JP2018178591A - Device for opening and closing sluice gate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device for opening and closing a sluice gate capable of winding a plurality of movable sprockets with a chain without difficulty, and opening and closing a relatively heavy door body with a relatively small size.SOLUTION: A device 2 for opening and closing a sluice gate comprises: a chain 20; a fixing portion 21 fixing one end of the chain 20; a device 22 for opening and closing including a driving sprocket 23 disposed above a sluice gate 1; a movable sprocket 24 provided in a door body 10; and a fixed sprocket 25 provided above the sluice gate 1. There are provided a plurality of movable sprockets 241, 242 as to the movable sprocket 24. The driving sprocket 23, movable sprockets 241, 242, and fixed sprocket 25 are disposed so that the center lines C in the tooth width direction of them are on the same plane with each other. The chain 20 is wound on, starting from the fixing portion 21, the movable sprocket 241, the fixed sprocket 25, the movable sprocket 242, and driving sprocket 23 in this order.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a sluice gate opening and closing device that raises and lowers a door by a chain.

In general, a gate opening and closing device for opening and closing a water channel such as a river or a canal is provided to a pair of portals, a door disposed between the portals and guided so as to be able to move up and down on both sides, and an operation table at the top of both portals. It is arrange | positioned and it has the structure provided with the opening / closing machine for moving a door up and down. Then, the door is raised and lowered via a chain, a wire rope and the like by the opening and closing machine to open and close the water gate.

  For example, patent document 1 is known as a prior art regarding a gate opening and closing device. Patent Document 1 discloses a sluice opening and closing device capable of opening and closing a sluice by raising and lowering a door without adopting a special large chain even when the opening and closing load is large. In this sluice gate opening and closing device, the load acting on each chain main body is reduced by arranging and unitizing a plurality of independent chain main bodies in parallel for elevating chains of the door.

  Moreover, as a thing applied when the opening and closing load is large, the sluice gate opening / closing apparatus using a wire rope and a combination pulley is also generally known conventionally. As shown in FIGS. 4 and 5, the lock apparatus using the wire rope 20 ′ is connected to the winding drum 230 and the winding drum 230 to drive the winding drum 230 to rotate about its axis ( (Not shown) and a combination pulley formed by combining a moving pulley 24 'and a fixed pulley 25'. The movable pulley 24 'is provided on the door, and the fixed pulley 25' is rotatably provided at a fixed position of the operation post of the portal. Then, one end of the wire rope 20 'is fixed by the fixing portion 21', the other end is connected to the winding drum 230, and the middle portion is wound around the moving pulley 24 'and the fixed pulley 25'. Then, a plurality of moving pulleys 24 'and fixed pulleys 25' are provided, and the middle portion of the wire rope 20 'is alternately and sequentially wound around the plurality of moving pulleys 24' and fixed pulleys 25 ', that is, from the fixed portion 21', With a configuration in which the moving pulley 24 ', the fixed pulley 25', the moving pulley 24 ',..., And the winding drum 230 are wound in this order, a relatively small door 22' with a relatively small opening / closing machine 22 ' It can be raised and lowered.

JP, 2012-251404, A

  When the wire rope 20 'and the combination pulleys 24' and 25 'are used as shown in FIGS. 4 and 5 among the above-described conventional techniques, the wire rope 20 is particularly provided even when a plurality of moving pulleys 24' are provided. Since 'is flexible and the direction of bending is not limited, there is a relative freedom in the arrangement of the moving pulley 24' and the fixed pulley 25 '. Therefore, the centerlines C24 'and C25' of the moving pulleys 24 'and 24' and the fixed pulleys 25 'do not have to be located on the same plane, so each moving pulley 24 as shown in Figs. 4 and 5. The ', 24' can be coaxially supported. In addition, when the wire rope 20 'is taken up by the take-up drum 230 or pulled out from the take-up drum 230, the position can be moved in the axial direction with respect to the take-up drum 230 (FIG. 4 and FIG. Arrow M in FIG.

  On the other hand, in the case of using the chain in the above-mentioned prior art, since the chain bends only in a certain direction, a plurality of moving pulleys 24 'shown in FIG. 4 and FIG. The moving sprocket can not be coaxially supported. As a result, in the water gate opening and closing machine using a conventional chain as in Patent Document 1, a plurality of moving sprockets can not be disposed, and a relatively small opening and closing machine opens and closes a relatively heavy door. There was a problem that it was impossible.

  The present invention has been made in view of the above-mentioned problems, and in a water gate opening and closing apparatus using a chain, a relatively small opening and closing machine which relatively winds a chain by relatively winding the chain around a plurality of moving sprockets It is an object of the present invention to provide a sluice opening and closing device which can open and close the

In order to achieve the above object, the invention according to claim 1 relates to a chain, a fixing portion for fixing one end of the chain, and an upper portion of the water gate in the water gate which is opened and closed by moving the door vertically. An open / close unit having a drive sprocket on which the chain is wound, a moving sprocket provided on the door, and a fixed sprocket provided above the water gate, the chain being the drive sprocket, It is a water gate opening and closing device which raises and lowers the door by being driven to rotate the drive sprocket of the opening and closing machine by being wound around the moving sprocket and the fixed spout, at least a plurality of moving sprockets being provided The drive sprocket, each of the moving sprockets, and the fixed sprocket have a center line in the width direction of the teeth. Are arranged on the same plane have, the chain between the driving sprocket and the fixed portion, characterized in that it alternately successively wound hung on to said movement sprockets and the constant sprocket.
In the first aspect of the invention, the center line in the tooth width direction of each moving sprocket is coplanar with the center line in the tooth width direction of the drive sprocket and the fixed sprocket, that is, a chain wound around these sprockets is bent. Thus, the chain can be wound around each sprocket without difficulty by arranging on an imaginary plane drawn by the center line of the chain. Then, by alternately winding around a plurality of moving sprockets and a constant sprocket alternately between the fixed part of the chain and the driving sprocket, it is possible to construct a combined sprocket including the plurality of moving sprockets, and hence the door Even when the weight of the body is relatively heavy, the door moves up and down with a relatively small driving force switchgear. The present invention is not limited to the exact same plane that the center lines in the tooth width direction are arranged on the same plane with respect to the drive sprocket, each moving sprocket, and the fixed sprocket, and the chain is not limited. The range of bending to a direction different from the predetermined direction of bending can be included, or the range of errors generally recognized in the technical field to which the present invention belongs.

In order to achieve the above object, the movable sprocket according to the second aspect of the present invention is disposed in parallel on the upstream side and the downstream side in the water flow direction in the invention according to the first aspect. It is characterized by
In the invention of claim 2, the rotation shafts of the drive sprocket and the constant sprocket, including the moving sprockets, extend in the direction parallel to the width direction of the door and in the direction perpendicular to the water flow direction with respect to the water gate. Since the movable sprockets are disposed in parallel on the upstream side and the downstream side in the water flow direction, the size of the water gate opening / closing device in the width direction of the door becomes compact.

In order to achieve the above object, the invention according to claim 3 is characterized in that, in the invention according to claim 1, the moving sprockets are arranged in parallel in the width direction of the door. I assume.
In the invention of claim 3, the rotation shafts of the drive sprocket and the constant sprocket, including the moving sprockets, extend in the direction orthogonal to the width direction of the door and in the direction parallel to the water flow direction with respect to the water gate. Since the movable sprockets are arranged in parallel in the width direction of the door, the size of the water gate opening / closing device in the water flow direction becomes compact.

In order to achieve the above object, the invention according to claim 4 relates to the sluice gate opening and closing device according to claim 1, wherein the moving sprocket is a side of either one end or the other end of the door. And a second moving sprocket disposed on the other side of either the one end or the other end of the door body, wherein the chain includes the fixed portion First moving sprocket, second moving sprocket, fixed sprocket, third moving sprocket, and drive sprocket, or the third moving sprocket, fixed sprocket, second moving sprocket, first moving The sprocket and the drive sprocket are characterized in that they are sequentially wound.
In the invention of claim 4, both sides of the door are suspended by a single chain. Therefore, it is not necessary to suspend both sides of the door with individual chains.

In order to achieve the above object, the invention according to claim 5 in the sluice gate opening and closing device according to claim 5 is such that, in the invention according to claim 1, the moving sprockets are vertically disposed in parallel with the elevating direction of the door It is characterized by The sluice gate switching device according to claim 1.
In the invention of claim 5, the number of constant sprockets corresponding to the number of moving sprockets is provided. The constant sprockets are arranged in parallel in the horizontal direction so that the chain does not interfere with the fixed part and the drive sprocket of the switchgear. Starting from each moving sprocket, the rotation shafts of the drive sprocket and each fixed sprocket extend in a direction parallel to the width direction of the door and in a direction perpendicular to the water flow direction with respect to the water gate. Since the movable sprockets are arranged in parallel in the width direction of the door, the size of the water gate opening / closing device in the water flow direction becomes compact.

In order to achieve the above object, the invention according to claim 6 according to claim 6 is the invention according to claim 5, wherein the diameter of the moving sprocket located above is the diameter of the moving sprocket located below it It is characterized by being smaller than.
In the invention of claim 6, the diameter of the moving sprocket located above is made smaller than the diameter of the moving sprocket located below it, so that the chain does not interfere with the fixed part and the drive sprocket of the switching device. The spacing between the number of moving sprockets and the corresponding number of constant sprockets can be reduced. Therefore, the size occupied by the water gate opening / closing device in the water flow direction and the width direction of the door becomes compact.

In order to achieve the above object, the invention according to claim 7 relates to the parent gate in which the door is in contact with the bottom surface of the water gate, and relative to the parent gate. The movable gate is characterized in that the movable sprocket is provided to the parent gate and the child gate, respectively.
In the invention according to claim 7, when the door of the water gate includes a parent gate in contact with the bottom surface of the water gate and a child gate which moves up and down relative to the parent gate, the water gate opening and closing applied to the water gate An apparatus is embodied.

  According to the present invention, a plurality of moving sprockets are provided, and the driving sprocket, the moving sprocket, and the fixed sprocket are arranged such that the center lines in the width direction of the teeth lie on the same plane, and the fixed portion and the drive of the chain. By alternately winding the moving sprocket and the constant sprocket alternately between the sprockets, the chain can be reasonably wound on a plurality of moving sprockets, and a relatively small opening and closing machine opens and closes a relatively heavy door. It is possible to provide a lock that can be

It is the front view (A) shown in order to demonstrate one Embodiment of the water gate to which this invention is applied, and the elements on larger scale (B) shown in order to demonstrate the unitized chain. They are a side view (A) showing one embodiment of a sluice gate switchgear of the present invention, and a partial front view (B) showing a second embodiment of the sluice gate switchgear device of the present invention. It is a side view showing a 3rd embodiment of a sluice gate switching device of the present invention. They are a side view (A) showing a 4th embodiment of a sluice gate switching device of the present invention, and a side view (B) showing a 5th embodiment of a sluice gate switching device of the present invention. It is a side view showing a 6th embodiment of a sluice gate switching device of the present invention. It is a schematic front view of the winding mechanism which is the principal part of the water gate opening and closing device using the conventional wire rope and a combination pulley. It is a schematic perspective view of the winding mechanism shown in FIG.

  One embodiment of a sluice gate opening and closing device according to the present invention will be described in detail based on FIG. 2A with reference to FIGS. 1A and 1B.

  As shown in FIG. 1A, the water gate 1 to which the water gate opening and closing device of this embodiment is applied is disposed between the pair of gate posts 11 and 11 and the gate posts 11 and 11 so that both side edges can be moved up and down A door 10 to be guided is provided, and an operation console 12 is formed on the top of the two column posts 11 and 11, respectively.

  The sluice gate opening / closing device 2 according to the present embodiment is generally disposed in the sluice gate 1, which opens and closes by moving the door 10 up and down, the chain 20, the fixing portion 21 for fixing one end of the chain 20, and And a moving sprocket 24 (241, 242) provided on the door 10, and a fixed sprocket 25 provided on the upper side of the water gate 1. The chain 20 is wound around the drive sprocket 23, the moving sprocket 24, and the constant sprocket 25, and rotationally drives the drive sprocket 23 of the opening / closing unit 22 to raise and lower the door 10. And, at least the moving sprockets 24 are provided with a plurality 241, 242, and the driving sprockets 23, the moving sprockets 241, 242, and the fixed sprockets 25 have their center lines in the tooth width direction as shown in FIG. C (coincident with the center line of the chain 20) are disposed on the same plane (virtual plane parallel to the paper surface of FIG. 2A), and the chain 20 has a distance between the fixed portion 21 and the drive sprocket 23 The moving sprockets 241 and 242 and the constant sprocket 25 are alternately wound around the moving sprocket 241, the constant sprocket 25, the moving sprocket 242, and the driving sprocket 23 sequentially from the fixed portion 21 in the present embodiment.

  The sluice gate opening and closing device 2 in the present embodiment is configured to suspend both ends of the door 10 in the width direction (left and right direction in the front view shown in FIG. 1A) by the pair of chains 20 and 20 respectively. It is done. Further, in the present embodiment, as shown in FIG. 2A, two moving sprockets 241 and 242 wound around each chain 20 are provided. In the following description, the two moving sprockets 24 and 24 will be referred to as a first moving sprocket 241 and a second moving sprocket 242, as necessary. On the other hand, in the present embodiment, a single constant sprocket 25 is provided. Furthermore, as shown in FIG. 1B, the chain 20 in the present embodiment is unitized by arranging two independent chain bodies 200 in parallel. Therefore, the drive sprocket 23, the first and second moving sprockets 241 and 242, and the constant sprocket 25 are arranged in parallel along their respective motion axes, and a pair of sprocket plates 24S on which the chain body 200 of each chain 20 is wound. , 24S, and 25S, 25S (the sprocket plates constituting the drive sprocket 23 have the same configuration as the sprocket plates 24S, 24S of the moving sprocket 24 and the sprocket plates 25S, 25S of the constant sprocket 25 , Illustration omitted). As indicated by the alternate long and short dash line C-C in FIG. 1B, the center line in the tooth width direction of each sprocket is located between the pair of sprocket plates 24S, 24S, and 25S, 25S. It coincides with the center line of the integrated chain 20.

  As shown in FIG. 1A, the opening and closing machine 22 is provided on each operation console 12 of the water gate 1, one opening and closing machine 22 is provided with a motor 220, and the other opening and closing machine 22 is The shaft 221 is connected to the motor 220 of one of the opening and closing machines 22. Thus, the drive sprockets 23 of the both opening and closing machines 22 are rotationally driven by the motor 220 of one of the opening and closing machines 22. In addition, although it demonstrates with one or the other on-off motor 22 based on (A) of FIG. 2 shown by the side view below, both open-and-close motors 22 have motor 220 or are connected with motor 220 by shaft 221. It is configured the same way, except for differences. Further, a reduction gear composed of a gear mechanism or the like can be interposed between the motor 220 and the shaft 221 as required.

  The fixed sprocket 25 is rotatably supported by a mount 222 of the opening and closing machine 22. Further, in the present embodiment, the first and second moving sprockets 241 and 242 are respectively shown in the direction of water flow (indicated by the arrow F in FIG. 2A) on the brackets 100 provided at the upper ends of the door 10. ) Are arranged in parallel on the upstream side and downstream side and rotatably supported.

  In the present embodiment, the drive sprocket 23 of the opening / closing machine 22, the first and second moving sprockets 241 and 242 of the door 10, and the rotation axis of the constant sprocket 25 are in the direction orthogonal to the water flow direction F and the door It is arranged to extend in a direction parallel to the width direction of the

  Further, the water gate opening and closing device 2 in the present embodiment further includes a chain storage portion 26 for storing the other end of the chain 20 and a storage guide sprocket 27 for urging the other end of the chain 20 to be fed into the chain storage portion 26. And an intermediate guide sprocket 28 on which the chain 20 between the drive sprocket 23 and the storage guide sprocket 27 is wound. As shown in FIG. 1B, the storage guide sprocket 27 and the intermediate guide sprocket 28 have center lines in the width direction of the drive guide 23 and first and second moving sprockets 241 and 242 of the door 10. , And in the same plane as the center line C in the tooth width direction of the constant sprocket 25. The chain storage portion 26, the storage guide sprocket 27, and the intermediate guide sprocket 28 for storing the other end of the chain 20 are not essential components for the water gate opening and closing device of the present invention, and can be provided as needed. . In addition, when providing a configuration for receiving the other end of the chain 20, the configuration is limited to the configuration including the chain storage portion 26, the storage guide sprocket 27, and the intermediate guide sprocket 28 as shown in the figure. Alternatively, other types can be used.

  The chain 20 is sequentially wound around the first moving sprocket 241, the constant sprocket 25, the second moving sprocket 242, and the driving sprocket 23 from one end fixed to the fixed portion 21 of the operation console 12, It extends in a meandering manner and is wound around the intermediate guide sprocket 28 and the storage guide sprocket 27, and the other end side is stored in a folded state in the chain storage portion 26.

  In the sluice gate opening / closing device 2 configured as described above, the motor 220 of the opening / closing motor 22 is driven when the door 10 is lifted to open the sluice gate 1 from a state where the louver 10 descends and closes the sluice 1 . As a result, by the rotation of the motor 220 and the shaft 221 connected to the motor 220, the drive sprockets 23, 23 of the both opening / closing devices 22, 22 rotate in synchronization. The other end side of the chain 20 is biased by the storage guide sprocket 27 via the intermediate guide sprockets 28 and 28 and stored in the chain storage portion 26. Further, between the one end fixed to the fixed portion 21 of the chain 20 and the drive sprocket 23, the drive sprocket 23 is rotated to drive the other end, so that the length becomes short, and accordingly, The door 10 ascends so as to be suspended from the chain 20 via the first and second movable sprockets 241 and 242. At this time, the first and second moving sprockets 241, similar to the operation of a generally known combination pulley (see the plurality of moving pulleys 24 '24' and the fixed pulley 25 'in FIGS. 4 and 5) Since the chain 20 is wound around the combination of the fixed sprocket 25 and the fixed sprocket 25, even when the weight of the door 10 is relatively large, the door 10 is lifted by the relatively small size opening / closing device 22. Can. Therefore, the scale of the gate opening / closing device 2 can be reduced to a small size.

  The drive sprocket 23, the first and second moving sprockets 241 and 242 of the door 10, the constant sprocket 25, the intermediate guide sprocket 28, and the storage guide sprocket 27 have their center lines C in the tooth width direction on the same plane. Because the chain 20 is disposed to be positioned, the chain 20 can be bent in a fixed direction on the plane without difficulty.

  Furthermore, in the present embodiment, the rotation axes of the sprockets 23, 241, 242, 25, 28, 27 are arranged to extend in the direction orthogonal to the water flow direction F and in the direction parallel to the width direction of the door 10. Since the first moving sprocket 241 and the second moving sprocket 242 are arranged in parallel on the upstream side and the downstream side of the door 10 in the water flow direction F, the water gate opening and closing device 2 suspends both sides of the door 10 The size of the door 10 in the width direction can be made compact.

  Next, a second embodiment of the sluice gate switching device according to the present invention will be described in detail based mainly on FIG. 2 (B). In the present embodiment, the same or corresponding parts as those in the first embodiment described above are denoted by the same reference numerals and descriptions thereof will be omitted, and only different parts will be described. In FIG. 2B, only one side of the portal 11 and the door 10 of the water gate 1 is shown.

  In the water gate opening and closing device 2 in the second embodiment, first and second moving sprockets 241 and 242 are arranged in parallel in the width direction of the door 10. The rotation axes of the first and second moving sprockets 241 and 242 are arranged to extend in a direction parallel to the water flow direction F and in a direction perpendicular to the width direction of the door 10. Thus, with the arrangement of the first and second moving sprockets 241 and 242, the rotation shafts of the drive sprocket 23, the fixed sprocket 25, the intermediate guide sprocket 28, and the storage guide sprocket 27 are also first and second. The movable sprockets are disposed so as to extend in parallel with the rotational axes of the rotational shafts 241 and 242 of the movable sprockets.

  In the second embodiment, the rotation axes of the sprockets 23, 241, 242, 25, 28, 27 are arranged to extend in a direction parallel to the water flow direction F and in a direction perpendicular to the width direction of the door 10. Since the first moving sprocket 241 and the second moving sprocket 242 are arranged in parallel in the width direction of the door 10, the water flow direction F of the water gate opening and closing device 2 (in FIG. Size in the vertical direction can be made compact.

  Next, a third embodiment of the sluice gate switching device according to the present invention will be described in detail mainly based on (A) and (B) of FIG. In the present embodiment, the same or corresponding parts as those in the first and second embodiments described above are denoted by the same reference numerals and descriptions thereof will be omitted, and only different parts will be described. In FIG. 3, the middle part of the door 10 is shown broken. In addition, (A) and (B) in FIG. 3 are for explaining the first water gate opening and closing device 2A and the second water gate opening and closing device 2B (described later) provided on the upstream side and the downstream side of the door 10 respectively. In the drawings, each shows a state as viewed from the same direction on the upstream side or downstream side of the water gate 1.

  The sluice gate switching device 2 in the third embodiment includes a first sluice gate switching device 2A and a second sluice gate switching device 2B. The first sluice gate opening and closing device 2A and the second sluice gate opening and closing device 2B are chains 20 and 20, fixed parts 21 and 21, driving sprockets 23 and 23, constant sprockets 25 and 25, middle sprockets 28 and 28, respectively. 28, 28 are separately provided. Further, the first water gate opening and closing device 2A and the second water gate opening and closing device 2B individually include first to third moving sprockets 241, 242, 243 and 241, 242, 243, respectively. However, the first water gate opening and closing device 2A and the second water gate opening and closing device 2B are configured to share one motor 220. Fixing portions 21 and 21 are provided on the operation table 12 of the right side portal 11 in (A) and (B) in FIG. 3, and the left portal 11 in (A) and (B) in FIG. 3. The operation console 12 is provided with one motor 220 of the open / close machine 22, chain storage portions 26, 26, storage guide sprockets 27, 27, and intermediate guide sprockets 28, 28, 28, 28. There is. In the case of the embodiment shown in FIG. 3, the axis of rotation of the motor 220 extends perpendicularly to the plane of the drawing of FIG. 3, and both ends of the axis of rotation project outside the motor 220. The drive sprockets 23, 23 of the first water gate opening / closing device 2A and the second water gate opening / closing device 2B are connected to the end of the rotary shaft projecting to the outside of the motor 220, respectively. The chains 20, 20 of the first water gate opening and closing device 2A and the second water gate opening and closing device 2B are wound around the drive sprockets 23, 23, respectively.

  As shown in FIG. 3A, the first moving sprocket 241 of the first water gate opening and closing device 2A is pivotable to a bracket 100 provided on the right side of the door 10 in FIG. 3A. The second and third moving sprockets 242 and 243 are supported in a row in the width direction of the door 10 in a bracket 100 provided on the left side of the door 10 in FIG. It is pivotally supported. Further, in the first water gate opening and closing device 2A, the constant sprocket 25 is rotatably supported by a gantry 222 provided on the operation console 12 of the left portal 11 in FIG. 3A. And one end of the chain 20 of the first water gate opening and closing device 2A is fixed to the fixed portion 21, and the middle part is the first moving sprocket 241, the second moving sprocket 242, the fixed sprocket 25, the third moving sprocket 243, The driving sprocket 23, the intermediate guide sprocket 28, and the storage guide sprocket 27 are sequentially wound around, and the other end is stored in the chain storage portion 26.

  On the other hand, as shown in FIG. 3B, the first moving sprocket 241 of the second water gate opening and closing device 2B is pivoted to the bracket 100 provided on the left side of the door 10 in FIG. 3B. The second and third movable sprockets 242 and 243 are supported in a row, in the width direction of the door 10, on a bracket 100 provided on the right side of the door 10 in FIG. 3B. , Are each pivotally supported. The rotation axes of the first, second and third moving sprockets 241, 242 and 243 are arranged to extend in a direction parallel to the water flow direction F and in a direction perpendicular to the width direction of the door 10. Further, in the second water gate opening and closing device 2B, the constant sprocket 25 is rotatably supported by a gantry 222 provided on the operation console 12 of the portal 11 on the right side in FIG. 3B. The chain 20 of the second sluice gate opening and closing device 2B is fixed at one end to the fixed portion 21 and the middle portion is the third moving sprocket 243, the fixed sprocket 25, the second moving sprocket 242, the first moving sprocket 241, The driving sprocket 23, the intermediate guide sprocket 28, and the storage guide sprocket 27 are sequentially wound around, and the other end is stored in the chain storage portion 26.

  Here, in the first and second embodiments described above, both sides in the width direction of the door 10 are suspended by the individual chains 20, whereas in the third embodiment, the first water gate is suspended. Both sides of the door 10 in the width direction can be suspended by the single chains 20 of the opening / closing device 2A and the second water gate opening / closing device 2B. Further, by providing the first water gate opening and closing device 2A and the second water gate opening and closing device 2B on the upstream side and the downstream side of the door 10, the first water gate opening and closing device 2A and the second water gate opening and closing device 2B are each a single chain 20 Even if it uses, the door 10 can be raised and lowered stably.

  Next, a fourth embodiment of the sluice opening and closing device according to the present invention will be described in detail based mainly on FIG. 4 (A). In the present embodiment, the same or corresponding parts as those in the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted, and only different parts will be described.

  The sluice gate opening and closing device 2 in the fourth embodiment is disposed in parallel so that the first and second moving sprockets 241 and 242 are positioned one above the other in the height direction of the door 10. The rotation axes of the first and second moving sprockets 241 and 242 are arranged to extend in a direction perpendicular to the water flow direction F and in a direction parallel to the width direction of the door 10. Thus, with the arrangement of the first and second moving sprockets 241 and 242, the rotation shafts of the drive sprocket 23, the fixed sprocket 25, the intermediate guide sprocket 28, and the storage guide sprocket 27 are also first and second. It is arranged to extend in parallel with the rotation axis of the movable sprockets 241, 242.

  Furthermore, in the present embodiment, the constant sprocket 25 is configured by the first and second constant sprockets 251 and 252. In the embodiment shown in FIG. 4A, the first and second moving sprockets 241 and 242 are disposed upstream of the drive sprocket 23 with respect to the water flow direction F, and one fixed sprocket 251 is , And the other constant sprocket is disposed upstream of the first and second moving sprockets 241 and 242, and the fixed portion 21 is disposed between the first and second moving sprockets 241 and 242 and the driving sprocket 23. Are disposed below the first and second constant sprockets 251 and 252 between the first and second moving sprockets 241 and 242 and the second constant sprocket 252. Then, the chain 20 is sequentially wound around the first moving sprocket 241, the first constant sprocket 251, the second constant sprocket 252, the second moving sprocket 242, and the driving sprocket 23 from one end fixed to the fixed portion 21; It extends in a substantially spiral shape. The present invention is not limited to this embodiment, and the moving sprocket 24 provided on the side of the door 10 on the downstream side of the drive sprocket 23 with respect to the water flow direction F (in this embodiment, the first embodiment) And a second moving sprocket 241, 242), and an intermediate guide sprocket 28, a storage guide sprocket 27, and a chain storage portion 26 for storing the other end of the chain 20 on the upstream side of the drive sprocket 23. One constant sprocket 251 is disposed between the first and second moving sprockets 241 and 242 and the driving sprocket 23, and the other constant sprocket is disposed downstream of the first and second moving sprockets 241 and 242. , And the fixed portion 21 between the first and second moving sprockets 241 and 242 and the second constant sprocket 252. Upstream of the driving sprocket 23 with respect to the moving sprocket 24 provided on the side of the door 10 according to the position of the center of gravity of the door 10, for example, disposed below the first and second constant sprockets 251 and 252 It can be determined on the side or the downstream side.

  In the fourth embodiment, the rotation axes of the sprockets 23, 241, 242, 25, 28, 27 are arranged to extend in a direction perpendicular to the water flow direction F and in a direction parallel to the width direction of the door 10. Since the first moving sprocket 241 and the second moving sprocket 242 are arranged in parallel up and down in parallel with the raising and lowering direction of the door 10, the door 10 of the sluice opening and closing device 2 for suspending the both sides of the door 10 The size occupied in the width direction of each can be made compact.

  Next, a fifth embodiment of the sluice opening and closing device according to the present invention will be described in detail based mainly on FIG. 4 (B). In the present embodiment, the same or corresponding parts as those in the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted, and only different parts will be described.

  In the sluice gate opening and closing device 2 in the fifth embodiment, the first and second moving sprockets 241 and 242 are positioned one above the other in the elevating direction (height direction) of the door 10 as in the fourth embodiment. As described above, the diameter of the first moving sprocket 241 located above is smaller than the diameter of the second moving sprocket 242 located below. As in the third embodiment, the chain 20 has the first moving sprocket 241, the first fixed sprocket 251, the second fixed sprocket 252, the second moving sprocket 242, the driving sprocket from one end fixed to the fixed portion 21. 23 are wound sequentially.

  Since the first moving sprocket 241 has a smaller diameter than the second moving sprocket 242, the distance between the first fixed sprocket 251 and the second fixed sprocket 252 can be made closer as compared to the fourth embodiment, The bracket 100 of the door 10 can be made smaller. Therefore, in the fifth embodiment, the sizes of the gate opening and closing device 2 for suspending the both sides of the door 10 in the width direction of the door 10 and the sizes in the water flow direction F are made compact. Can.

  Next, a sixth embodiment of the sluice gate switchgear of the present invention will be described in detail based mainly on FIG. In the present embodiment, the same or corresponding parts as those in the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted, and only different parts will be described.

  The door 10 of the water gate 1 in the sixth embodiment is located below the parent gate 101 whose lower end is in contact with the bottom surface of the water gate, and above the parent gate 101 with respect to the parent gate 101. A child gate 102 that moves up and down relatively, and a restriction mechanism 103 that restricts the child gate 102 to move away from the parent gate 101 are provided. That is, this embodiment explains the case where the gate opening and closing device 2 of the present invention is applied to the water gate 1 called a so-called parent-child gate or a two-stage gate. The restriction mechanism 103 in this embodiment includes a tension rod 104 erected on the parent gate 101, and a receiving piece 105 provided on the child gate 102 and having a hole (not shown) for inserting the tension rod 104. And a detachment prevention member 106 provided at the upper end of the tension rod 104 and preventing the upper end of the tension rod 104 inserted into the hole of the reception piece 105 from coming out of the reception piece 105. The mass of the parent gate 101 is set to be larger than the mass of the child gate 102. The detachment prevention member 106 can be configured by a nut or the like screwed to a screw formed above the tension rod 104. The restricting mechanism 103 is not limited to this embodiment, and the tension gate 104 can be provided on the child gate 102 and the receiving piece 105 can be provided on the parent gate 101. Further, the restricting mechanism 103 is not limited to being configured by the tension rod 104, the receiving piece 105, and the detachment preventing member 106, and although not shown, the upper end edge of the parent gate 101 and the lower end edge of the child gate 102. Engaging with each other in a state where the child gate 102 is raised with respect to the parent gate 101 and restricting the raising of the child gate 102 away from the parent gate 101. It can also be constituted by a joint member.

  In the sluice gate opening / closing device 2 in this embodiment, a bracket 100 is provided above the both sides of the parent gate 101 and the child gate 102, and the first moving sprocket 241 is attached to the bracket 100 of the child gate 102. The second moving sprocket 242 is rotatably supported by the bracket 100 of the parent gate 101. The diameter of the first moving sprocket 241 is set to be smaller than the diameter of the second moving sprocket 242.

  The chain 20 is wound around the first moving sprocket 241, the first constant sprocket 251, the second constant sprocket 252, the second moving sprocket 242, and the driving sprocket 23 sequentially from one end fixed to the fixed portion 21.

  In the sluice gate opening and closing device configured in this way, the motor 220 is driven from the state shown in FIG. 5 (the drive direction at this time is taken as the forward direction), and the drive sprocket 23 is rotated (the rotation direction at this time is When the other end side of the chain 20 is sent to the chain storage unit 26 via the storage guide sprocket 27, the one end fixed to the fixed portion 21 of the chain 20 and the portion wound around the drive sprocket 23). The length between and becomes short. At this time, in the present embodiment, the detachment preventing member 106 provided at the upper end portion of the tension rod 104 engages with the receiving piece 105 of the child gate 102 so that the parent gate 101 is relatively separated from the child gate 102. To prevent. Therefore, the parent gate 101 and the child gate 102 synchronously move upward.

  On the other hand, when the parent gate 101 and the child gate 102 are lifted, the power of the motor 220 is closed, and if necessary, the motor 220 is driven in the reverse direction to reversely rotate the drive sprocket 23. When the end side is fed out from the chain storage portion 26 via the storage guide sprocket 27, and the length between the end fixed to the fixed portion 21 of the chain 20 and the portion wound around the drive sprocket 23 is extended, The gate 101 and the child gate 102 descend. When the drive of the motor 220 is stopped when the lower end face of the parent gate 101 is grounded to the bottom of the water gate 1, the child gate 102 is located above the parent gate 101, and the height of the door 10 is the highest. (The degree of opening is the smallest).

  Subsequently, the power of the motor 220 is further closed, and if necessary, the motor 220 is driven in the reverse direction to reversely rotate the drive sprocket 23 so that the other end of the chain 20 is accommodated via the storage guide sprocket 27. Further extending the length between the one end of the chain 20 fixed to the fixing portion 21 of the chain 20 and the portion wound around the drive sprocket 23 further extends the length of the child gate 102 relative to the parent gate 101. It descends relatively. At this time, when the drive of the electric motor 220 is stopped when the child gate 102 is lowered to an arbitrary position with respect to the parent gate 101, the door 10 is set to any height from the highest height (state with the smallest opening degree). (Open degree) can be adjusted.

  Also, in a period from when the child gate 102 is lowered relative to the parent gate 101, the detachment prevention member 106 provided at the upper end of the tension rod 104 engages with the receiving piece 105 of the child gate 102. When adjusting the height (opening degree) of the door 10, the motor 220 is driven in the forward direction, the drive sprocket 23 is rotated, and the other end side of the chain 20 is accommodated via the storage guide sprocket 27. The sheet is sent to the chain storage portion 26, and the distance between one end of the chain 20 fixed to the fixing portion 21 and the portion wound around the drive sprocket 23 is shortened to an arbitrary length. The water pressure received by the door 10 due to conditions such as water flow and water level is higher at the parent gate 101 than at the child gate 102, and since the mass of the child gate 102 is smaller than the mass of the parent gate 101, the parent gate 101 rises. It is possible to adjust the height (opening degree) of the door 10 by moving the child gate 102 only upward relative to the parent gate 101 without moving the door.

  In the present embodiment, the restriction mechanism 103 is provided to restrict the rise of the child gate 102 away from the parent gate 101. However, the restriction mechanism 103 is not necessarily essential. . When the restriction mechanism 103 is not provided, the motor 220 is driven in the forward direction with the lower end surface of the parent gate 101 grounded to the bottom of the water gate 1, and the drive sprocket 23 is rotated. Is sent to the chain storage unit 26 via the storage guide sprocket 27, and the distance between one end of the chain 20 fixed to the fixing portion 21 and the portion wound around the drive sprocket 23 is shortened to an arbitrary length, Only the child gate 102 rises without the parent gate 101 rising. Thus, the height of the door 10 is the height of the parent gate 101. Therefore, in this case, the opening degree of the water gate 1 can be adjusted in two stages. In addition, after the child gate 102 reaches the rising limit, the parent gate 101 can also be moved upward by further driving the motor 220 in the forward direction.

  The present invention is not limited to the above-described first to sixth embodiments, and in the first to third embodiments, the same number of moving sprockets 24 and constant sprockets 25 are added, or the fourth In the sixth embodiment, two constant sprockets 25 may be added to one moving sprocket, and the chain may be wound around these sprockets.

  In addition, the chain 20 may be unitized by arranging three or more independent chain bodies 200 in parallel, and may be formed as a single chain body 200 alone without being unitized, and each sprocket 23, 241, 242, 251, 252, 27, 28 by the number of sprocket plates (see (B) 24S, 24S,..., 25S, 25S,... Of FIG. 1). It can also be configured.

  Furthermore, the present invention is not limited to a configuration in which both sides of the door 10 are hung by a pair or a single chain 20, respectively, and the substantially central portion in the width direction of the door 10 is hung by a single chain 20. It can also be configured such that both sides (one pair) of the door 10 and one or more points at an intermediate position in the width direction are respectively suspended by the chain 20, that is, three or more chains 20. You can also

  Furthermore, the switchgear 22 on one portal 11 has the motor 220, and the switchgear 22 on the two portals 11 is the motor 220 without being connected to the switchgear 22 on the other portal 11 by the shaft 221. The motor 220 may be disposed between the two portals 11, and the motor 220 and the opening / closing device 22 on the two portals 11 may be connected by the shafts 221, respectively.

  1: sluice gate 2: sluice gate opening and closing device 10: door body 20: chain 21: fixed part 22: opening and closing machine 23: driving sprocket 24: moving sprocket 241: first moving sprocket 242: second Moving sprockets 243: third moving sprockets 25: constant sprockets 251: first constant sprockets 252: second constant sprockets C: center line in the width direction of each sprocket

Claims (7)

In the water gate opened and closed by moving the door up and down,
With the chain
A fixing portion for fixing one end of the chain;
An open / close machine having a drive sprocket disposed above the water gate and having the other end of the chain wound thereon;
A moving sprocket provided on the door;
A fixed sprocket provided above the water gate;
The water gate opening and closing device, wherein the chain is wound around the drive sprocket, the moving sprocket, and the fixed sprocket, and the door is moved up and down by rotationally driving the drive sprocket of the opening and closing machine.
At least a plurality of moving sprockets are provided,
The drive sprocket, the moving sprockets, and the constant sprockets are arranged such that the center lines in the tooth width direction are on the same plane.
The water gate opening and closing device according to claim 1, wherein the chain is alternately and sequentially wound around the moving sprocket and the constant sprocket between the fixed portion and the driving sprocket.   The sluice gate opening and closing device according to claim 1, wherein the moving sprocket is disposed in parallel on the upstream side and the downstream side in the water flow direction.   The said moving sprocket is arrange | positioned in parallel in the width direction of a door, The water gate opening / closing apparatus of Claim 1 characterized by the above-mentioned. The moving sprocket is disposed on a first moving sprocket disposed on either side of one end or the other end of the door, and on the other side of the one end or the other end of the door. And second and third moving sprockets provided,
The first moving sprocket, the second moving sprocket, the fixed sprocket, the third moving sprocket, and the driving sprocket, or the third moving sprocket, the fixed sprocket, or the third chain from one end where the chain is fixed to the fixed portion. The water gate opening and closing device according to claim 1, wherein the two-motion sprocket, the first moving sprocket, and the drive sprocket are sequentially wound.   2. The water gate opening and closing device according to claim 1, wherein the moving sprocket is vertically disposed in parallel with the elevating direction of the door.   The lock apparatus according to claim 5, wherein a diameter of the moving sprocket located at the upper side is smaller than a diameter of the moving sprocket located at the lower side thereof. In the water gate, the door body includes a parent gate in contact with the bottom surface of the water gate and a child gate that moves up and down relative to the parent gate,
The water gate opening and closing device according to claim 1, wherein the moving sprockets are respectively provided to the parent gate and the child gate.

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