    [0025]
    [0026] - at least two post-tensioning bars or tendons (165) arranged to join together both yoke-shaped structures (160),
    [0027]
    [0028] - a hydraulic cylinder (180) arranged in each post-tensioning bar or tendon (165), supported by the yoke-shaped structures (160), arranged to transfer, when acting on them, the load of the tie rod (100) to the post-tensioning bars or tendons (100) and where each hydraulic cylinder (180) can incorporate a testing bridge (185) arranged to retain the load transferred to the post-tensioning bars or tendons (165) when acting on them (185).
    [0029]
    [0030] On the other hand, the invention also relates to a method of stripping of the tie (100) anchored and covered with sheath (110) and cement grout or other type of protections incorporating the following steps:
    [0031]
    [0032] to. removal of the sheath (110) that covers the strap (100), if available, in an area of its free length,
    [0033]
    [0034] b. removal of the cement slurry or other filler, if available, from the area where the sheath (110) has been removed until the cords or wires (120) of the tie rod (100) are cleaned,
    [0035]
    [0036] c. place the parts of a formwork (130) around the clean cords or wires (120),
    [0037]
    [0038] d. injecting a filling material (125) into said formwork (130) which, once set, provide an area of improved strength and adhesion,
    [0039]
    [0040] and. place two clamps (145), one at each end of the clean area of the tie rod (100),
    [0041] F. place two yoke-shaped structures (160), one on each side on the outside of each clamp (145) and around the strap (100),
    [0042]
    [0043] g. joining both yoke-shaped structures (160) to each other by means of at least two post-tensioning bars or tendons (165),
    [0044]
    [0045] h. Actuate hydraulic cylinders (180) arranged in the post-tensioning bars or tendons (165), on the outside of the yoke-shaped structures (160), to transfer the load of the tie rod (100) to the post-tensioning bars or tendons (165), where the cylinders (180) are operated until the strength of the tie rod is reached,
    [0046]
    [0047] i. retain the load transferred to the post-tensioning bars and tendons (165) acting on a test bridge (185) that incorporates each cylinder (180),
    [0048]
    [0049] j. cut the strands or wires of the strap (100).
    [0050]
    [0051] k. Relax the hydraulic cylinders (180) in stages until the tie rod (100) is completely weaned.
    [0052]
    [0053] In contrast to self-protected cord straps, in which cord-to-cord weaning is normally possible for total disassembly or replacement, with the present invention, in the weaning of straps that mainly consist of wires, cords or other types of elements supports, where the braces can be covered by a collective sheath of steel, polyethylene or the like, the interface between the cords, wires or supporting elements and the sheath can be injected or not with cement slurry or other material, which acts as an element of filling and protection against corrosion, there may also be other types of internal coatings for each element or groups of them, such as resin and microspheres in the anchorage area, and cement slurry in the free length require a different treatment that It is not contemplated in the state of the art.
    [0054]
    [0055] This situation makes it necessary for its weaning to act on the brace (100) as a whole, either from the rear part of it by means of a multifilar jack, or acting on the free length of the brace by transferring the load of the brace to tendons or bars of post-tensioned by friction clamps.
    [0056] Therefore, the proposed system and method allows the incorporation of a material with improved characteristics onto the brace on which fixing or retaining elements can be placed to create auxiliary anchor points on which it is possible to act to transfer the load of the strap to others secondary or support elements for the weaning of it.
    [0057]
    [0058] As can be seen, unlike existing solutions, with the present invention, weaning can be carried out on struts that are injected with resin and / or microspheres in the anchorage area, and cement slurry in the free length, allowing act on the tie rod as a whole acting on the free length of the tie rod by transferring the load of the tie rod to tendons or post-tensioning bars by means of friction clamps fixed to the improved filling material incorporated into an area of the strap.
    [0059]
    [0060] The present invention also allows the weaning, by means of improved filling material and friction clamp, in those braces of any type in which it is not possible to connect to the back part of the anchor due to lack of sufficient length of the cords after anchoring , or for other reasons in general, whether they are straps formed by self-protected cords or by cords, wires or other types of cable with any type of protection, regardless of the type of anchorage they have (wedges, wedges plus resin, cold-stressed buttons, etc.)
    [0061]
    [0062] These and other advantages are apparent in light of the detailed description of the invention.
    [0063]
    [0064] Brief description of the drawings
    [0065]
    [0066] Figure 1 shows an example of a tie rod that could be forming part of a bridge or similar structure, where said tie rod is observed anchored in its lower part to a board (in the upper part it will be a pylon) at whose exit a element that concentrates the bundle of strands or straps wires. This figure shows an operator who could be performing the discovery phase of the sheath of the tie rod and removal of the cement slurry, or other filler material, adhered to the strands or wires of the tie rod.
    [0067]
    [0068] Figure 2 shows an example of the detail of a brace where it can be seen that the sheath covering it has been removed, as well as the cement slurry, or other filler material, leaving the cords or wires accessible.
    [0069]
    [0070] Figure 3 shows an example similar to Figure 1, where, after stripping the sheath of the tie rod and cleaning the cement slurry, or other filler material, a two-piece tube has been placed around the cords or wires and inside which said tube is injected High strength resin so that the area has an appropriate strength and adhesion to use the retention clamps.
    [0071]
    [0072] Figure 4A shows an example of the front detail and Figure 4B a section of half a tube placed around the cords or wires, used to be able to inject high-strength resin inside, being there arranged to subsequently place on it the friction clamp .
    [0073]
    [0074] Figure 5 shows an example of the detail of a tie with the tube intended to inject high strength resin inside and where the temporary clamps for holding the tube and fittings for injecting the resin are observed.
    [0075]
    [0076] Figure 6 shows an example of the detail of a section of a friction clamp composed of two pieces joined by threaded bars and placed around a strut devoid of its sheath, if provided with it, and the cement slurry, or another filling material, with its material of improved filling material and the formwork tube in two parts.
    [0077]
    [0078] Figure 7 shows an example of the detail of a side view of a friction clamp for braces composed of two pieces and joined by threaded bars.
    [0079]
    [0080] Figure 8 shows an example of the detail of a top view of one of the yokes that are part of the system, which hold two bars or tendons of post-tensioning and in the middle, crossing the yoke, the weaning strap.
    [0081]
    [0082] Figure 9 shows a cross-section of the yoke, where the threaded bars and fastening screws, the two post-tension bars or braces and, in the center, the space occupied by the brace to be weaned are appreciated.
    [0083]
    [0084] Figure 10 shows the detail of a top view of the system where the brace to be weaned, both yokes, both retention clamps on the area of improved filling material and the two hydraulic cylinders intended to exert force on the bars or tendons of posts that cross both yokes.
    [0085]
    [0086] Figure 11 shows the detail of a side view of the system where the tie rod to be seen, the yokes, the retention clamps on the area of improved filling material and the hydraulic cylinders intended to exert force on the post-tensioning bars they pass through both yokes.
    [0087] Detailed description of the invention
    [0088]
    [0089] The elements defined in this detailed description are provided to help a global understanding of the invention. Accordingly, those skilled in the art will recognize that variations and modifications of the embodiments described herein can be made without departing from the scope and spirit of the invention. In addition, the detailed description of sufficiently known functions and elements are omitted for reasons of clarity and conciseness.
    [0090]
    [0091] The invention relates to a system and method for weaning braces (100) by incorporating, or replacing with, improved filler material.
    [0092]
    [0093] The system is adapted for structural elements composed of the braces (100) to be weathered, which usually include an adjustable active anchor and an unregulated passive anchor. It is common for both anchors to be protected by an enveloping bonnet filled with grease or wax in the case of active anchorage and filled with cement slurry or also grease or wax in the case of passive anchoring.
    [0094]
    [0095] A centering element (105) is usually provided in the exit zone of the shoulder strap (100) of the pylon (200) and of the board (300) to concentrate the bundle of cords or wires (120). The free length of the strap (100) is covered with a collective sheath (110) of High Density Polyethylene (HDPE) or other generally plastic, or metallic material, and is injected with cement slurry or other protective material.
    [0096]
    [0097] Unlike self-protected cord straps, in which cord-to-cord weaning is normally possible for total disassembly or replacement, the straps (100) that are injected with resin and microspheres in the anchorage area or other type of collective fill , and cement grout, or similar material, in free length require a different treatment. This situation makes it necessary for its weaning to act on the brace (100) as a whole, either from the rear of the same by means of a multifilar jack, or acting on the free length of the brace by transferring the load of the brace to bars or tendons of post-tensioned by friction clamps, although the latter is usually not possible, since the strength and adhesion characteristics of the free-length filler materials or the strands or straps of the straps themselves do not allow the forces of the straps to be transferred by friction . That is why the present invention entails an improvement in the strength and adhesion of the filler material, by incorporation of, or substitution by, a filler material of improved characteristics,
    [0098] Weaning by means of improved filling material and friction clamp is used in those braces (100), be they injected cords or wires, self-protected cords, etc., in which it is not possible to connect to the back part of the anchor due to lack of sufficient length of the laces after anchoring, or for other reasons in general. In the procedure to be carried out, firstly, and as can be seen in Figs. 1 and 2, the protection sheath (110) is cut, if the strap was provided with that element, in the free length of the strap (100) in the lower area near the board (300) or in another area if convenient. For this, a length of several meters is discovered, which can be approximately 3m in length and a centered area of that uncovered area is cleaned, which can be approximately 2.65m, until the remains of the cement slurry are completely removed , or other filler material, attached to the cords or wires (120). Cleaning of both the outer and inner cords or wires (120) can preferably be carried out with a water jet.
    [0099]
    [0100] Once this area is cleaned, and as a main feature of the invention, an improved material is injected, usually consisting of a resin-based material or the like with or without aggregate loading in order to guarantee an area with improved strength and adhesion, suitable for placing friction or retention clamps in said areas.
    [0101]
    [0102] To proceed with the incorporation of the filling, as seen in Fig. 3 and 5, auxiliary elements are installed that form formwork at both ends, such as metal tube halves (130), leaving a free area and without injecting between both sides to be able to operate later for the cutting of the supporting elements or cords (120) of the strap (100).
    [0103]
    [0104] The two halves of the tube are joined with provisional flanges (135) and a special filling material, for example resin, is injected inside through some fittings (140) located along the tube. Between the two halves of the tube (130), in its lateral joining areas, there are wedge plates and a seal. An example of said tube (130) and its section is shown in Figs. 4A and 4B.
    [0105]
    [0106] Once the filling material is set, the fittings (140) and the provisional flanges (135) of the tube (130) are removed and the two upper and lower clamps (145), consisting of two parts (150) are installed ) joined by threaded bars (155). The tightening of the threaded bars (155) so that the tie rod (100) is secured is preferably performed with a tensioner acting in a distributed and progressive manner on each of them (155).
    [0107] Subsequently, a yoke-shaped reaction structure (160) is installed as shown in Figs. 8 and 9 and which supports both clamps (145) above and below as shown in Figs. 10, 11 and 12.
    [0108]
    [0109] Both yoke-shaped structures (160) are joined together by bars or post-tensioning tendons (165) and in the middle of said structures the brace to be weaned (100) is placed. Preferably, two post-tensioning bars or tendons (165) are used, one on each side of the strap (100), although another number could be used, depending on the structural needs.
    [0110] Each of these yoke-shaped structures (160) is formed by two halves that are joined and therefore hold the tie rod (100) and the post-tensioning bars (165) by means of screws and threaded bars (170).
    [0111]
    [0112] The bars or tendons of post-tensioning (165) are operated by means of two cylinders or hydraulic jacks (180) in order to transfer the load of the tie rod (100) to them, as reflected in Figs. 10, 11 and 12. These cylinders (180) are equipped with a test bridge (185) to be able to retain the strength of the post-tensioning bars or tendons (165) mechanically.
    [0113]
    [0114] In the part of the process destined to the weaning we proceed to apply force with the two hydraulic cylinders (180) until reaching the strength of the tie rod (145). Next, the retaining nuts located on the test bridges (185) are fixed, maintaining the strength of the post-tensioning bars or tendons (165) and releasing pressure on the hydraulic cylinders (180).
    [0115] Once the force of the tie rod (100) of the area between clamps (145) is transferred to the post-tensioning bars or tendons (165), it is possible to proceed to the cutting of the tie rod (100) in said zone, progressively, cord to cord (or wire to wire) (120).
    [0116]
    [0117] Once all the cords or wires (120) of the tie (100) are sectioned, the hydraulic cylinders (180) are operated to transfer the force of the mechanical locking of the post-tensioning bars or tendons to the hydraulic cylinders. At that time, the retaining nuts located on the test bridges (185) are loosened and pressure is relieved and the hydraulic cylinders (180) are collected. If the stroke of the jack or hydraulic cylinder (180) is exhausted, the retaining nuts of the test bridges (185) will be fixed and the cylinders (180) extended again.
    [0118]
    [0119] The process is repeated until the total weaning of the strap (100).
    权利要求:
    Claims (1)
    [0001]
    REI VINDICATIONS
    Stripping system (100) by incorporation of, or replacement by, improved filling material characterized by being formed by:
    - a formwork in two or more parts (130) arranged to be placed around an area of the tie rod (100) to which the sheath (110) and the cement slurry has previously been removed, if these elements are available, leaving Clean the cords or wires (120) of the tie rod (100), where said formwork (130) is arranged to be able to inject a filler material (125) which, once set, provides an area of improved strength and adhesion,
    - two clamps (145) arranged to be placed each on one side of the strap area (100) with clean cords or wires (120), on the area of improved strength and adhesion, on the formwork tube (130) ,
    - two yoke-shaped structures (160) arranged to be placed one on each outer side of each clamp (145) and around the strap (100),
    - at least two post-tensioning bars or tendons (165) arranged to join together both yoke-shaped structures (160),
    - a hydraulic cylinder (180) arranged in each post-tensioning bar or tendon (165), supported by the yoke-shaped structures (160), arranged to transfer, when acting on them, the load of the tie rod (100) to the post-tensioning bars or tendons (100) and where each hydraulic cylinder (180) can incorporate a testing bridge (185) arranged to retain the load transferred to the post-tensioning bars or tendons (165) when acting on them (185).
    Strut weaning system (100) according to claim 1 characterized in that said filler material (125) is high strength resin with or without aggregate loading.
    Stripping system (100) according to claim 1 characterized in that said found in two or more parts (130) is in the form of a tube of any section, joined with flanges (135) can incorporate fittings (140) arranged to inject the filling material.
    Stripping weaning system (100) according to claim 1 characterized in that between the parts of said enclosure (130), in its lateral joining areas, there are wedge plates and / or sealing material or elements.
    Strap stripping system (100) according to claim 1 characterized in that each clamp (145) is formed by two or more parts (150) that are fastened around the strap (100) with threaded bars, screws or other fasteners (155 ).
    Strut weaning system (100) according to claim 1, characterized in that each yoke-shaped structure (165) is formed by two or more parts that are joined and fastened to the brace (100) and to the post-tensioning rods or tendons (165) with threaded bars, screws or other fasteners (170).
    Strap weaning system (100) according to claim 1, characterized in that each test bridge (185) incorporates a retaining nut (or other mechanical locking system) arranged to retain the transferred load when it is operated.
    Method of weaning of braces (100) anchored and covered with sheath (110) and cement grout or other type of protections characterized by incorporating the following stages:
    to. removal of the sheath (110) that covers the strap (100), if available, in an area of its free length,
    b. removal of the cement slurry or other filler, if available, from the area where the sheath (110) has been removed until the cords or wires (120) of the tie rod (100) are cleaned,
    c. place the parts of a formwork (130) around the clean cords or wires (120),
    d. injecting a filling material (125) into said formwork (130) which, once set, provides an improved strength and adhesion zone,
    and. place two clamps (145), one at each end of the clean area of the tie rod (100),
    F. place two yoke-shaped structures (160), one on each side on the outside of each clamp (145) and around the strap (100),
    g. join both yoke-shaped structures (160) to each other by means of at least two post-tensioning bars or tendons (165),
    h. Actuate hydraulic cylinders (180) arranged in the post-tensioning bars or tendons (165), on the outside of the yoke-shaped structures (160), to transfer the load of the tie rod (100) to the post-tensioning bars or tendons (165), where the cylinders (180) are operated until the strength of the tie rod is reached,
    i. retain the load transferred to the post-tensioning bars and tendons (165) acting on a test bridge (185) that incorporates each cylinder (180),
    j. cut the tendons of the strap (100).
    k. Relax the hydraulic cylinders (180) in stages until the tie rod (100) is completely weaned.
    9. Strut weaning method (100) according to claim 8 characterized in that in step d) said filler material (125) is high strength resin with or without aggregate loading.
    10. Strap removal method (100) according to claim 8, characterized in that in step c) the parts that form the formwork (130) are in the form of a tube of any section and are placed around the cords or wires (120) by middle of flanges (135).
    11. Strap removal method (100) according to claim 8, characterized in that in step d) said filling material is injected into the formwork (130) by means of connectors (145) incorporating the formwork (130) ,
    12. Strap removal method (100) according to claim 8, characterized in that in step e) each clamp (145) is formed by two or more parts (150) and is secured around the strap (100) with threaded bars or screws (155) that are tightened in a distributed way.
    13. Strap removal method (100) according to claim 8, characterized in that each yoke-shaped structure (160) is formed by two or more parts that are joined and held around the strap (100) in step f) and post-tensioning cables or tendons (165) in stage g) with screws or threaded bars (170).
    14. Strap weaning method (100) according to claim 8 characterized in that in step i) the action on the test bridge (185) that incorporates each hydraulic cylinder (180) is performed by actuating a retaining nut (or other mechanical locking device) that incorporates the test bridge (185).
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    同族专利:
    公开号 | 公开日
    WO2019238996A1|2019-12-19|
    EP3808899A1|2021-04-21|
    AU2019286812A1|2021-01-21|
    ES2735145B2|2020-06-29|
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    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201830573A|ES2735145B2|2018-06-12|2018-06-12|System and procedure of stripping of braces by incorporation of, or substitution for, improved filler material|ES201830573A| ES2735145B2|2018-06-12|2018-06-12|System and procedure of stripping of braces by incorporation of, or substitution for, improved filler material|
    AU2019286812A| AU2019286812A1|2018-06-12|2019-06-11|System and method for destressing braces by incorporation of, or substitution by, improved filler material|
    EP19737802.9A| EP3808899A1|2018-06-12|2019-06-11|System and method for destressing braces by incorporation of, or substitution by, improved filler material|
    PCT/ES2019/070405| WO2019238996A1|2018-06-12|2019-06-11|System and method for destressing braces by incorporation of, or substitution by, improved filler material|
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