• 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 prefabricated water control lock gate system comprising a first frame, a lifting anchor or coupling adapted to receive a lifting anchor, one or more gate parts, and an actuator adapted to move the gate parts.
    公开号:DK201700071U1
    申请号:DK201700071U
    申请日:2017-07-03
    公开日:2017-07-14
    发明作者:Jens Oliver Bach
    申请人:Wintec Holding Aps;
    IPC主号:
    专利说明:

    Prefabricated water control sluice gate system and a first frame thereto
    The technical field of production
    The present invention relates to sluice gates.
    Background to the creation
    Lock gates are selectively used to control water flow from one area of one channel to another by opening and closing the water flow channel.
    The locking door frame / foundation is cast directly at the locking door's application. The construction time is thus long, since the cement must settle and harden before a gate part can be installed. Cement hardening can be affected by the weather and result in a frame / foundation of poor quality and strength. In addition, the frame / foundation is subject to water degradation.
    It is therefore desirable to provide a system that can eliminate some or all of the above problems.
    Description of the production
    One aspect relates to a prefabricated water control sluice gate system, comprising: a. A pre-cast reinforced concrete frame comprising: i. Two pre-cast reinforced concrete side panels; and ii. a pre-cast reinforced concrete bottom panel connecting the two side panels; iii. at least one lifting anchor, such as at least two, three, or four lifting anchors, or one coupling, such as at least two, three or file couplings adapted to accommodate a lifting anchor; b. one or more port parts; and c. an actuator adapted to move the one or more port portions; wherein the side and / or bottom panels are adapted to mount the one or more port parts.
    A further aspect relates to a prefabricated water control sluice gate system, comprising: a. A first frame, comprising: i. Two side panels; and ii. a bottom panel connecting the two side panels; iii. at least one lifting anchor or one coupling adapted to receive a lifting anchor; b. one or more port parts; and c. an actuator adapted to move the one or more port portions; wherein the side and / or bottom panels are adapted to mount the one or more port parts. In one or more embodiments, the first frame is a pre-cast reinforced concrete frame.
    The term "pre-cast" as used in this application means the opposite of casting in situ. In other words, the pre-cast reinforced concrete frame is completed as finished structures when sent to a builder or customer, rather than having to be poured into temporary molds at the construction site or where they are to be used.
    The term "reinforced concrete" as used herein refers to concrete having embedded reinforcing bars or fibers to carry tensile loads to strengthen a structure that would otherwise be brittle.
    The first frame can also be made of metal, wood, or a castable material. It is to be understood that any suitable casting material such as cement, mortar, concrete, ceramics, thermoset plastic and thermoplastic can be used to make the first frame. In one or more embodiments, the side and / or bottom panels are made of reinforced moldable material. In one or more embodiments, the side and / or bottom panels are made of a reinforced castable material and wherein the reinforcement extends beyond the side and / or bottom panels.
    The term "reinforced castable material" as used herein refers to a castable material cast with reinforcing bars or fibers to carry tensile loads to strengthen a structure that would otherwise be brittle.
    In this context, the term "lifting anchor" must be interpreted broadly to include any such device for lifting the first frame with or without port parts or actuators installed. As an alternative, a clutch adapted to accommodate a lifting anchor is embedded in the first frame. The coupling may include internal or external threads, depending on the lifting anchor configuration. In one or more embodiments, the lifting anchor or coupling adapted to receive a lifting anchor is mechanically bonded to the reinforcing members embedded in the castable material such as concrete.
    To prevent water from undermining the bottom panel, it may be advantageous for the bottom panels to extend beyond the side panels, preferably over the front, back and outside / surface of the side panel. In one or more embodiments, the bottom panel extends beyond the side panels. In one or more embodiments, the bottom panel extends beyond the front of the side panels. In one or more embodiments, the bottom panel extends beyond the back of the side panels. In one or more embodiments, the bottom panel extends beyond the exterior / surface of the side panels. In one or more embodiments, the bottom panel extends beyond the front and / or back and / or exterior of the side panels. In one or more embodiments, the portion of the bottom panel extending beyond the side panels comprises channels adapted to receive a ground anchor. In one or more embodiments, the reinforcement extends beyond the side and / or bottom panels. In one or more embodiments, the reinforcement extends beyond the side panels, preferably beyond the front or back of the side panel. This allows the prefabricated sluice gate system to be built into other reinforced concrete structures. In one or more embodiments, the reinforcement extends beyond the front of the side panels. In one or more embodiments, the reinforcement extends beyond the back of the side panels. In one or more embodiments, the reinforcement extends beyond the exterior / surface of the side panels. In one or more embodiments, the reinforcement extends over the top and / or back and / or exterior of the side panel. In one or more embodiments, a portion of the pre-cast reinforced concrete floor panel is configured as a lower gate portion extending between the two side panels. The lower port portion may comprise, in one or more embodiments, air / water ducts adapted to be connected to a water source and / or compressed air source. Water and / or compressed air can thereby be used to remove precipitates which block one or more port parts. In one or more embodiments, the prefabricated water control sluice gate system comprises additional means for delivering water and / or compressed air. In one or more embodiments, the pre-cast reinforced concrete bottom panel comprises suction channels adapted to be connected to a suction source. With or without the function of the water / air ducts, the suction ducts can be used to remove precipitates which block one or more port parts. In one or more embodiments, the insides upwardly comprise the side panels each having a channel configured to accommodate a movable port portion. In one or more embodiments, the outer sides of the side panels each comprise a channel configured to receive a reinforced plate adapted to be embedded in the adjacent dam section. In one or more embodiments, the prefabricated water control sluice gate system further comprises a housing adapted to accommodate the pre-cast reinforced concrete frame, the housing comprising two side panels and a bottom panel, the bottom panel being adapted to support the bottom panel of the pre-cast reinforced concrete frame. , and where each side panel is adapted to support a side panel on the pre-cast reinforced concrete frame. This allows for a system where the pre-cast reinforced concrete frame can be replaced by a pre-cast reinforced spare concrete frame during service. It may further be advantageous to be able to reverse the operating direction of the lock door by turning it 180 degrees. In one or more embodiments, the housing comprises an opening between its side panels so that water can flow to and from a lock port located within the housing. In one or more embodiments, the housing comprises an opening between its side panels so that water can flow to and from a pre-cast reinforced concrete frame according to the present invention which is located inside the housing. In one or more embodiments, the housing comprises a front panel with an opening and the opening is adapted so that water can flow to a lock port located inside the housing; and wherein the housing further comprises a rear panel with an aperture and the aperture is adapted so that water can flow from a sluice port located within the housing. In one or more embodiments, the housing comprises a front panel with an opening and the opening is adapted so that water can flow from a lock port located inside the housing. In one or more embodiments, the housing comprises a rear panel with an aperture and the aperture is adapted so that water can flow from a sluice port located inside the housing. In one or more embodiments, the housing is made of reinforced concrete. In one or more embodiments, the housing is finished. In one or more embodiments, the housing comprises at least one lifting anchor or coupling adapted to receive a lifting anchor, preferably one or more pairs of lifting anchors or couplings adapted to receive a lifting anchor to provide a stable lift.
    To prevent water from undermining the bottom panel; it may be advantageous to extend the bottom panels beyond the side panels, preferably over the front, back and outside / surface of the side panel. In one or more embodiments, the bottom panel extends beyond the side panels. In one or more embodiments, the bottom panel of the housing extends beyond the front of the side panels. In one or more embodiments, the bottom panel of the housing extends beyond the back of the side panels. In one or more embodiments, the bottom panel of the housing extends beyond the exterior / surface of the side panels. In one or more embodiments, the bottom panel of the housing extends beyond the front and / or back and / or exterior of the side panel. In one or more embodiments, the portion of the bottom panel of the housing extending beyond the side panels comprises channels adapted to receive a ground anchor. In one or more embodiments, the reinforcement extends beyond the side panels of the housing, preferably beyond the front or back of the side panel. This allows the prefabricated sluice gate system to be built into other reinforced concrete structures. In one or more embodiments, the reinforcement extends beyond the front of the side panels of the housing. In one or more embodiments, the reinforcement extends beyond the back of the side panels of the housing. In one or more embodiments, the reinforcement extends beyond the exterior / surface of the side panels of the housing. In one or more embodiments, the reinforcement extends over the top and / or back and / or exterior of the side panels of the housing. In one or more embodiments, the outer sides of the side panels each comprise a channel configured to receive a reinforcing plate adapted to be embedded in the adjacent dam section.
    Another aspect relates to a pre-cast reinforced concrete frame for a water control sluice gate system, comprising: i. Two pre-cast reinforced concrete side panels; and ii. a pre-cast reinforced concrete floor panel connecting the two side panels; iii. at least one lifting anchor or one coupling adapted to receive a lifting anchor; wherein the side and / or bottom panels are adapted for mounting one or more port parts.
    A third aspect relates to a first frame for a water control sluice gate system comprising: i. Two side panels; and ii. a bottom panel connecting the two side panels; iii. at least one lifting anchor or one coupling adapted to receive a lifting anchor; wherein the side and / or bottom panels are adapted for mounting one or more port parts. In one or more embodiments, the bottom panel extends beyond the side panels, and the portion of the bottom panel extending beyond the side panels comprises channels adapted to receive a ground anchor. In one or more embodiments, the exterior of the side panels each comprises a channel configured to receive a reinforcing plate adapted to be embedded in the adjacent dam section.
    A fourth aspect relates to a method of dividing a body of water into two distinct parts with a prefabricated water control sluice gate system, comprising the steps of: - immersing a prefabricated sluice gate system of the present invention into a body of water at a predetermined location where the pre-cast reinforced concrete side panels , reinforced concrete frames are selected such that they have a sufficient height to rise above the water level of the body of water after the sluice gate system is submerged at its predetermined location; and - to build an embankment against the outside of the side panels. This approach is particularly advantageous over existing processes, since no initial dam is to be built and water is pumped out of the area to ensure the area where the water control sluice gate system is to be built / molded.
    A fifth aspect relates to a method of dividing a body of water into two distinct portions with a prefabricated water control sluice gate system, comprising the steps of: that they are of sufficient height to rise above the water level of the body of water after the sluice gate system is submerged in its predetermined location; and - to build a dam against the outside of the side panels.
    It should be noted that embodiments and functions described in context with one of the aspects of creation also apply to other aspects of the creation.
    Description of the figures
    Figure 1 shows a prefabricated water control lock port system with two port parts (voice port) according to different embodiments of the invention;
    Figure 2 shows a prefabricated water control sluice gate system with a port part (flap door) according to various embodiments of the invention;
    Figure 3 shows a prefabricated water control sluice gate system with a port portion (vertically rising port) according to various embodiments of the invention; and
    Figure 4 shows a housing adapted to accommodate the pre-cast reinforced concrete frame according to various embodiments of the construction.
    Detailed description of the production
    Figure 1 shows a prefabricated water control lock port system with two port parts (voice port) according to different embodiments of the invention. Figure 1A shows the gate portion 400 in a closed position and Figure 1B shows the gate portion in an open position. The prefabricated water control sluice gate system 100 comprises a pre-cast reinforced concrete frame 200, lifting anchor 300, two gate parts 400, and an actuator 500 adapted to move the gate parts 400.
    The pre-cast reinforced concrete frame 200 comprises two pre-cast reinforced concrete side panels 210 and a pre-cast reinforced concrete bottom panel 220 which connects the two side panels 210. The bottom floor panel 220 is adapted for mounting of the port portions 400.
    The bottom panel 220 is shown extending beyond the exterior / surface of the side panels 210. Large stones may be placed on this portion to hold the pre-cast reinforced concrete frame 200 in place.
    A portion of the bottom panel 220 is configured as a lower port portion 222 extending between the two side panels 210.
    Figure 2 shows a prefabricated water control sluice gate system with a port part (flap door) 400 according to various embodiments of the invention. Figure 2A shows the gate portion 400 in a closed position and Figure 2B shows the gate portion in an open position.
    The pre-cast reinforced concrete floor panel is configured as a lower gate portion 222 which extends between the two side panels. The lower gate portion 222 comprises water / air ducts 224 adapted to be connected to a water source and / or compressed air source. Water and / or compressed air can thereby be used to remove precipitates which block one or more port parts.
    Figure 3 shows a prefabricated water control sluice gate system with a port portion (vertically rising port) according to various embodiments of the invention. Figure 3A (perspective view) and 3B (cross-section) show the gate portion 400 in an open position, while Figure 3C (cross-section) shows the gate portion in a closed position.
    The pre-cast reinforced concrete floor panel 220 is configured as a lower gate portion 222 which extends between the two side panels.
    The inside / surface 212 of the side panel each comprises a channel 214 which is configured to receive a moving port portion 400.
    Figure 4 shows a housing 600 adapted to receive the pre-cast reinforced concrete frame 200 according to various embodiments of the manufacture. Figure 4A shows the pre-cast reinforced concrete frame 200 to be inserted into housing 600, and Figure 4B shows the pre-cast reinforced concrete frame inserted into the housing.
    The housing 600 comprises two side panels 610 and a bottom panel 620. The bottom panel 620 is adapted to support the bottom panel 220 of the pre-cast reinforced concrete frame 200, and each side panel 610 is adapted to support a side panel 210 of the pre-cast reinforced concrete frame 200.
    The reinforcement 630 extends beyond the side panels 610 of the housing 600, shown here in addition to the front, back and outside of the side panel. This allows the prefabricated sluice gate system to be built into other reinforced concrete structures.
    The outer panels of the side panels each comprise a channel 640 which is configured to receive a reinforcement plate adapted to be embedded in the adjacent dam section.
    Reference numbers 100 Prefabricated water control sluice gate system 200 Pre-cast, reinforced concrete frame 210 Side panel 212 Inside / side panel 214 Channel 220 Bottom panel 222 Lower port 300 Lift anchor 400 Actuator 600 Housing 610 Side panel 620 Bottom panel 630 Reinforcement 6
    权利要求:
    Claims (7)
    [1]
    A prefabricated water control sluice gate system (100) comprising: a. A first frame (200) comprising: i. Two side panels (210); and ii. a bottom panel (220) connecting the two side panels (210); iii. at least one lifting anchor (300) or one coupling adapted to receive a lifting anchor; b. one or more lock port portions (400); and c. an actuator (500) adapted to move the one or more port portions; wherein the side (210) and / or bottom (220) panels are adapted to mount the one or more lock port portions (400).
    [2]
    The prefabricated sluice gate system (100) of claim 1, wherein the one or more sluice gate portions are a folding gate, a voice gate or a vertically rising gate.
    [3]
    A prefabricated sluice gate system (100) according to any one of claims 1-2, wherein the bottom panel is configured as a lower gate portion (222) extending between the two side panels.
    [4]
    The prefabricated sluice gate system (100) of claim 3, wherein the lower gate portion (222) comprises ducts (224) adapted to be connected to a water source and / or compressed air source.
    [5]
    A prefabricated sluice gate system (100) according to any one of claims 1-4, further comprising means for supplying water and / or compressed air.
    [6]
    A prefabricated sluice gate system (100) according to any one of claims 1-5, wherein the bottom panel comprises suction channels adapted to be connected to a suction source.
    [7]
    A prefabricated sluice gate system according to claim 1, further comprising a housing (600) adapted to receive the first frame, the housing comprising two side panels (610) and a bottom panel (620), wherein the bottom panel (620) is adapted to supporting the bottom panel (220) of the first frame (200), and wherein each side panel (610) is adapted to support a side panel (210) of the first frame (200).
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    同族专利:
    公开号 | 公开日
    DK201700071Y3|2017-07-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DKBA201700071U|DK201700071Y3|2017-07-03|2017-07-03|Prefabricated water control sluice gate system and a first frame thereto|DKBA201700071U| DK201700071Y3|2017-07-03|2017-07-03|Prefabricated water control sluice gate system and a first frame thereto|
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