JP3808718B2 - Wire type hoisting gate hoisting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hoisting device for a wire hoisting gate provided in a water channel. More specifically, the present invention relates to a wire type undulation gate raising / lowering device having a device capable of setting an arbitrary position for a lodging stop position when the wire type undulation gate automatically falls.
[0002]
[Prior art]
In the conventional gate configuration, as shown in Japanese Utility Model Publication No. 4-2190, etc., a bearing is fixed to the river bed, and the gate is supported up and down with the bearing and a bearing portion below the gate as fulcrums. The upper part of the gate is held by one end of the wire rope, and the other end is fixed to the winding drum of the hoisting device. The wire rope take-up drum is provided with a brake device. By loosening the brake device, the door body is laid down. An undulating gate (weir) provided across a waterway (river) is used to store water by closing the waterway by raising the gate, raising the water depth and drawing water into a paddy field or the like.
[0003]
However, if the water in the waterway increases due to rain, etc., there is a risk of overflowing the waterway embankment, so when the falling water level is reached during raining etc., the water level is detected and the automatic gate device automatically turns the relief gate on I am lying. In the automatic lodging device, when the water level in the water channel rises, the automatic lodging float rises accordingly. Along with that, the brake band that had been tightened until now loosens, the take-up drum is released, and the gate falls. The amount by which the gate will fall is usually up to the position where the water level has fallen below the falling water level. Therefore, if the amount of water from the upstream is large, it will fall a lot, and if the amount of water upstream is small, it will fall a little.
[0004]
The undulation gate detects the water level when it reaches the falling water level during rainfall, etc., and automatically falls by the automatic lodging device. However, in waterways such as rapids, once the gate is laid down to the vicinity of the bottom of the waterway, it takes time to store water even if the gate is erected in order to secure water to distribute water to others. It was a problem in terms of effective use and work efficiency. Therefore, it is necessary to allow one fall to fall at the lowest predetermined position without lowering the gate to the vicinity of the bottom of the waterway, and it has been desired to develop a raising and lowering device for the raising and lowering gate that can be adjusted.
[0005]
[Problems to be solved by the invention]
The present invention has been developed based on the background described above, and achieves the following objects.
[0006]
The object of the present invention is to provide a wire-type undulation gate automatic lodging device that winds up and down a undulation gate provided across a waterway and opens it. An object of the present invention is to provide a undulation device for a wire undulation gate that can automatically fall down to a predetermined position and allow water to flow down.
[0007]
[Means for Solving the Problems]
The present invention solves the above problems by the following means. That is, the undulation device for the wire type undulation gate of the present invention has a drum for winding up a wire rope connected to the gate for the undulation of the gate provided across the water channel, and the rotation of the drum is performed by the operation of the water level detection means. In the gate hoisting device having a gate opening and closing mechanism that closes the brake when the brake is released and the gate falls down,
A drive mechanism that operates in conjunction with the rotation of the drum by the lowering operation of the gate;
Setting means for automatically setting the fall position of the gate that can be moved by driving from the drive mechanism;
An operation mechanism operated by the setting means that moves to a predetermined position according to a set amount;
A brake means for stopping the drum rotation via the operating mechanism to fix the gate in the lying position;
The setting means includes
The frame (63) is screwed as a moving body to the screw body (57) that rotates in conjunction with the drive mechanism, and the frame (63) is stopped and set at an arbitrary position without being rotated. it is intended to be constituted by enabling,
The operating mechanism is:
Oite between the clutch brake lever (44) for operating the said screw body (57) brake (40), Kamufukku (65) is freely pivoted to the fulcrum of the fixed shaft body (66) provided is intended to be constituted by Rukoto,
The Kamufukku (65) has one end to have a roller (65a) is rotatably mounted, is rotatable in contact with said frame (63) via the roller (65a), the other end recess The clutch brake lever (44) is engageable with the recess (65b) and rotates, and the recess (65b) is engaged with the brake via the clutch brake lever (44). The brake band (41) is configured to be tightened.
[0008]
In addition, the drive mechanism may include a sprocket wheel and a transmission means using a chain, and the configuration becomes simple.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a front view showing the entire wire undulation gate of the present invention. FIG. 2 is a front view showing the undulation configuration of the undulation device of the wire type undulation gate, and shows the back side of FIG. FIG. 3 is a side view of the undulation device for the wire type undulation gate, and shows the AA cross section of FIG. FIG. 4 is a plan view showing an automatic collapse amount setting configuration of the undulation device for the wire type undulation gate, and is a cross-sectional view taken along the line BB of FIG. 5 is a cross-sectional view taken along the line CC of FIG.
[0010]
A door body 2 (gate) is disposed in the water channel 1 so as to cross the width of the water channel 1. The lower end of the door body 2 is swingably supported by a support shaft 3 disposed on the water channel bottom 4. The door body 2 swings freely up and down between the water channel bottom 4 and the dam top 5 with the support shaft 3 as a fulcrum. One end of the wire rope 6 is connected to the other end of the door body 2, and the other end is wound around a winding drum 8 of a hoisting device 7 provided on the weir upper portion 5 of the water channel 1. A float body 9 (water level detection means) is suspended from the hoisting device 7 in the ascending / descending direction in the water channel 1.
[0011]
The lift position of the float body 9 is related to the operation of the wire rope 6 for raising and lowering the door body 2. In addition, sliding plates 10 are provided on both walls of the water channel 1 over the swing range of the door body 2. The door body 2 undulates while maintaining a watertight state while being in sliding contact with the sliding plate 10. When storing water, the door body 2 is erected and the water channel 1 is closed. Water flows from the left side to the right side in FIG. 1, and the falling water level is determined by the undulation height of the door body 2, that is, the holding height of the lowest water level of the door body 2, and the upstream and downstream water channel conditions. The float body 9 rises or falls as the water level in the water channel 1 rises and falls.
[0012]
One end of a connecting lever 11 is connected to the upper part of the float body 9 via a hanging part 12 (see FIG. 2). The other end of the connecting lever 11 is connected via a support shaft 14 to a stay 13 that is supported on the wall surface of the hoisting device 7 and that protrudes and is fixed in the device. One end (lower end) of the second connecting lever 15 is fixed to the support shaft 14, and the connecting lever 11 and the second connecting lever 15 operate integrally. The connecting lever 11 and the second connecting lever 15 may be an integral L-shaped member.
[0013]
A long groove 16 is formed at the other end of the second connecting lever 15, and a pin member 18 fixed to one end (lower end) of the third connecting lever 17 is inserted into the long groove 16. The other end of the third connecting lever 17 is connected via a support shaft 20 to a stay 19 that is fixed to the wall surface of the hoisting device 7 and projects into the device. The tip of the third connecting lever 17 rotatably supports the brake band connector 21. One end of the brake band 22 is connected to the brake band connector 21, the brake band 22 is wound around the outer periphery of the clutch brake body 23, and the other end of the brake band 22 is connected to the support shaft 20.
[0014]
The clutch brake body 23 is attached to an input shaft 25 provided across the wall surface of the hoisting device 7 and rotatably supported by two bearings 24a and 24b. This clutch brake body 23 has a known one-way clutch configuration, and can transmit only rotation in one direction in relation to the input shaft 25. Therefore, when the float body 9 descends downward, the connecting lever 11 is lowered and the clutch brake body 23 is tightened. When the door body 2 is erected, the input shaft 25 can rotate, so that the take-up drum 8 can rotate and the door body 2 can be erected.
[0015]
A second clutch brake body 40, which will be described later, is attached in parallel to the input shaft 25, and two sprocket wheels 26 are fixed. A chain 27 is wound around the first sprocket wheel 26 a of the two sprocket wheels 26, and this chain 27 is attached to a rotary shaft 29 of a speed reducer 28 fixed to the wall surface of the hoisting device 7. It is wound around the second sprocket wheel 30.
[0016]
The speed reducer 28 is provided with a take-up drum 8 that projects outside the hoisting device 7. The wire rope 6 is wound around the winding drum 8. Further, an input joint 31 is fixed to one end of the input shaft 25 so as to project outside the hoisting device 7, and a separate handle 32 is engaged therewith. A known centrifugal brake 33 attached to the outer wall of the hoisting device 7 is coupled to the other end of the input shaft 25. On the other hand, a pin 34 is fixed to an intermediate portion of the connecting lever 11, and this pin 34 is engaged with a long groove 35 a provided at the lower end portion of the manual lying rod 35. The other end of the manual lying rod 35 is engaged with the connecting arm 36 (see FIG. 4).
[0017]
Further, a pipe-like support body 37 is supported and fixed on the wall surface of the hoisting device 7, and a shaft body 38 is rotatably supported on the support body 37. The connecting arm 36 is fixed to the shaft body 38. Further, a tilting lever 39 is fixed to a portion of the shaft body 38 that protrudes outside the hoisting device 7.
[0018]
[Action]
Next, the operation relationship will be described. When the water level of the water channel 1 rises, the float body 9 rises accordingly. As the float body 9 rises, the connecting lever 11 tilts in the direction of lifting with the support shaft 14 as a fulcrum (a chain line position in FIG. 2). As the connecting lever 11 is tilted, the second connecting lever 15 similarly swings and tilts around the support shaft 14 as a fulcrum, and the long groove 16 of the second connecting lever 15 moves in the direction of the arrow. With this movement, the third connecting lever 17 also swings around the support shaft 20 as a fulcrum.
[0019]
By this swinging operation, the brake band connector 21 located outside the support shaft 20, that is, at the tip of the third connecting lever 17 is moved in the direction of loosening the brake band 22 to release the brake. On the other hand, when the handle 32 is inserted into the input joint 31 provided at the end of the input shaft 25, the input shaft 25 can be manually rotated. As the input shaft 25 rotates, the rotating shaft 29 of the speed reducer 28 is rotated via the first sprocket wheel 26a, the chain 27, and the second sprocket wheel 30, and the winding drum 8 is rotated via the speed reducing mechanism. Is possible.
[0020]
On the other hand, when the fall lever 39 is fallen in the direction of the arrow, the manual fall rod 35 is lifted through the rotation of the connecting arm 36. The connecting lever 11 is also lifted by the lifting operation of the manual lying rod 35, and the float body 9 can be forcibly lifted through the hanging portion 12.
[0021]
[Configuration of main parts]
Next, the configuration that forms the main part of the present invention will be described. The input shaft 25 is provided with a second clutch brake 40 (brake means) in parallel with the clutch brake 23, and a second brake band 41 is wound around the outer periphery of the second clutch brake 40. One end of the second brake band 41 is attached to a shaft body 43 provided on the stay 42. This stay 42 is fixed to the wall surface of the hoisting device 7 and projects to the second clutch brake 40 side.
[0022]
The shaft body 43 of the stay 42 is provided with a tip of a clutch brake lever 44 so as to be rotatable, and a pin 45 is provided at the tip of the other end. A second brake band connector 46 connected to the second brake band 41 is provided near the intermediate shaft body of the clutch brake lever 44. Further, a support shaft 47 is provided near the intermediate pin of the clutch brake lever 44, and the release lever adjustment member 48 is engaged through the long groove 49.
[0023]
A weight 50 is attached below the release lever adjusting member 48, and a rod 51 is connected to the upper side and projects outside the hoisting device 7. An opening lever 52 is fixed to the tip of the rod 51. On the other hand, the rotation of the input shaft 25 causes the fourth sprocket wheel 54 (drive mechanism) to rotate via the chain 53 by the third sprocket wheel 26 b of the two sprocket wheels 26 provided on the input shaft 25.
[0024]
The fourth sprocket wheel 54 is provided on a horizontal shaft 55 in the hoisting device 7, and the horizontal shaft 55 rotates as the fourth sprocket wheel 54 rotates. A bevel gear 56 is provided at an intermediate portion of the horizontal shaft 55, and meshes with a bevel gear 58 attached to the tip of a vertical shaft 57 erected perpendicularly to the horizontal shaft 55.
[0025]
One end of the vertical shaft 57 is supported by a bearing 59 provided on the upper wall of the hoisting device 7, and the other end is rotatably supported by a receiving portion 61 of a stay 60 fixed to the wall surface of the hoisting device 7 and projecting inside. It is supported. A vertical shaft 57 between the bearing 59 and the receiving portion 61 is a screw 62, and a frame 63 (setting means) is screwed. Further, the stay 60 is provided with an anti-rotation member 64, and an engaging member 63 a attached to the upper part of the frame 63 is engaged to prevent the frame 63 from rotating.
[0026]
Therefore, when the vertical shaft 57 rotates, the frame 63 moves in the vertical direction without being rotated. Further, this piece 63 is provided with a protruding portion 63b at one end, and can be brought into contact with a cam hook 65 (operation mechanism) described later when the piece 63 moves. Further, the frame 63 can be set at an arbitrary position along the length of the vertical shaft 57. This setting automatically sets a fall amount for causing the door body 2 to fall down. The vertical shaft 57 is located in a direction substantially perpendicular to the clutch brake lever 44.
[0027]
A cam hook 65 is supported between the upright shaft 57 and the clutch brake lever 44 by a support shaft body 66 fixed to the side wall of the hoisting device 7, and is rotatable about the support shaft body 66. The cam hook 65 has a substantially L-shaped configuration, and a roller 65a is rotatably attached to one end, and can come into contact with the top 63 as described above. The other end has a recess 65b, and when the clutch brake lever 44 is lifted, the pin 45 at the tip can be engaged with the recess 65b.
[0028]
[Action]
Next, the operation relationship will be described. The release lever 52 is lifted to forcibly lift the clutch brake lever 44, and the tip pin 45 is engaged with the recess 65b of the cam hook 65. At this time, the second brake band 41 is loosened, and the second clutch brake 40 is in an open state. In this state, when the float body 9 rises as the water level rises, as described above, the clutch brake band is loosened via the connecting lever 11 and the input shaft 25 can be rotated, and the door body 2 falls by its own weight. Accordingly, the take-up drum 8 rotates.
[0029]
Along with the rotation of the take-up drum 8, the second sprocket wheel 30 is rotated via the speed reducer 28, and the second sprocket wheel 30 to the chain 27, the first sprocket wheel 26a, the third sprocket wheel 26b, the chain 53, The horizontal shaft 55 rotates via the fourth sprocket wheel 54.
[0030]
The vertical shaft 57 rotates from the horizontal shaft 55 via the bevel gears 56 and 58. As the vertical shaft 57 rotates, the screwed top 63 moves in the vertical direction. When the abutting portion 63b of the top 63 moves upward and comes into contact with the roller 65a of the cam hook 65, the cam hook 65 rotates in the direction of the arrow, and accordingly, the recessed portion 65b becomes the pin 45 of the second clutch brake lever 44. The second clutch brake lever 44 falls downward by the weight 50.
[0031]
By this operation, the second brake band connector 46 moves downward, the second brake band 41 is tightened, and the second clutch brake 40 is fixedly held. For this reason, the input shaft 25 is locked, and the take-up drum does not rotate in accordance with the falling direction of the door body 2, and as a result, the door body 2 does not fall down thereafter and maintains a predetermined position in a fixed manner. To do.
[0032]
(Embodiment 2)
Even if the second clutch brake 40 described above is in the form of a brake drum with the clutch portion removed, there is no functional problem of the present invention. FIG. 6 shows an embodiment in which a clutch brake having no clutch portion is used as the brake drum 70. The brake drum 70 has a configuration similar to that of a wheel, and has a simple shape in which an axial center portion is attached to the input shaft 25 and a peripheral surface for a brake band is provided on the outer periphery. In the case of this embodiment, it is necessary to always lift the release lever 52 and open the second brake band 41 via the clutch brake lever 44 before raising the door body 2. In the case of this embodiment, since a special brake having a clutch is not required, it can be manufactured at a lower cost than that of the first embodiment, and maintenance is further facilitated.
[0033]
As mentioned above, although embodiment of this invention was described, the object of this invention is not limited to this. For example, a known speed reducer generally uses a planetary gear, but it is inevitably expensive. Therefore, a speed reducer such as a combination of a lower priced spur gear or a combination of a sprocket wheel and a chain is used. It may be a device.
[0034]
【The invention's effect】
As explained above, when the door installed in the waterway falls, the door can be fixedly installed at the lodging position set by one lodging operation. Water can be distributed without waste, work efficiency is high, and efficient channel management is now possible.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a front view showing an overall configuration of a gate undulation state by a wire type undulation gate undulation device according to the present invention.
FIG. 2 is a front view of a wire-type hoisting gate hoisting device showing the hoisting configuration of the gate by the lifting and lowering operation of the float.
FIG. 3 is a developed sectional view taken along line AA of FIG.
4 is a developed cross-sectional view taken along the line B-B in FIG. 2;
FIG. 5 is a cross-sectional view taken along the line CC of FIG. 4;
FIG. 6 is a cross-sectional view showing an example of the second embodiment.
[Explanation of symbols]
1 ... Waterway 2 ... Door (gate)
6 ... wire rope 7 ... hoisting device 8 ... winding drum 9 ... float body (water level detecting means)
DESCRIPTION OF SYMBOLS 11 ... Connection lever 23 ... Clutch brake body 25 ... Input shaft 26 ... Sprocket wheel 28 ... Reduction gear 40 ... Second clutch brake (brake means)
54. Fourth sprocket wheel (drive mechanism)
55 ... Horizontal shaft 57 ... Vertical shaft 58 ... Bevel gear 59 ... Bearing 63 ... Top (setting means)
65. Cam hook (operation mechanism)

Claims (2)

It has a drum that winds up a wire rope connected to the gate for raising and lowering the gate provided across the water channel, and the brake of the drum rotation is released by the operation of the water level detecting means, and the brake is In the gate hoisting device having the gate opening and closing mechanism,
A drive mechanism that operates in conjunction with the rotation of the drum by the lowering operation of the gate;
Setting means for automatically setting the fall position of the gate that can be moved by driving from the drive mechanism;
An operation mechanism operated by the setting means that moves to a predetermined position according to a set amount;
A brake means for stopping the drum rotation via the operating mechanism to fix the gate in the lying position;
The setting means includes
The frame (63) is screwed as a moving body to the screw body (57) that rotates in conjunction with the drive mechanism, and the frame (63) is stopped and set at an arbitrary position without being rotated. it is intended to be constituted by enabling,
The operating mechanism is:
Oite between the clutch brake lever (44) for operating the said screw body (57) brake (40), Kamufukku (65) is freely pivoted to the fulcrum of the fixed shaft body (66) provided is intended to be constituted by Rukoto,
The Kamufukku (65) has one end to have a roller (65a) is rotatably mounted, is rotatable in contact with said frame (63) via the roller (65a), the other end recess The clutch brake lever (44) is engageable with the recess (65b) and rotates, and the recess (65b) is engaged with the brake via the clutch brake lever (44). The wire-type hoisting gate hoisting device is characterized in that the brake band (41) is tightened. The undulation device for a wire type undulation gate according to claim 1,
The drive mechanism is configured to include a sprocket wheel and a transmission means using a chain.

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