Automatic auto-sensing flood protection roller shutter with auto-locating reinforced column

Description

BACKGROUND OF THE INVENTION

Field of the Invention

[0001] The invention relates to a flood protection roller shutter, particularly to an automatic auto-sensing flood protection roller shutter with a plurality of waterproof door panels, a downward-pressing hydraulic cylinder, a sideward-pressing hydraulic cylinder, at least an auto-locating reinforced column, a water level detector and an infrared detector.

Descriptions of the Related Art

[0002] In the prior art, such as the Taiwan patent titled by "Iron rolling door with escape structure" with patent number 483478, as shown in figure 10, the iron rolling door with escape structure has a rolling door (1), which is formed by spicing multiple rolling door panels (11); two side columns (2), which are provided on both sides of the rolling door (1); characterized in that: said rolling door (1) has one lower rolling panel (11') designed in separation/combination form, assembled by a coupling mechanism (not shown), which controls the separation/combination status, through an upper door panel spicing the upper portion thereof and a lower door panel splicing the lower portion thereof; and the side column (2) is divided by the height of the separation/combination form rolling door panels (11'), the upper section is set as a fixation side column (2) fixed to a wall, the lower section sets pivotally an outer bottom to the ground surface as an active side column (2b), and a coupling piece (not shown) is used to control the combination status of the active column (2b) and the fixation column (2a). However, the iron rolling door of prior art is a design without safe operation protection, is not waterproof, and needs to open and close the iron rolling door manually such that it is incompliant with an facilitate to use criterion, and cannot meet the requirement of an automatic auto-sensing flood protection roller shutter.

[0003] In another prior art, such as the U.S.A. patent titled by "Movable Barrier Operator Having Passive Infrared Detector" with patent number 6737968B1, as shown in figure 11, a ceiling (14) in the garage (12) is mounted with a garage door controller (10), said garage door operator (10) may operate a multipanel garage door (16), said multipanel garage door (16) is provided with multiple rollers (18) on both sides thereof, said rollers (18) roll in tracks (20) on both sides of the garage door (16), said garage door operator (10) contains one head unit (24), one rail assembly (26), one trolley (28) and one arm (30), wherein said arm (30) has one end thereof fixed to an upper portion (32) and the other end thereof fixed to said trolley (28), said trolley (28) slides in said rail assembly (26), said head unit (24) drives said trolley (28) and induces open and close of said multipanel garage door (16). Said iron rolling door of prior art also does not have a safe operating protection device, nor have a design with waterproof and automatic auto-sensing functions.

[0004] From the document GB 2481268 a water proof roller shutter is known, comprising a door frame, two side rails mounted on two opposite sides of the door frame, a waterproof door or barrier and at least one waterproof strip mounted between the waterproof door and the door frame. Such gate may comprise a pressing bar, which may be moved through a hydraulic cylinder to abut an upper end of the waterproof door and press the door downward for compressing the sealing gasket against a floor. A pressing plate may also be provided, which may be moved through a second hydraulic cylinder to push the door 11 against a waterproof sealing strip. A hydraulic pump may be used in power failure and an infrared safety detector may be mounted on the lower end of the side rail and a water level detector may be placed on a bottom of the side rail. However, said structure of the related art is still insufficient to improve stability of waterproof gate in use.

[0005] Document GB 2477365 discloses a flood defense system or flood barrier for protecting an opening of a property, which comprises an inflatable bag placed below the opening and a shield. When the inflatable bag is inflated, the shield may be moved between a storage position and an operative position, where a sealed closure is provided for the lower portion of the opening. A pair of vertical guide track elements are disposed on side surfaces of the opening for the shield and the inflatable bag. The inflatable bag may form at least a portion of the shield. The shield may be made of a plurality of parts. The inflatable bag may be inflated by a pump or a canister of compressed air. A sensor or detecting means may be used to activate barrier, e.g. a float switch or water sensor. However, there is still the need of improving stability of the waterproof gate in use.

[0006] Document BE 1020157A3 discloses a removable water retaining device with one opening to be placed in a recess, comprising a sealing face, which is connected to an inflatable element in a sealing manner. Said sealing face and side inflatable element are further bonded to an element between a lower edge of said sealing face and a lower edge of said recess in a sealing manner. However, strength and stability of the waterproof gate in use may still be improved.

[0007] Document FR 2007661A1 discloses a folding shutter for an opening, such as a window, a door, a gate etc. in a building, being composed of movable profiled strips piled and connected with each other such that adjacent slats are interconnected mutually by one connecting section each time, so that they may rotate about 180° with respect to each other. However, improvement of strength and stability of the waterproof gate in use is still required.

[0008] Thus, it is what the invention intends to disclose how to create an automatically auto-sensing flood protection roller shutter with auto-locating reinforced column, such that said roller shutter may achieve advantages of safe operation for waterproof and flood protection, enhancement of door panel strength, stable movement of door panel and equipment damage prevention, airtight and waterproof, easy containment, facilitate to use, protection of door panel structure and increase of door panel life, stable movement guiding from reinforced column, waterproof and dustproof of retaining base, automatic closing of cover plate as not used, operation of automatic auto-sensing flood protection roller shutter, auto-locating or manual-locating of reinforced column and strength improvement of water proof structure and flood protection.

SUMMARY OF THE INVENTION

[0009] The purpose of the invention is to provide an automatic auto-sensing flood protection roller shutter which may achieve the advantages of safe operation for waterproofness and flood protection, enhancement of door panel strength, stable movement of door panel, equipment damage prevention, airtight, waterproof and easy containment, facilitation for use, protection of door panel structure and increase of door panel life, stable movement guiding from reinforced column, waterproof and dustproof retaining base, automatic closing of a cover plate as not used, operation of automatic auto-sensing flood protection roller shutter, auto-locating of reinforced column and strength improvement of water proof structure and flood protection.

[0010] To achieve the object mentioned above, an automatic auto-sensing flood protection roller shutter with the features according to claims 1 or 10 is provided. Advantageous embodiments are defined in the dependent claims. The automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention includes a door plate, which is composed of a plurality of door panels, which may be disposed in between two frames or contained in a storage device; a casing, which is provided on the top of the door plate and the interior thereof is provided with a motor, a hydraulic pump, an automatic controller, an uninterruptible power system, a storage device, a downward-pressing hydraulic cylinder and a driving device; two frames mounted on two sides of the door plate to dispose a plurality of said door panels; a storage device, wherein on each of the left and right walls of which is provided respectively with an overhead rail in a horizontal direction and a guide rail in a vertical direction, each of the guide rails being bonded with a connecting branch rail respectively, and a gear being provided at the shortest distance between each of the overhead rails and each of the guide rails, a chain being engaged with each of the gears, each of the chains may move along with each of the overhead rails and each of the guide rails; a downward-pressing hydraulic cylinder, which is provided in said casing or frame, a downward-pressing plate being provided at the lower end thereof to press the door plate; a sideward-pressing hydraulic cylinder, which is provided in said frames, a push lever being connected to the lower end thereof; a water level detector, which is provided in underground space as a waterproof system to be turned on automatically once a certain water level is detected; a reinforced column, which is provided behind the door plate, and a vertical motor provided at the upper end thereof and a horizontal motor provided in the driving device being provided to drive for transverse movement, and the inner chamber at the lower end of the reinforced column being provided with a bolt and a vertical motor; and a driving device, which is provided at the lower portion in the casing, a fixation joint and a bearing set being provided at each of the two inner walls thereof, the two ends of a guiding rod being fixed respectively in said two fixation joints, one end of with the guiding screw and one end with the transmission shaft being fixed in each of said two bearing sets, wherein the other end of said guiding screw and the other end of said transmission shaft are butted mutually, and the vertical motor being provided at the upper end of the reinforced column, and the horizontal motor being provided in the driving device.

[0011] In a preferred embodiment of the invention, a hand clamping prevention block piece , a V-shaped groove and a door plate fixation hole are provided at the upper ends of the two lateral surfaces of a plurality of said door panels of the door plate, respectively, a hand clamping prevention block piece, an inverted V-shaped salient angle and two guide wheel anchor blocks are provided at the lower ends of the two lateral surfaces of a plurality of said door panels, respectively, multiple diaphragms are provided in the inner chamber of a plurality of said door panels to form multiple chambers, wherein a surface of said V-shaped groove, a surface of said inverted V-shaped salient angle and a surface between said door panel and said frame can be stuck respectively with a waterproof glue strip, and a surface of the V-shaped groove pressed by said downward-pressing plate of the downward-pressing hydraulic cylinder can also be stuck with a sealing gasket.

[0012] In a preferred embodiment of the invention, the door plate fixation hole of a plurality of said door panels is inserted with a axis shaft drilling at said chain, the guide wheel anchor blocks of a plurality of said door panels are locked up with a guide wheel fixation plate, wherein one end of said axis shaft is sheathed with a bearing set, said guide wheel fixation plate is provided with a sheathed with a guide wheel.

[0013] In a preferred embodiment of the invention, an infrared detector is provided in the frames to detect an abnormal situation as the door plate approaches to the ground surface; or an infrared detector is mounted at the exterior of the roller shutter to detect an abnormal situation as any person, vehicle or object passes.

[0014] In a preferred embodiment of the invention, two stoppers are provided in the storage device to stop a plurality of said door panels, and an opening of said branch rail is provided with a guiding opening expanding outwards, and a fixation board and a chain guard board being installed above the overhead rail of the storage device, wherein the upper edge and the lower edge of the overhead rail are provided with a folding portion.

[0015] In a preferred embodiment of the invention, the downward-pressing hydraulic cylinder or the sideward-pressing hydraulic cylinder may be provided with one or more downward-pressing hydraulic cylinders, and/or provided with one or more sideward-pressing hydraulic cylinders as need.

[0016] In a preferred embodiment of the invention, the top of the reinforced column is provided movable across said guiding rod and guiding screw of the driving device, the bolt thereof may be driven by said vertical motor to be inserted into and fixed to a retaining base, which is provided at a track, and a ball is provided at the bottom thereof to stabilize the transverse movement of said reinforced column on the track, wherein said retaining base is provided with a cover plate and a spring.

[0017] In a preferred embodiment of the invention, said water level detector and said infrared detector perform sensing and detection by sending a signal to said automatic controller, said automatic controller may control open, close or movement of said flood protection roller shutter, downward-pressing hydraulic cylinder, sideward-pressing hydraulic cylinder and reinforced column according to said signal.

[0018] In another preferred embodiment of the invention, an automatically auto-sensing flood protection roller shutter with auto-locating reinforced column is provided, wherein the flood protection roller shutter includes a door plate, which is composed of a plurality of door panels, which may be disposed in between two frames or contained in one storage device; a casing, which is provided at the top of the door plate and is provided with a motor, a hydraulic pump, an automatic controller, an uninterruptible power system and a storage device in the interior thereof; two frames mounted on two sides of the door plate oppositely to dispose a plurality of said door panels; and a storage device, wherein at the left and right inner walls of which are provided respectively with one overhead rail in a horizontal direction thereof, one guide rail in a vertical direction, one end of each guide rail being bonded with one connecting branch rail, and a gear being provided at the shortest distance between each of the overhead rails and each of the guide rails, a chain being engaged with each of the gears, each of the chains may move along with each of the overhead rails and each of the guide rails.

[0019] In a further preferred embodiment of the invention, an automatically auto-sensing flood protection roller shutter with auto-locating reinforced column is provided, wherein the auto-locating reinforced column includes a reinforced column, which is provided behind a door plate to be driven for transverse movement by a vertical motor provided on the upper end thereon and a horizontal motor provided in the driving device, and said reinforced column having a bolt and a vertical motor provided in an inner chamber at the lower end thereof; and a driving device, which is provided at the lower portion in a casing, a fixation joint and a bearing set being provided at the two inner walls thereof, respectively, two ends of a guiding rod being fixed in said two fixation joints, respectively, one end of a guiding screw and one end of a transmission shaft being fixed in said two bearing sets, respectively, wherein the other end of said guiding screw and the other end of said transmission shaft are butted mutually, and the vertical motor is provided at the upper end of the reinforced column, and the horizontal motor is provided in the driving device; thereby, once a flooding occurs, the automatically auto-sensing flood protection roller shutter may operate the water level detector activating the alarm value over the water level to transmit the signal to the automatic controller, the automatic controller activates the motors, vertical motors and horizontal motors to lower a plurality of the door panels one by one for the flood protection shutter to be self-packed, and moves transversely the reinforced column to the retaining base, the bolt of the reinforced column is pushed automatically into the retaining base to enhance the flood protection strength of the shutter, further, downward pressure and sideward pressure forces of the downward-pressing hydraulic cylinder and the sideward-pressing hydraulic cylinder are applied to secure a plurality of door panels, the ground surface and the reinforced column closely to achieve airtight waterproof, such that the functions and advantages of the automatically auto-sensing flood protection without manual operation may be accomplished.

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] 

Figure 1A is a front sectional view showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 1B is a lateral sectional view showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 2A is a top sectional view showing the driving device of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 2B is an enlarged sectional lateral view of figure 1B according to the invention.

Figure 3 is a solid schematic view showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 4 is a lateral sectional view of the door panel of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 5A is a solid appearance view showing the automatic auto-sensing flood protection roller shutter with the auto-locating reinforced column according to the invention.

Figure 5B is a solid appearance decomposition view showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 5C is a flat frontal view showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 6A is a solid appearance view showing door plate of the automatic auto-sensing flood protection roller shutter with the auto-locating reinforced column according to the invention.

Figure 6B is a solid combination schematic view showing the door plate of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 6C is a solid combination schematic view from another lateral viewing angle showing the door plate of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 6D is a flat combination schematic view from the top viewing angle showing the door plate of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 7A is a first lateral operation view showing access of a plurality of door panels of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column to a casing according to the invention.

Figure 7B is a second lateral operation view showing access of a plurality of door panels of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column to a casing according to the invention.

Figure 7C is a third lateral operation view showing access of a plurality of door panels of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column to a casing according to the invention.

Figure 7D is a fourth lateral operation view showing access of a plurality of door panels of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column to a casing according to the invention.

Figure 7E-1 is a schematic view showing the appearance of a fixation board of a storage device for the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 7E-2 is a schematic view showing an enlarged appearance of figure 7E-1 according to the invention.

Figure 7F-1 is a schematic view showing the appearance of a chain guard board of a storage device for the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 7F-2 is a schematic view showing an enlarged appearance of figure 7F-1 according to the invention.

Figure 7G-1 is a schematic view showing the appearance of a folding portion of an overhead rail of a storage device for the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 7G-2 is a schematic view showing the appearance of figure 7G-1 from another angle.

Figure 8 is a lateral operation view showing a downward-pressing hydraulic cylinder of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 9 is a lateral operation view showing a sideward-pressing hydraulic cylinder of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention.

Figure 10 is an overall structural view showing an iron rolling door with escape structure of a prior art.

Figure 11 is a solid perspective view showing the prior art, Movable Barrier Operator Having Passive Infrared Detector.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0021] For understanding comprehensively the purposes, features and advantages of the invention, the following embodiments in connection with appended drawings are described in detail below.

[0022] Refer to figures 1A and 1B, which are a front sectional view and a lateral sectional view showing an automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to a preferred embodiment of the invention. As shown in the figures, the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention include a door plate 1, which is composed of a plurality of door panels 11, which may be disposed in between two frames 3 or contained in a storage device 4; a casing 2, which is provided on the top of the door plate 1 and the interior thereof is provided with a motor 21, a hydraulic pump 22(as shown in figure 5A), an automatic controller 23(as shown in figure 5A), an uninterruptible power system 24(as shown in figure 5A), a storage device 4, a downward-pressing hydraulic cylinder 5 and a driving device 9; two frames 3 mounted on two sides of the door plate 1 to dispose plurality of said door panels 11; a storage device 4, wherein on each of the left and right walls of which is provided respectively with an overhead rail 41 in a horizontal direction and a guide rail 42 in a vertical direction, each of the guide rails 42 being bonded with a connecting branch rail 43 respectively, and a gear 45 being provided at the shortest distance between each of the overhead rails 41 and each of the guide rails 42, a chain 46 being engaged with each of the gears 45, each of the chains 46 may move along with each of the overhead rails 41 and each of the guide rails 42; a downward-pressing hydraulic cylinder 5, which is provided in said casing 2 or frame 3, a downward-pressing plate 51 being provided at the lower end thereof to press the door plate 1; a sideward-pressing hydraulic cylinder 6, which is provided in said frames 3, a push lever 61 being connected to the lower end thereof; a water level detector 7 (as shown in figure 5A), which is provided in underground space for a waterproof system to be turned on automatically once a certain water level is detected; a reinforced column 8, which is provided behind the door plate 1, and a vertical motor 91 provided at the upper end thereof and a horizontal motor 92 provided in the driving device 9 being provided or manual operation without installation of motor to drive for transverse movement, and the inner chamber at the lower end of the reinforced column 8 being provided with a bolt 81 and a vertical motor 82; and a driving device 9, which is provided at the lower portion in the casing 2, a fixation joint 93 and a bearing set 95 being provided at each of the two inner walls thereof, the two ends of a guiding rod 94 being fixed respectively in said two fixation joints 93 (as shown in figure 2A-1, 2A-2), one end of a guiding screw 96 and one end of a transmission shaft 97 being fixed in each of said two bearing sets 95, wherein the other end of said guiding screw 96 and the other end of said transmission shaft 97 are butted mutually, and the vertical motor 91 being provided at the upper end of the reinforced column 8, and the horizontal motor 92 being provided in the driving device 9. Moreover, one or more downward-pressing hydraulic cylinders 5 may be arranged in a casing 2 or frame 3 symmetrically or asymmetrically.

[0023] Refer to figure 2A, which is a top sectional view showing an automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to a preferred embodiment of the invention. As shown in the figure, the top of the reinforced column 8 is provided movable across said guiding rod 94 and guiding screw 96 of the driving device 9, and the two inner walls of the driving device 9 are provided respectively with a fixation joint 93 and a bearing set 95, the two ends of a guiding rod 94 are fixed in said two fixation joints 93, respectively, one end of a guiding screw 96 and one end of a transmission shaft 97 are fixed in said two bearing sets 95, wherein the other end of said guiding screw 96 and the other end of said transmission shaft 97 are butted mutually.

[0024] Refer to figure 2B, which an enlarged sectional lateral view of figure 1B showing the driving device of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention. As shown in the figure, the bolt 81 of the reinforced column 8 may be driven by said vertical motor 82 to be inserted into and fixed to a retaining base 841 of reinforced column 8, which is provided at a track 84, and a ball 83 is provided at the bottom thereof to stabilize the transverse movement of said reinforced column 8 on the track 84, wherein said retaining base 841 is provided with a cover plate 842 and a spring 843, after the bolt 81 of said reinforced column 8 is driven by said vertical motor 82, said bolt 81 abuts against the cover plate 842 of said retaining base 841 at first, followed by pushing the cover plate 842 further to the bottom of the retaining base 841 and compressing the spring 843 to finish the insertion and fixation of the bolt 81 of the reinforced column 8 into the retaining base 841; on the contrary, the vertical motor 82 is provided to retract said bolt 81 back in the reinforced column 8, the external force compressing the spring 843 is diminished, the resilience force of the spring 843 pushes the cover plate 842 back to the original covering position to complete the closing action of the retaining base 841 automatically. Therefore, the advantages for waterproof and dustproof of the retaining base 841, automatic closing as said cover plate 842 is not used, and strength enhancement of flood protection may be achieved by the design of the cover plate 842 and the spring 843 of the retaining base 841, the inverted L-shape of the reinforced column 8 and the design of the insertion and fixation of the bolt 81 of the reinforced column 8 into the retaining base 841.

[0025] Refer to figure 3, which is a solid schematic view showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention. As shown in the figure, said reinforced column 8 is provided behind the door plate 1, an user may dispose one or multiple reinforced columns 8 behind the door plate 1 to meet a special width requirement of the roller shutter, further, said reinforced column 8 is an inverted L shape, and the top thereof is drilled by the guiding rod 94 and the guiding screw 96 and the bottom thereof is provided with a ball 83 on the track 84(as shown in figure 2B), such that the reinforced column 8 is stabilized with respect to transverse movement behind the door plate 1 and the rocking resulting from the transverse movement of the reinforced column 8 is reduced to achieve the advantage for movement guiding stabilization of said reinforced column 8. Further, the reinforce column 8 also facilitates to reduce the deformation of a plurality of door panels 11 due to flood or water pressure such that the advantage for enhancement of waterproof and flood protection capabilities may be achieved.

[0026] Refer to figure 4, which is a lateral sectional view showing a plurality of door panels of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention. As shown in the figure, a hand clamping prevention block piece 111, a V-shaped groove 112 and a door plate fixation hole 113 are provided at the upper ends of the two lateral surfaces of a plurality of said door panels 11 of the door plate 1(as shown in figure 1A), respectively, a hand clamping prevention block piece 111, an inverted V-shaped salient angle 116 and at least one guide wheel anchor block 115 are provided at the lower ends of the two lateral surfaces of a plurality of said door panels 11, respectively, multiple diaphragms 114 are provided in the inner chamber of a plurality of said door panels to form multiple chambers 1141, wherein the surfaces of said V-shaped groove 112 and said inverted V-shaped salient angle 116 are stuck with waterproof glue strips 1171(as shown in figure 6B) separately, the surfaces between a plurality of said door panels 11 and said frames 3(as shown in figure 1A) are stuck with waterproof glue strips 1172(as shown in figure 7A), and the surface of the V-shaped groove 112 pressed by the downward-pressing plate 51 of the downward-pressing hydraulic cylinder 5 may also be stuck with a sealing gasket 118 (as shown in figure 7A), wherein the advantage for strength enhancement of a plurality of door panels 11 may be achieved by the design of the diaphragms 114 of a plurality of door panels 11.

[0027] Refer to figures 5A, 5B, 5C, which are solid appearance views of figure 1B showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to a preferred embodiment of the invention. As shown in the figure, an infrared detector 10 is provided at side-frames 3 to detect abnormal situation as the door plate 1 approaches to the ground surface, the downward-pressing hydraulic cylinder 5 or the sideward-pressing hydraulic cylinder 6 may be provided with one or more downward-pressing hydraulic cylinders 5, and/or provided with one or more sideward-pressing hydraulic cylinders 6, said water level detector 7 and said infrared detector 10 perform sensing and detection by sending a signal to said automatic controller 23, said automatic controller 23 may control open, close or movement of said flood protection roller shutter, downward-pressing hydraulic cylinder 5, sideward-pressing hydraulic cylinder 6 and reinforced column 8 according to said signal; or an infrared detector 10 is mounted at the exterior of the roller shutter to detect abnormal situations as any person, vehicle or object passes, as the infrared detector 10 detects an abnormal situation, said signal is sent to the automatic controller 23 synchronously, said automatic controller 23 stops lowering said flood protection roller shutter immediately to form a safety protection mechanism.

[0028] Further, after flooding, said water level detector 7 detecting a certain water level sends the signal to the automatic controller 23, the automatic controller 23 activates said motor 21, vertical motor 91 and horizontal motor 92, and moreover, the ball 83 for the reinforced column 8 to slide on the track 84 is provided to guide the transverse movement of the reinforced column 8 to the retaining base 841, the vertical motor 82 of the reinforced column 8 is activated to push the bolt 81 into the retaining base 841 for fixation, a plurality of door panels 11 are further lowered and pushed horizontally for layers to be aligned and fit for the downward-pressing hydraulic cylinder 5 to press downwards and make the downward-pressing plate 51 to press a plurality of door panels 11 with sealing gasket 118 disposed between each panel downwards to be waterproof, subsequently, the sideward-pressing hydraulic cylinder 6 presses downwards to drive the push lever 61 to induce the stop lever 62 to lower, as the stop lever 62 is lowered to a horizontal angle, the pressing plate 63 is stopped to push a plurality of door panels 11 horizontally for the waterproof glue strip 1172 to get more tight and fit therewith such that the advantage of improving airtight and waterproof and disaster prevention may be achieved.

[0029] In continuation, after the automatic controller 23 activates said motor 21, vertical motor 91 and horizontal motor 92, a plurality of door panels 11 of the door plate 1 can also be lowered at first and pushed horizontally for the layers to be aligned and fit, for the downward-pressing hydraulic cylinder 5 to press downwards for the downward-pressing plate 51 to press a plurality of door panels 11 downwards to get waterproof, subsequently, the sideward-pressing hydraulic cylinder 6 presses downwards to drive the push lever 61 to induce the stop lever 62 to lower, as the stop lever 62 is lowered to a horizontal angle, the pressing plate 63 is stopped to push a plurality of door panels 11 horizontally, followed by providing the ball 83 of said reinforced column 8 sliding on the track 84 to guide the reinforced column 8 to move transversely to the retaining base 841, the vertical motor 82 of the reinforced column 8 is activated to push the bolt 81 into the retaining base 841 for fixation to complete the procedure of waterproof and flood protection.

[0030] On the contrary, after the flooding alert is released, said water level detector 7 sends again the signal to the automatic controller 23, the automatic controller 23 may provide at first the vertical motor 82 of the reinforced column 8 to retract the bolt 81 from the retaining base 841, after that, the ball 83 thereof sliding on the track 84 is provided to guide the reinforced column 8 to move transversely back to the original position, followed by recover the positions of the downward-pressing hydraulic cylinder 5 and the sideward-pressing hydraulic cylinder 6, a plurality of door panels 11 are withdrawn in the storage device 4; or, the automatic controller 23 recovers the positions of the downward-pressing hydraulic cylinder 5 and the sideward-pressing hydraulic cylinder 6, a plurality of door panels 11 are withdrawn in the storage device 4, followed by providing the vertical motor 82 of the reinforced column 8 to withdraw the bolt 81 from the retaining base 841, after that, the ball 83 thereof sliding on the track 84 is adapted to guide the reinforced column 8 move transversely back to the original position to complete the recovery procedure of the automatically auto-sensing flood protection roller shutter with auto-locating reinforced column 8. Therefore, with the sensing and detection of the above water level detector 7 and the infrared detector 10 and the signal control of the automatic controller 23, the advantage for operation of the automatic auto-sensing flood protection roller shutter and auto-locating of the reinforced column 8 is achieved.

[0031] Refer to figures 6A, 6B, 6C and 6D, which are a solid appearance view, a solid combination schematic view, a solid combination schematic view from another lateral viewing angle and a plan combination schematic view from the top viewing angle showing the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to a preferred embodiment of the invention. As shown in the figures, a door plate fixation hole 113 of said door panels 11 (as shown in figure 4) is inserted with one end of a first axis shaft 12, the other end of which drills said chain 46 and sheathes a bearing set 13; the guide wheel anchor block 115 of said door panels 11 is locked up with a guide wheel fixation plate 14, which is sheathed with a guide wheel 15.

[0032] Refer to figures 7A, 7B, 7C and 7D, which are a first, a second, a third and a fourth lateral operation views showing access of a plurality of door panels of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column to a casing. As shown in the figures, the opening of said branch rail 43 is provided with a guiding opening 44 expanding outwards, as a plurality of door panels 11 desired to be overlapped in a line to form a waterproof shutter are folded in the storage device 4 of the casing 2, the gear 45 may be driven by the motor 21 to rotate at first for the chain 46 to move towards the storage device 4 under the driving of the gear 45, such that a plurality of door panels 11 overlapped originally may move along with the guide rail 42 sequentially towards the storage device 4 as the chain 46 contained in the guide rail 42 moves, while at the same time the bearing set 13 of one end of a plurality of door panels 11 connected pivotally to the chain 46 moves as the chain 46 moves, as one end, having the guide wheel 15, of a plurality of door panels 11 moves to the intersection formed by connecting the branch rail 43 and the guide rail 42, it may be diverged by a projection at the intersection to move along with the branch rail 43 towards the storage device 4, such that a plurality of said door panels 11 may be separated actually as the gear 45 moves towards the overhead rail 41, and the inclination of the overhead rail 41 may be used for the bearing set 13 to moves towards the overhead rail 41 smoothly and suspended on the overhead rail 41 to complete that the storage device 4 disposes and folds a plurality of door panels 11 automatically to achieve the advantages of convenient containment and facilitate to use.

[0033] On the contrary, as a plurality of door panels 11 in the casing 2 are desired to move external to the storage device 4, the motor 21 may be used to drive the gear 45 to rotate at first for the chain 46 to move sequentially from the overhead rail 41 to the guide rail 42 under the driving of the gear 45, such that a plurality of door panels 11 aligned together originally moves external to the storage device 4 sequentially along with the guide rail 42 as the chain 46 in the guide rail 42 moves, while at the same time the bearing set 13 of a plurality of said door panels 11 moves as the chain 46, the guiding of the guide wheel 15 at the guiding opening 44 is adapted further to move downwards in the branch rail 43, for a plurality of said door panels to be in an overlapping shape under the driving of the guide rail 42 and the chain 46, such that a plurality of door panels 11 are disposed in the frames 3 to form a waterproof shutter. Therefore, with the design of above bearing set 13, guide rail 42 and branch rail 43, the rocking and inclined movement may be avoided as a plurality of door panels are raised and lowered to achieve the advantages for stable movement and reduction of equipment damage.

[0034] Moreover, two stoppers 47 are provided in the storage device 4 to stop a plurality of said door panels 11. With the design of stoppers 47, the occurrence of damage of a plurality of door panels caused by collision may be reduced to achieve the advantages for protection of door panel 11 structure and increase of door panel 11 life. Besides, because a certain gap exists wherever the chain 46 is connected pivotally with each of a plurality of door panels 11, as a plurality of said door panels 11 moves inwards to or outwards from the casing 2 along with the chain 46, a plurality of said door panels 11 may overlap mutually by the hand clamping prevention block piece 111 (as shown in figure 4) provided therewith. Therefore, there is no separation between a plurality of door panels 11 to achieve the advantage for safe operation of waterproof and flood protection. Also, as shown in figures 7E-1, 7E-2, 7F-1 and 7F-2, which show a schematic view of an appearance for a fixation board of a storage device in a preferred embodiment of the invention, a schematic view of an enlarged appearance of figure 7E-1, a schematic view of an appearance for a chain guard board of the storage device and a schematic view of an enlarged view of figure 7F-1, wherein the overhead rail 41 of the storage device 4 is provided with a fixation board 481 and a chain guard board 482 thereon, the fixation board 481 allows the overhead rail 41 to form a fixed space, such that the bearing set 13 and the door panel 11 may move along with the overhead rail 41 more stably and freely without deflection from the overhead rail 41. Further, the chain guard board 482 may prevent links of the chain 46 from getting constricted and stuck tightly as the door panel 11 is shut, closed such that the door panel 11 is not raised, lowered smoothly. Hence, the additional installment of the chain guard board 482 achieves the advantage that the chain 46 is forced to be spread as the door panel 11 is lowered for the door panels 11 to be raised, lowered more smoothly. Besides, As shown in figures 7G-1 and 7G-2, which are schematic views showing the appearance for two of the folding portions of the overhead rail of the storage device, wherein the upper edge and the lower edge of the overhead rail 41 of the storage device 4 are disposed with a folding portion 411, respectively, an internal space formed by the overhead rail 41 and the two folding portions 411 contains the flange 131 of the bearing set 13. With the installment of the folding portion 411 and the flange 131, the bearing set 13 may slide within the overhead rail 41 more stably to achieve the advantage that the bearing set 13 is kept from being detached and that the bearing set 13 is contained within the overhead rail 41.

[0035] Refer to figure 8, which is a lateral operation view showing a downward-pressing hydraulic cylinder of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to a preferred embodiment of the invention. As shown in the figure, after a plurality of door panels 11 are lowered and pushed horizontally for layers to be aligned and fit, the downward-pressing hydraulic cylinder 5 is pressed downwards for the downward-pressing plate 51 to press a plurality of door panels 11 with sealing gasket 118 disposed between each panel downwards to be waterproof to achieve the advantages for increase of airtight and waterproof and disaster prevention.

[0036] Refer to figure 9, which is a lateral operation view showing a sideward-pressing hydraulic cylinder of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to a preferred embodiment of the invention. As shown in the figure, after a plurality of door panels 11 are lowered and pushed horizontally for layers to be aligned and fit, the downward-pressing hydraulic cylinder 5 is pressed downwards for the downward-pressing plate 51 to press a plurality of door panels 11 with sealing gasket 118 disposed between each panel downwards to be waterproof (as shown in figure 8), subsequently, the sideward-pressing hydraulic cylinder 6 presses downwards to drive the push lever 61 to induce the stop lever 62 to lower, as the stop lever 62 is lowered to a horizontal angle, the pressing plate 63 is stopped to push horizontally a plurality of door panels 11 for the waterproof glue strip 1172 to be more tight and fit therewith, such that the advantages for increase of airtight and waterproof and disaster prevention are achieved.

[0037] What mentioned above is one preferred embodiment of the invention. Besides, a second embodiment and a third embodiment of the automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention are described as below.

[0038] Refer to figures 1A and 1B, which are a second embodiment for an automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention, wherein the flood protection roller shutter includes a door plate 1, which is composed of a plurality of door panels 11, which may be disposed in between two frames 3 or contained in one storage device 4; a casing 2, which is provided at the top of the door plate 1 and is provided with a motor 21, a hydraulic pump 22(as shown in figure 5A), an automatic controller 23(as shown in figure 5A), an uninterruptible power system 24(as shown in figure 5A) and a storage device 4 in the interior thereof; two frames 3 mounted on two sides of the door plate 1 oppositely to dispose a plurality of said door panels 11; and a storage device 4, wherein at the left and right inner walls of which are provided respectively with one overhead rail 41 in a horizontal direction thereof, one guide rail 42 in a vertical direction, one end of each guide rail 42 being bonded with one connecting branch rail 43, and a gear 45 being provided at the shortest distance between each of the overhead rails 41 and each of the guide rails 42, a chain 46 being engaged with each of the gears 45, each of the chains 46 may move along with each of the overhead rails 41 and each of the guide rails 42.

[0039] Refer to figures 1A and 1B, which are a third embodiment for an automatic auto-sensing flood protection roller shutter with auto-locating reinforced column according to the invention, wherein the auto-locating reinforced column includes a reinforced column 8, which is provided behind a door plate 1 to be driven for transverse movement by a vertical motor 91 provided on the upper end thereon and a horizontal motor 92 provided in the driving device 9, and said reinforced column 8 having a bolt 81 and a vertical motor 82 provided in an inner chamber at the lower end thereof; and a driving device 9, which is provided at the lower portion in a casing 2, a fixation joint 93 and a bearing set 95 being provided at the two inner walls thereof, respectively, two ends of a guiding rod 94 being fixed in said two fixation joints 93, respectively (as shown in figure 2A-1, 2A-2), one end of a guiding screw 96 and one end of a transmission shaft 97 being fixed in said two bearing sets 95, respectively, wherein the other end of said guiding screw 96 and the other end of said transmission shaft 97 are butted mutually, and the vertical motor 91 is provided at the upper end of the reinforced column 8, and the horizontal motor 92 is provided in the driving device 9.

[0040] In summary, from the content disclosed above, the invention does be capable of achieving the expected creation purpose. By said automatic auto-sensing flood protection roller shutter with auto-locating reinforced column, said roller shutter achieves the advantages of safe operation for waterproof and flood protection, strength enhancement for a plurality of door panels, stable movement for a plurality of door panels and equipment protection from damage, being airtight with waterproof, convenient containment, easy to use, protection of door panel structure and increase of door panel life, guidance of stable movement of reinforced column, waterproof and dustproof of retaining base, automatic closing of cover plate as not used, operation of automatic auto-sensing flood protection roller shutter, auto-locating of reinforced column and strength enhancement of waterproof and flood protection; thereby, as the flooding occurs, the automatically auto-sensing flood protection roller shutter of the invention may provide the water level detector activating the alarm value over the water level to transmit the signal to the automatic controller, the automatic controller activates the motors, vertical motors and horizontal motors to lower a plurality of door panels one by one for the flood protection shutter to be self-packed, and moves transversely the reinforced column to the retaining base, the bolt of the reinforced column is pushed automatically into the retaining base to enhance the flood protection strength of the shutter, further, downward pressure and sideward pressure forces of the downward-pressing hydraulic cylinder and the sideward-pressing hydraulic cylinder are applied to secure a plurality of door panels, the ground surface and the reinforced column closely and form airtight and waterproof, such that the functions and advantages of automatically auto-sensing flood protection without manual operation may be accomplished.

REFERENCE NUMERALS IN DRAWINGS

Reference numerals used herein are as follows:

[0041] 

1

door plate

11

door panel

111

hand clamping prevention block piece

112

V-shaped groove

113

door plate fixation hole

114

diaphragm

1141

chamber

115

guide wheel anchor block

116

inverted V-shaped salient angle

1171

waterproof glue strip

1172

waterproof glue strip

118

sealing gasket

12

axis shaft

13

bearing set

131

flange

14

guide wheel fixation plate

15

guide wheel

10

infrared detector

2

casing

21

motor

22

hydraulic pump

23

automatic controller

24

uninterruptible power system

3

frame

4

storage device

41

overhead rail

411

folding portion

42

guide rail

43

branch rail

44

guiding opening

45

gear

46

chain

47

stopper

481

fixation board

482

chain guard board

5

downward-pressing hydraulic cylinder

51

downward-pressing plate

6

sideward-pressing hydraulic cylinder

61

push lever

62

stop lever

63

pressing plate

7

water level detector

8

reinforced column

81

bolt

82

vertical motor

83

ball

84

track

841

retaining base

842

cover plate

843

spring

9

driving device

91

vertical motor

92

horizontal motor

93

fixation joint

94

guiding rod

95

bearing set

96

guiding screw

97

transmission shaft

Claims

1. An automatically auto-sensing flood protection roller shutter with auto-locating reinforced column, including:

a door plate (1), which is composed of a plurality of door panels (11), which can be disposed in between two frames (3) or contained in a storage device (4);

a casing (2), which is provided above the door plate (1) and is provided with a motor (21), a hydraulic pump (22), an automatic controller (23), an uninterruptible power system (24), a storage device (4), a downward-pressing hydraulic cylinder (5) and a driving device (9) in the interior thereof;

two frames (3) mounted on two sides of the door plate (1) oppositely to dispose a plurality of said door panels (11);

a storage device (4), wherein at left and right inner walls of which are provided respectively with an overhead rail (41) in a horizontal direction, a guide rail (42) in a vertical direction, one end of each of the guide rails (42) being bonded respectively with a connecting branch rail (43), and a gear (45) being provided respectively at the shortest distance between each of the overhead rails (41) and each of the guide rails (42), a chain (46) being engaged with each of the gears (45), each of the chains (46) can move along with each of the overhead rails (41) and each of the guide rails (42);

a downward-pressing hydraulic cylinder (5), which is provided in said casing (2) or frame (3), a downward-pressing plate (51) being provided at the lower end thereof to press the door plate (1);

a sideward-pressing hydraulic cylinder (6), which is provided in said frames (3), a push lever (61) being connected to the lower end thereof;

a water level detector (7), which is provided in underground space for a waterproof system to be turned on automatically once a certain water level is detected,

characterized in that

a reinforced column (8) is provided behind the door plate (1), and a vertical motor (82) is provided at the upper end thereof and a horizontal motor (92) is provided in the driving device (9) being provided or manual operation to drive for transverse movement, wherein the inner chamber at the lower end of the reinforced column (8) is provided with a bolt (81) and a vertical motor (82); and

a driving device (9) is provided at the lower portion in the casing (2), wherein a fixation joint (93) and a bearing set (95) are provided at each of the two inner walls thereof, wherein the two ends of a guiding rod (94) are fixed respectively in said two fixation joints (93), wherein one end of a guiding screw (96) and one end of a transmission shaft (97) are fixed in said two bearing sets (95), wherein the other end of said guiding screw (96) and the other end of said transmission shaft (97) are butted mutually, and the vertical motor (82) is provided at the upper end of the reinforced column (8), and the horizontal motor (92) is provided in the driving device (9).

2. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 1, wherein, a hand clamping prevention block piece (111), a V-shaped groove (112) and a door plate fixation hole (113) are provided at the upper ends of the two lateral surfaces of a plurality of said door panels (11) of the door plate (1), respectively, a hand clamping prevention block piece (111), an inverted V-shaped salient angle (116) and two guide wheel anchor blocks (115) are provided at the lower ends of the two lateral surfaces of a plurality of said door panels (11), respectively, multiple diaphragms (114) are provided in the inner chamber of a plurality of said door panels (11) to form multiple chambers (1141), wherein a surface of said V-shaped groove (112), a surface of said inverted V-shaped salient angle (116) and a surface between said door panel and said frame (3) can be stuck respectively with a waterproof glue strip (1172), and a surface of the V-shaped groove (112) pressed by said downward-pressing plate (51) of the downward-pressing hydraulic cylinder (5) can also be stuck with a sealing gasket (118).

3. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 2, wherein, a door plate (1) fixation hole (113) of a plurality of said door panels (11) is inserted with one end of an axis shaft (12), the other end of which drills said chain (46) and sheathes a bearing set (13); the anchor blocks (115) of a plurality of said door panels (11) are locked up with a guide wheel fixation plate (14), which is sheathed with a guide wheel (15).

4. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 1, wherein, an infrared detector (10) is provided at the side frames (3) to detect an abnormal situation as the door plate (1) approaches to the ground surface; or an infrared detector (10) is mounted at the exterior of the roller shutter to detect an abnormal situation as any person, vehicle or object passes.

5. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 1, wherein, two stoppers (47) are provided in the storage device (4) to stop a plurality of said door panels (11), and an opening of said branch rail (43) is provided with a guiding opening (44) expanding outwards, and a fixation board (481) and a chain guard board (482) being installed above the overhead rail (41) of the storage device (4), wherein the upper edge and the lower edge of the overhead rail (41) are provided with a folding portion (411).

6. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 1, wherein, the downward-pressing hydraulic cylinder (5) or the sideward-pressing hydraulic cylinder (6) may be provided with one or more downward-pressing hydraulic cylinders (5), and/or provided with one or more sideward-pressing hydraulic cylinders (6) as need.

7. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 1, wherein, the top of the reinforced column is provided movable across said guiding rod (94) and guiding screw (96) of the driving device (9), the bolt (81) thereof may be driven by said vertical motor (82) to be inserted into and fixed to a retaining base (841), which is provided at a track (84), and a ball (83) is provided at the bottom thereof to stabilize the transverse movement of said reinforced column (8) on the track (84), wherein said retaining base (841) is provided with a cover plate (842) and a spring (843).

8. The automatically auto-sensing flood protection roller shutter with auto-locating reinforced column of claim 1, wherein, said water level detector (7) and an infrared detector (10) perform sensing and detection and send a signal to said automatic controller (23), said automatic controller (23) may control open, close or movement of said flood protection roller shutter, downward-pressing hydraulic cylinder (5), sideward-pressing hydraulic cylinder (6) and reinforced column (8) according to said signal.

9. An automatically auto-sensing flood protection roller shutter with auto-locating reinforced column, characterized in that the auto-locating reinforced column (8) includes:

a reinforced column (8), which is provided behind a door plate (1) to be driven for transverse movement by a vertical motor (82) provided on the upper end thereon and a horizontal motor (92) provided in the driving device (9), and said reinforced column (8) having a bolt (81) and a vertical motor (82) provided in an inner chamber at the lower end thereof; and

a driving device (9), which is provided at the lower portion in a casing (2), a fixation joint (93) and a bearing set (95) being provided at the two inner walls thereof, respectively, two ends of a guiding rod (94) being fixed in said two fixation joints (93), respectively, one end of a guiding screw (96) and one end of a transmission shaft (97) being fixed in said two bearing sets (95), respectively, wherein the other end of said guiding screw (96) and the other end of said transmission shaft (97) are butted mutually, and the vertical motor (82) is provided at the upper end of the reinforced column (8), and the horizontal motor (92) is provided in the driving device (9).

Ansprüche

1. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung, umfassen:

eine Torplatte (1), welche aus einer Vielzahl von Torpaneelen (11) gebildet ist, welche zwischen zwei Rahmen (3) angeordnet oder in einer Stauvorrichtung (4) aufgenommen sein können,

ein Gehäuse (2), welches über der Torplatte (1) ausgebildet ist und mit einem Motor (21), einer Hydraulikpumpe (22), einem automatischen Kontroller (23),

einem unterbrechungsfreien Energieversorgungssystem (24), einer Stauvorrichtung (4), einem abwärts drückenden Hydraulikzylinder (5) und einer Antriebsvorrichtung (9) in deren inneren versehen ist,

zwei Rahmen (3), die an zwei Seiten der Turplatte (1) gegenüberliegend montiert sind, um eine Vielzahl von besagten Torpaneelen (11) anzuordnen,

eine Stauvorrichtung (4), bei der an ihren linken und rechten Innenwänden entsprechend vorgesehen ist eine Überkopfschiene (41) in einer horizontalen Dichtung, eine Führungsschiene (42) in einer vertikalen Richtung, wobei ein Ende jeder der Führungsschienen (42) entsprechend mit einer Verbindungverzweigungsschiene (43) verbunden ist, und ein Zahnrad (45), das entsprechend in dem kleinsten Abstand zwischen jeder der Überkopfschienen (41) und jeder Führungsschiene (42) ausgebildet ist, wobei eine Kette (46) mit jedem der Zahnräder (45) verzahnt, wobei jede der Ketten (46) entlang jeder der Überkopfschienen (41) und jeder der Führungsschienen (42) bewegt werden kann,

einen abwärts drückenden Hydraulikzylinder (5), welcher in dem Gehäuse (2) oder dem Rahmen (3) ausgebildet ist, wobei eine abwärts drückende Platte (51) an dem unteren Ende desselben ausgebildet ist, um gegen dir Torplatte (1) zu drücken,

einen seitwärts drückenden Hydraulikzylinder (6), welcher in den Rahmen (3) ausgebildet ist, wobei ein Schubhebel (61) mit dem unteren Ende desselben verbunden ist,

einen Wasserstanddetektor (7), weicher in einem unterirdischen Raum für ein wasserdichtes System ausgebildet ist, um automatisch angeschaltet zu werden, sobald ein bestimmter Wasserstand detektiert wird,

dadurch gekennzeichnet, dass

eine verstärkte Säule (8) hinter der Torplatte (1) ausgebildet ist und ein Vertikalmotor (82) am oberen Ende derselben ausgebildet ist und ein Horizontalmotor (92) in der Antriebsvorrichtung (9) ausgebildet ist, die neben dem Handbetrieb zum Antrieb zur transversalen Bewegung ausgebildet ist, wobei die innere Kammer am unteren Ende der verstärkten Säule (8) mit einem Bolzen (81) und einem Vertikalmotor (82) ausgebildet ist, und

eine Antriebsvorrichtung (9), die im unteren Bereich des Gehäuses (2) ausgebildet ist, wobei eine Befestigurtgsverbindung (93) und ein Lagersatz (95) an jeder der beiden Innenwände desselben ausgebildet sind, wobei die zwei Enden eines Führungsstabes (94) entsprechend an den zwei Befestigungsverbindungen (93) fixiert sind, wobei ein Ende einer Führungsschraube (96) und ein Ende eines Übertragungsschafts (97) in den zwei Lagersätzen (95) fixiert sind,

wobei das andere Ende der Führungsschraube (96) und das andere Ende des Übertragungsschafts (97) gegenseitig anschlagen, und wobei der Vertikalmotor (82) an dem oberen Ende der verstärkten Säule (8) ausgebildet ist, und

wobei der Horizontalmotor (92) in der Antriebsvorrichtung (9) ausgebildet ist.

2. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 1, bei welchem ein Blockiertell zum Schutz vor dem Einklemmen der Hände (111), eine V-förmige Nut (112) und eine Torplattenfixierungsöffnung (103) an den oberen Enden der zwei Seitenflächen einer Vielzahl der Torpaneele (11) der Torplatte (1) entsprechend ausgebildet sind, wobei ein Blockierteil zum Schutz vor dem Einklemmen der Hände (111), ein umgekehrt V-förmiger hervorstehender Winkel (116) und zwei Führungsradankerblöcke (115) an den unteren Enden der zwei Seitenflächen einer Vielzahl der Torpaneele (11) entsprechend ausgebildet sind, wobei mehrere Diaphragmen (114) in der inneren Kammer einer Vielzahl der Torpaneele (11) ausgebildet sind, um mehrere Kammern (1141) zu bilden, wobei eine Fläche der V-förmigen Nut (112), eine Fläche des umgekehrt V-förmigen hervorstehenden Winkels (116) und eine Fläche zwischen dem Torpaneel und dem Rahmen (3) entsprechend mit einem wasserdichten Klebestreifen (1172) verklebt sein können, und wobei eine Fläche der V-förmigen Nut (112), die durch die abwärts drückende Platte (51) des abwärts drückenden Hydraulikzylinders (5) gedrückt wird, ebenfalls mit einer abdichtenden Dichtung (18) verklebt sein kann.

3. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 2, bei welchem in eine Torplattenfixierungöffnung (113) einer Vielzahl der Torpaneele (111) ein Ende eines Achsschafts (12) eingesteckt ist, wobei das andere Ende desselben die Kette (46) drillt und einen Lagersatz (13) abdeckt, wobei die Ankerblöcke (115) einer Vielzahl der Torpaneele (11) mit einer Führungsradfixierungsplatte (14) verriegelt sind, welche von einem Führungsrad (15) abgestützt ist.

4. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 1, bei welchem ein Infrarotdetektor (10) an den Seitenrahmen (3) ausgebildet ist, um eine unnormale Situation zu detektieren, wenn die Torplatte (1) sich der Bodenfläche nähert, oder ein Infrarotdetektor (10) ist am Außenbereich des Rolltors montiert, um eine unnormale Situation zu detektieren, wie das Passieren einer Person, eines Fahrzeugs oder eines Objekts.

5. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 1, bei welchem zwei Stopper (47) in der Stauvorrichtung (4) ausgebildet sind, um eine Vielzahl von Torpaneelen (11) zu stoppen, und bei dem eine Öffnung der Verzweigungsschiene (43) eine sich auswärts erstreckende Führungsöffnung (44) aufweist, und bei dem eine Fixierplatte (481) und eine Kettenschutzplatte (482) oberhalb der Überkopfschiene (41) der Stauvorrichtung (4) installiert sind, wobei der obere Rand und der untere Rand der Überkopfschiene (41) mit einem Faltelement (411) versehen sind.

6. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 1, bei dem der abwärts drückende Hydraulikzylinder (5) oder der seitwärts drückende Hydraulikzylinder (6) nach Bedarf mit einem oder mehreren abwärts drückenden Hydraulikzylindern (5) und/oder mit einem oder mehreren seitwärts drückenden Hydraulikzylindern (6) vorgesehen sein können.

7. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 1, bei welchem der obere Bereich der verstärkten Säule quer zum Führungsschaft (94) und der Führungsschraube (96) der Antriebsvorrichtung (9) bewegbar ausgebildet ist, wobei der Bolzen (81) derselben durch den Vertikalmotor (82) dazu angetrieben werden kann, in eine Rückhaltebasis (841) eingesetzt und von dieser fixiert zu werden, welche an einer Bahn (84) vorgesehen ist, und wobei eine Kugel (83) am Boden derselben angeordnet ist, um die seitliche Bewegung der verstärkten Säule (8) in der Bahn (84) zu stabilisieren, wobei die Rückhaltebasis (841) mit einer Abdeckungsplatte (842) und einer Feder (843) versehen ist.

8. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung nach Anspruch 1, bei welchem der Wasserstandsdetektor (7) und ein Infrarotdetektor (10) Messungen und Detektionen durchführen und ein Signal an den automatischen Kontroller (23) senden, wobei der automatische Kontroller (23) das öffnen, das Schließen oder die Bewegung des Hochwasserschutzrolltors, den abwärts drückenden Hydraulikzylinder (5), den seitwärts drückenden Hydraulikzylinder (6) und die verstärkte Säule (8) gemäß dem Signal entsprechend kontrollieren kann.

9. Automatisches Hochwasserschutzrolltor mit automatischer Erkennung und einer verstärkten Säule mit automatischer Positionierung,
dadurch gekennzeichnet, dass
die verstärkte Säule mit automatischer Positionierung (8) umfasst:

eine verstärkte Säule (8), welche hinter einer Torplatte (1) ausgebildet ist, um von einem Vertikalmotor (82), der an einem oberen Ende davon angeordnet ist, und einem Horizontalmotor (92), der in der Antriebsvorrichtung (9) angeordnet ist, zu einer Seitwärtsbewegung angetrieben zu werden, und wobei die verstärkte Säule (8) einen Bolzen (81) und einen Vertikalmotor (82) aufweist, der in einer inneren Kammer am unteren Ende derselben ausgebildet ist, und eine Antriebsvorrichtung (9), welche in dem unteren Bereich in einem Gehäuse (2) vorgesehen ist, wobei eine Befestigungsverbindung (93) und ein Lagersatz (95) entsprechend an den zwei Innenwänden desselben ausgebildet sind, wobei zwei Enden eines Führungsschafts (94) entsprechend in den zwei Befestigungsverbindungen (93) fixiert sind, wobei ein Ende einer Führungsschraube (96) und ein Ende eines Übertragungsschafts (97) entsprechend in den zwei Lagersätzen (95) fixiert sind, wobei das andere Ende der Führungsschraube (96) und das andere Ende des Übertragungsschafts (97) wechselseitig anschlagen, und wobei der Vertikalmotor (82) an dem oberen Ende der verstärkten Säule (8) angeordnet ist, und wobei der Horizontalmotor (92) in der Antriebsvorrichtung (9) angeordnet ist.

Revendications

1. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement comprenant :

une plaque de porte (1) qui est composée d'une pluralité de panneaux de porte (11) qui peuvent être disposées entre deux cadres (3) ou contenus dans un dispositif de stockage (4) ;

un bâti (2) qui est prévu au-dessus de la plaque de porte (1) et qui est équipé d'un moteur (21), d'une pompe hydraulique (22), d'un système automatique de régulation (23), d'un système d'alimentation sans interruption (24), d'un dispositif de stockage (4), d'un vérin hydraulique de pression vers le bas (5) et

d'un dispositif d'entraînement (9) à l'intérieur de celui-ci ;

deux cadres (3) montés sur deux côtés de la plaque de porte (1) de manière opposée pour disposer une pluralité desdits panneaux de porte (11) ;

un dispositif de stockage (4) dont des parois intérieures à gauche et à droite sont pourvues respectivement d'un rail aérien (41) dans une direction horizontale, d'un rail de guidage (42) dans une direction verticale, une extrémité de chacun des rails de guidage (42) étant fixée respectivement avec un rail d'embranchement de liaison (43) et un engrenage (45) étant prévu respectivement sur la plus courte distance entre chacun des rails aériens (41) et

chacun des rails de guidage (42), une chaîne (46) étant en prise avec chacun des engrenages (45), chacune des chaînes (46) pouvant se déplacer le long de chacun des rails aériens (41) et de chacun des rails de guidage (42) ;

un vérin hydraulique de pression vers le bas (5) qui est prévu dans ledit bâti (2) ou cadre (3), une plaque de pression vers le bas (51) étant prévue à l'extrémité inférieure de celui-ci pour appuyer sur la plaque de porte (1) ;

un vérin hydraulique de pression sur le côté (6) qui est prévu dans lesdits cadres (3), un levier de poussée (61) étant relié à l'extrémité inférieure de celui-ci ;

un détecteur de niveau d'eau (7) qui est prévu dans un espace souterrain pour qu'un système étanche à l'eau soit automatiquement mis en marche une fois qu'un certain niveau d'eau est détecté,

caractérisé en ce

qu'une colonne renforcée (8) est prévue derrière la plaque de porte (1) et un moteur vertical (82) est prévu à l'extrémité supérieure de celle-ci et un moteur horizontal (92) est prévu dans le dispositif d'entraînement (9) ou un fonctionnement manuel pour entraîner un mouvement transversal, la chambre intérieure à l'extrémité inférieure de la colonne renforcée (8) étant pourvue d'un boulon (81) et d'un moteur vertical (82) et

qu'un dispositif d'entraînement (9) est prévu sur la portion inférieure dans le bâti (2), un joint de fixation (93) et un ensemble de palier (95) étant prévus sur chacune des deux parois intérieures de celui-ci, les deux extrémités d'une tige de guidage (94) étant fixées respectivement dans lesdits deux joints de fixation (93), une extrémité d'une vis de guidage (96) et une extrémité d'un arbre de transmission (97) étant fixées dans lesdits deux ensembles de palier (95),

l'autre extrémité de ladite vis de guidage (96) et l'autre extrémité dudit arbre de transmission (97) étant en butée réciproquement et le moteur vertical (82) étant prévu à l'extrémité supérieure de la colonne renforcée (8) et le moteur horizontal (92) étant prévu dans le dispositif d'entraînement (9).

2. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 1, un bloc contre le pincement des mains (111), une rainure en forme de V (112) et un trou de fixation de la plaque de porte (113) étant prévus respectivement aux extrémités supérieures des deux surfaces latérales d'une pluralité desdits panneaux de porte (11) de la plaque de porte (1), un bloc contre le pincement des mains (111), un angle saillant en forme de V inversé (116) et deux blocs d'ancrage de roue de guidage (115) étant prévus respectivement aux extrémités inférieures des deux surfaces latérales d'une pluralité desdits panneaux de porte (11), des diaphragmes multiples (114) étant prévus dans la chambre intérieure d'une pluralité desdits panneaux de porte (11) pour former des chambres multiples (1141), une surface de ladite rainure en forme de V (112), une surface dudit angle saillant en forme de V inversé (116) et une surface entre ledit panneau de porte et ledit cadre (3) pouvant être collées respectivement avec une bande de colle étanche à l'eau (1172) et une surface de la rainure en V (112) pressée par ladite plaque de pression vers le bas (51) du vérin hydraulique de pression vers le bas (5) pouvant également être collées avec un joint d'étanchéité (118).

3. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 2, un trou de fixation (113) de plaque de porte (1) d'une pluralité desdits panneaux de porte (11) étant inséré avec une extrémité d'un arbre (12), l'autre extrémité duquel perce ladite chaîne (46) et gaine un ensemble de palier (13), les blocs d'ancrage (115) d'une pluralité desdits panneaux de porte (11) étant verrouillés avec une plaque de fixation de roue de guidage (14) qui est gainée avec une roue de guidage (15).

4. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 1, un détecteur infrarouge (10) étant prévu sur les cadres de côté (3) pour détecter une situation anormale lorsque la plaque de porte (1) s'approche de la surface du sol ou un détecteur infrarouge (10) étant montré à l'extérieur du volet roulant pour détecter une situation anormale lorsqu'une personne, un véhicule ou un objet passe.

5. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 1, deux obturateurs (47) étant prévus dans le dispositif de stockage (4) pour obturer une pluralité desdits panneaux de porte (11) et une ouverture dudit rail d'embranchement (43) étant pourvue d'une ouverture de guidage (44) qui s'étend vers l'extérieur, et un panneau de fixation (481) et un panneau de protection de la chaîne (482) étant installés au-dessus du rail aérien (41) du dispositif de stockage (4), le bord supérieur et le bord inférieur du rail aérien (41) étant pourvus d'une portion de pliage (411).

6. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 1, le vérin hydraulique de pression vers le bas (5) ou le vérin hydraulique de pression vers le côté (6) pouvant être pourvu d'un ou deplusieurs vérins hydrauliques de pression vers le bas (5) et/ou pourvu d'un ou de plusieurs vérins hydrauliques de pression vers le côté (6), si nécessaire.

7. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 1, le dessus de la colonne renforcée étant prévu mobile sur ladite tige de guidage (94) et la vis de guidage (96) du dispositif d'entraînement (9), le boulon (81) de celui-ci pouvant être entraîné par ledit moteur vertical (82) pour être inséré dans et fixé à une base de retenue (841) qui est prévue sur une piste (84) et une bille (83) étant prévue sur la partie inférieure de celle-ci pour stabiliser le mouvement transversal de ladite colonne renforcée (8) sur la piste (84), ladite base de retenue (841) étant pourvue d'une plaque de recouvrement (842) et d'un ressort (843).

8. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement selon la revendication 1, ledit détecteur de niveau d'eau (7) et un détecteur infrarouge (10) réalisant un palpage et une détection et envoyant un signal audit système automatique de régulation (23), ledit système automatique de régulation (23) pouvant contrôler l'ouverture, la fermeture ou le mouvement dudit volet roulant de protection contre les inondations, du vérin hydraulique de pression vers le bas (5), du vérin hydraulique de pression vers le côté (6) et de la colonne renforcée (8) conformément audit signal.

9. Volet roulant de protection contre les inondations à détection automatique avec colonne renforcée d'auto-positionnement, caractérisé en ce que la colonne renforcée d'auto-positionnement (8) comprend :

une colonne renforcée (8) qui est prévue derrière une plaque de porte (1) pour être entraînée pour un mouvement transversal par un moteur vertical (82) prévu à l'extrémité supérieure de celle-ci et un moteur horizontal (92) prévu dans le dispositif d'entraînement (9) et ladite colonne renforcée (8) ayant un boulon (81) et un moteur vertical (82) prévu dans une chambre intérieure à l'extrémité inférieure de celle-ci et

un dispositif d'entraînement (9) qui est prévu sur une portion inférieure dans un bâti (2), un joint de fixation (93) et un ensemble de palier (95) étant prévus respectivement sur les deux parois intérieures de celui-ci, deux extrémités d'une tige de guidage (94) étant fixées respectivement dans lesdits deux joints de fixation (93), une extrémité d'une vis de guidage (96) et une extrémité d'un arbre de transmission (97) étant fixées respectivement dans lesdits deux ensembles de palier (95), l'autre extrémité de ladite vis de guidage (96) et l'autre extrémité dudit arbre de transmission (97) étant en en butée réciproquement et le moteur vertical (82) étant prévu à l'extrémité supérieure de la colonne renforcée (8) et le moteur horizontal (92) étant prévu dans le dispositif d'entraînement (9).

Drawing