JP4702506B2 - Automatic lodging gate - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gate provided with a undulating door that opens and closes a water channel, and relates to an automatic evacuation gate having a function of automatically falling over a door as the amount of water increases.
[0002]
[Prior art]
Automatic lodging gates that adjust the water level of the waterway generally detect the water level of the waterway, a door body that is pivotally supported on the bottom surface of the waterway, a door body support mechanism for setting the inclination angle of the door body It consists of floats, etc., and is roughly divided into single-stage and multi-stage systems according to their functions.
[0003]
The single-stage automatic lodging gate keeps the door body at a predetermined angle according to the usage conditions, and when the water level of the water channel rises from the preset planned water level, the float detects it and the door body support mechanism To release the door body at once.
[0004]
On the other hand, the multi-stage automatic fall gate keeps the door body at a predetermined angle, and when the float detects a rise in the water level, it does not fall down at once, but falls in multiple steps gradually. .
[0005]
The single-stage automatic lodging gate has a large amount of water in the waterway, and when the water increases, the door body is overturned and discharged at a stretch to prevent flooding, etc. Is installed where it can be secured. In addition, the multi-stage automatic lodging gate has a small amount of water in the water channel, and once the door body is overlaid, it takes time to re-store water, delaying the water storage, and preventing the water from being used, so that the door body is gradually lowered. It is installed where it is necessary to secure water storage.
[0006]
[Problems to be solved by the invention]
Conventional automatic lodging gates have either a single-stage or multi-stage function, but a situation where a multi-stage function is required after an automatic lodging gate that requires a single-stage function. May occur, or the opposite situation may occur. However, since the locking mechanism of the hoisting drum is completely different between the single stage type and the multistage type, if it is necessary to change the function between the single stage type and the multistage type, it is necessary to replace all existing hoisting machines. There is a great deal of labor, time and materials. In addition, when it is necessary to replace the hoisting machine urgently, it is impossible to respond promptly, which may cause flooding in the case of heavy rain.
[0007]
On the other hand, the present applicant has developed an automatic lodging gate (automatic falling weir) having a multi-stage function for gradually falling the door body in multiple stages and a single-stage function for causing the door body to fall at once. No.-1410 and the like. This automatic lodging gate gradually inverts the door body in the early stage of water channel increase, and when the water level drops to some extent, the door body can completely collapse at once.
[0008]
However, the mechanism of the hoisting machine used in this automatic lodging gate is more complex and more accurate than the same kind of hoisting machine, and requires advanced expertise for handling and maintenance after installation. Has one aspect that is difficult to adopt.
[0009]
An object of the present invention is to solve is provided with the function of multistage and function of single-stage in order to respond to waterways water and water storage capacity, automatic lodging gate it is possible to select the operation mode by a simple work Is to provide.
[0010]
[Means for Solving the Problems]
The automatic overturning gate of the present invention includes a door body that can be raised and lowered in a water channel, a float that detects a water level in the water channel upstream of the door body, and a door body holding means that maintains the door body in an inclined state. and,
An intermittent means for releasing the door body holding means when the float is raised, and returning the door body holding means when the float is lowered ;
Door body releasing means for keeping the door body holding means released by the rise of the float in a released state ;
Operation of the door body release means includes a selectively alterable function switching means a pause, a,
The door body holding means includes a wire whose distal end side is secured to the door body, a hoisting drum on which the proximal end side of the wire is wound, and a casing inner so as to rotate in conjunction with the hoisting drum. Provided with a ratchet gear mounted on a drive shaft pivotally supported by and a latching claw that engages with the ratchet gear and prevents its rotation,
As the intermittent means, provided with a link mechanism for detaching and engaging the locking claw from the ratchet gear according to the raising and lowering of the float,
As the door body releasing means, it can be engaged with and disengaged from a ring member provided in a part of the link mechanism, and when engaged with the ring member, it rotates in conjunction with the ring member, and from the ratchet gear. A detachable crankshaft that prevents re-engagement of the disengaged locking claw is provided,
The crankshaft is rotatably inserted in bearing holes provided in the front portion and the rear portion of the casing, and can be detached from the casing by moving in an axial direction with respect to the bearing hole. Is pivotally supported within
As the function switching means, there is provided an engagement / disengagement mechanism capable of selecting whether or not the crankshaft is inserted into the ring member when the crankshaft is pivotally supported in the casing .
[0011]
By adopting such a configuration, if the function switching means selects the operation of the door body release means, pausing, the single stage type operation that causes the door body to fall down at a stretch when the water increases, or the multistage type that gradually lowers the door body Since it can be set for operation, it is possible to adjust the water level accurately according to the use conditions.
[0012]
As the door body releasing means, it can be engaged with and disengaged from a ring member provided in a part of the link mechanism, and when engaged with the ring member, it rotates in conjunction with the ring member, and from the ratchet gear. A detachable crankshaft that prevents re-engagement of the disengaged locking claw is provided,
The crankshaft is rotatably inserted in bearing holes provided in the front portion and the rear portion of the casing, and can be detached from the casing by moving in an axial direction with respect to the bearing hole. Is pivotally supported within
As the function switching means, Ru Tei provided whether the selection is possible detachment mechanism for inserting the crankshaft to the ring member when axially supporting the crankshaft in the casing. Thus, the only the crankshaft selects either whether inserted through the ring member, the switching of the single-stage operation or multistage operation possible when axially supporting the crankshaft in the casing such operability is Ru good der with the.
[0013]
Further, as the door body holding means, a wire having a distal end side secured to the door body, a winding drum wound on the proximal end side of the wire, and a casing drum so as to rotate in conjunction with the winding drum . Provided with a ratchet gear mounted on a drive shaft that is pivotally supported, and a latching claw that engages with the ratchet gear to prevent its rotation, and as the intermittent means, the latching claw is engaged with the ratchet gear as the float moves up and down. withdrawal from, Ru Tei provided with a link mechanism to engage. Thereby, a door body can be hold | maintained at arbitrary set angles at the normal time, and a door body can be laid down in multiple steps reliably at the time of water increase.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a side view showing an automatic lodging gate according to an embodiment, and FIG. 2 is a plan view of the automatic lodging gate shown in FIG.
[0016]
The automatic lodging gate 1 of the present embodiment includes a door body 3 pivotally supported on a bottom surface of a water channel 2 via a support device 33 and a water intake port 4 provided on a water channel side wall 2a upstream of the door body 3. A float chamber 5 that communicates with the float chamber 5, a float 6 that moves up and down along the water level in the float chamber 5, a wire 7 that holds the door body 3 in an inclined state or stands the fallen door body 3; A door hoisting machine 8 provided with a hoisting drum 9 for winding the wire 7 is used.
[0017]
As shown in FIGS. 3 and 4, the door hoisting machine 8 controls a drum shaft 11 that pivotally supports the hoisting drum 9 in a box-type casing 10 that can be opened and closed, and the rotation of the drum shaft 11. For this purpose, an automatic overturning device 13 having a drive shaft 15 interlocked via a chain 12 and a hydraulic brake 17 interlocked via a chain 16 for braking the drive shaft 15 are provided.
[0018]
As shown in FIGS. 5 to 8, the automatic tilting device 13 includes a box-shaped casing 18 in which a drive shaft 15 to which a ratchet gear 19 is attached is horizontally supported. A link mechanism 22 that engages and disengages the locking claw 21 is provided on the outer periphery of the ratchet gear 19 via 20, and a crankshaft 25 is rotatably inserted into a ring member 23 provided in a part of the link mechanism 22. A manual release lever 26 is attached to the base end portion 25 b of the crankshaft 25. Further, a bearing hole 27 through which the crankshaft 25 is rotatably inserted is provided in the front portion 18a and the rear portion 18b of the casing 18, and a stopper 30 for limiting the tilting range of the manual release lever 26 is provided in the front portion 18a. , 31 are provided.
[0019]
The crankshaft 25 has a shape as shown in FIG. 8 and can be detached from the casing 18 by moving it in the axial direction with respect to the bearing hole 27, and its tip 25a is inserted into the bearing hole 27 of the front face 18a. Then, it is pushed into the casing 18 and is selected to pass through the ring member 23 or not, and is inserted into either of the bearing holes 27 and 28 of the back surface portion 18b corresponding to the bearing holes 27 and 28 of the front surface portion 18a. Then, after the front end portion 25a is exposed to the outside of the back surface portion 18b, if a locking pin (not shown) is inserted into the locking holes 25c at both ends, it is pivotally supported in the casing 18. Further, if the procedure reverse to that described above is taken, the crankshaft 25 can be detached from the casing 18.
[0020]
Here, the function of the automatic lodging gate 1 will be described with reference to FIGS. In the automatic lodging gate 1, the door body 3, the wire 7, the door body hoisting machine 8, the automatic lodging device 13, the float 6 and the like are connected as shown in FIG. In addition, when the crankshaft 25 is inserted into the bearing hole 27 in the front portion 18a and the rear portion 18b and mounted in the casing 18, whether the crankshaft 25 passes through the ring member 23 or not is a multistage type or a single stage type. If the crankshaft 25 is not passed through the ring member 23, the door body 3 performs a multistage operation that gradually falls when the water channel 2 increases, and the crankshaft 25 is passed through the ring member 23. When the water increases, the door body 3 performs a single-stage operation in which the door body 3 falls down at a stretch.
[0021]
In the case of a multi-stage type, as shown in FIG. 10 (a), if the crankshaft 25 is set in the casing 18 without passing through the ring member 23, the door body 3 is opened when the water level in the water channel 2 is equal to or lower than the set water level. Although it is kept in a predetermined inclined state, when the water channel 2 increases and becomes higher than the set water level, the water level in the float chamber 5 increases and the float 6 rises, and the link mechanism 22 is pushed up via the float shaft 20 to be locked. Since the claw 21 is disengaged from the ratchet gear 19, the restraint of the hoisting drum 9 is released, the wire 7 is fed out, and the door body 3 falls down. At this time, the hydraulic brake 17 interlocked with the drive shaft 15 is activated, and the hoisting drum 9 is rotated while being braked, so that the door body 3 gradually falls down, and the water in the water channel 2 flows over the door body 3. Go over the edge and flow downstream.
[0022]
Since the ring member 23 and the crankshaft 25 are not engaged, the crankshaft 25 and the manual release lever 26 are stationary even when the ring member 23 is pushed up by the lift of the float shaft 20 as shown in FIG. Will remain.
[0023]
When the water level in the water channel 2 falls over the door body 3 and the upstream water level falls, the float 6 in the float chamber 5 descends, and the float shaft 20 descends so that the ring member 23 moves as shown in FIG. Since the link mechanism 22 is pulled down via the float shaft 20 and the locking claw 21 engages with the ratchet gear 19, the hoisting drum 9 is prevented from rotating, and the door body 3 stops falling. However, it is held at a gentler inclination angle than the initial set angle.
[0024]
Thereafter, the door body 3 is maintained in an inclined state unless the water level in the water channel 2 rises above the set water level and pushes up the float 6, but when the float 6 rises again due to water increase, the hoisting drum 9 is released. Therefore, the door body 3 gradually falls down, and the door body 3 is held in the inclined state again when the water level falls to the set water level. Thus, since the door body 3 gradually falls in a multistage manner according to the amount of water increase in the water channel 2, accurate water level adjustment is possible even in a place where the amount of water is small and it takes time to re-store water.
[0025]
Further, when it is necessary to completely incline the door body 3 kept in an inclined state, the manual release lever 26 can be turned counterclockwise until it comes into contact with the stopper 31 as shown in FIG. For example, when the crankshaft 25 rotates and pushes up the ring member 23, the link mechanism 22 is pushed up and the locking claw 21 is disengaged from the ratchet gear 19, so that the restraint of the hoisting drum 9 is released and the wire 7 is fed out. The door body 3 will fall down. After that, even if the water level is lowered and the float shaft 20 is lowered together with the float 6, the crankshaft 25 prevents the ring member 23 from being lowered, so that the link mechanism 22 is kept pushed up. 3 falls down to a horizontal state without stopping.
[0026]
On the other hand, as shown in FIG. 10 (d), the crankshaft 25 is passed through the ring member 23 and attached to the casing 18, so that in the state of FIG. 7, as long as the water channel 2 is below the set water level, The door body 3 is kept in a predetermined inclined state. When the water level in the water channel 2 becomes higher than the set water level, the float 6 in the float chamber 5 rises, pushes up the link mechanism 22 via the float shaft 20, and the locking claw 21 disengages from the ratchet gear 19. 9 is released, the wire 7 is fed out, and the door body 3 falls down.
[0027]
When the ring member 23 rises as the float shaft 20 rises, the crankshaft 25 rotates counterclockwise, passes through the state shown in FIG. 10 (e), and stops in the state shown in FIG. 10 (f). Therefore, even if the water level falls and the float 6 descends and the float shaft 20 attempts to lower the link mechanism 22, the crankshaft 25 engages with the ring member 23 to prevent the lowering as shown in FIG. 10 (f). Therefore, the link mechanism 22 cannot be restored, the locking claw 21 cannot be re-engaged with the ratchet gear 19, the hoisting drum 9 continues to rotate in the direction in which the wire 7 is fed out, and the door body 3 falls down to a horizontal posture. To do.
[0028]
In this way, if the crankshaft 25 is passed through the ring member 23, the door body 3 can be automatically laid down to a horizontal state at once when the water channel 2 increases from a predetermined water level. In addition, when the door body 3 falls down, the hoisting drum 9 rotates while being braked by the hydraulic brake 17 as described above, so that the door body 3 can fall down at a safe speed.
[0029]
As described above, when the crankshaft 25 is inserted into the bearing hole 27 and attached to the casing 18, the door body 3 is collapsed at a stretch when the water is increased by selecting whether the ring member 23 is passed or not. Since it is possible to select a single-stage operation or a multi-stage operation in which the door 3 is gradually lowered, it is possible to accurately adjust the water level corresponding to the amount of water in the water channel 2. Moreover, since the inclining operation and the operation switching of the door body 3 are performed manually without requiring a power source, an operation for adjusting the water level is possible even in a situation where a power failure occurs during a disaster.
[0030]
When the fallen door body 3 is raised again, the manual release lever 26 is rotated clockwise until it comes into contact with the stopper 30 to bring it into the state shown in FIG. By attaching and detaching a detachable handle (not shown) and rotating the hoisting drum 9 in the hoisting direction, the wire 7 is wound, so that the door body 3 can be gradually raised. it can. In this case, the door 3 can be held at the position where the ratchet gear 19 is engaged with the locking claw 21 and the rotation of the detachable handle is stopped. Can be set arbitrarily.
[0031]
In the automatic lodging gate 1 of this embodiment, as a door body holding means, a wire 7 whose distal end side is secured to the door body 3, a winding drum 9 on which the proximal end side of the wire 7 is wound, and a winding drum 9 Provided with a ratchet gear 19 that rotates in conjunction with the ratchet gear 19, and a locking claw 21 that engages with the ratchet gear 19 and prevents the rotation, and as the intermittent means, the locking claw 21 is moved as the float 6 moves up and down. Since the link mechanism 22 that is detached from and engaged with the door 19 is provided, the door body 3 can be held at an arbitrary set angle during normal times, and the door body 3 can be reliably laid down in a multistage manner when the water increases. .
[0032]
In addition, a detachable crankshaft 25 that prevents re-engagement of the locking claw 21 that rotates in conjunction with the link mechanism 22 and separates from the ratchet gear 19 is provided as a door release member, and the crankshaft 25 is a ring member. Since it is possible to select the single-stage type or the multi-stage type depending on whether or not it is passed through 23, it is possible to switch between single-stage and multi-stage functions by simply changing the mounting state of the crankshaft 25. It is easy to operate.
[0033]
【The invention's effect】
The present invention has the following effects.
[0034]
(1) A door provided in a waterway so as to be able to undulate, a float for detecting a water level in the waterway upstream from the door, and a door body holding means for maintaining the door in an inclined state ;
An intermittent means for releasing the door body holding means when the float is raised, and returning the door body holding means when the float is lowered ;
Door body releasing means for keeping the door body holding means released by the rise of the float in a released state ;
Operation of the door body release means includes a selectively alterable function switching means a pause, a,
The door body holding means includes a wire whose distal end side is secured to the door body, a hoisting drum on which the proximal end side of the wire is wound, and a casing inner so as to rotate in conjunction with the hoisting drum. Provided with a ratchet gear mounted on a drive shaft pivotally supported by and a latching claw that engages with the ratchet gear and prevents its rotation,
As the intermittent means, provided with a link mechanism for detaching and engaging the locking claw from the ratchet gear according to the raising and lowering of the float,
As the door body releasing means, it can be engaged with and disengaged from a ring member provided in a part of the link mechanism, and when engaged with the ring member, it rotates in conjunction with the ring member, and from the ratchet gear. A detachable crankshaft that prevents re-engagement of the disengaged locking claw is provided,
The crankshaft is rotatably inserted in bearing holes provided in the front portion and the rear portion of the casing, and can be detached from the casing by moving in an axial direction with respect to the bearing hole. Is pivotally supported within
As the function switching means, by providing an engagement / disengagement mechanism capable of selecting whether or not the crankshaft is inserted into the ring member when the crankshaft is pivotally supported in the casing , the door body can be used when water increases. Ru can be set by the single-stage operation or function switching means gradually or multistage operation for lodging the door is once collapsed the.
[0035]
(2) As the door body releasing means, it is detachable from a ring member provided in a part of the link mechanism, and when engaged with the ring member, it rotates in conjunction with the ring member, A detachable crankshaft that prevents re-engagement of the locking claw detached from the ratchet gear is provided,
The crankshaft is rotatably inserted in bearing holes provided in the front portion and the rear portion of the casing, and can be detached from the casing by moving in an axial direction with respect to the bearing hole. Is pivotally supported within
As the function switching means, by the crankshaft is provided whether the selection is possible detachment mechanism is inserted into the ring member when axially supporting the crankshaft in the casing, said casing said crankshaft only the crankshaft selects either whether inserted through the ring member when journaled within, the Ru excellent der operability switching of single-stage operation or multistage operation at What possible .
[0036]
(3) As the door body holding means, a wire whose distal end side is secured to the door body, a winding drum on which the proximal end side of the wire is wound, and a casing that rotates in conjunction with the winding drum A ratchet gear mounted on a drive shaft that is pivotally supported inside, and a locking claw that engages with the ratchet gear and prevents its rotation, and is provided as an intermittent means with the locking claw as the float moves up and down. By providing the link mechanism that disengages from and engages with the gear, the door body can be held at an arbitrary set angle during normal times, and the door body can be surely laid down in multiple stages when water is increased.
[Brief description of the drawings]
FIG. 1 is a side view showing an automatic lodging gate according to an embodiment.
FIG. 2 is a plan view of the automatic lodging gate shown in FIG.
3 is a perspective side view of the door hoisting machine constituting the automatic lodging gate shown in FIG. 1. FIG.
4 is a perspective plan view of the door hoist shown in FIG. 3. FIG.
FIG. 5 is a perspective plan view of an automatic lodging device built in the door hoist shown in FIG. 3;
6 is a perspective side view of the automatic lodging device shown in FIG. 5. FIG.
FIG. 7 is a perspective front view of the automatic lodging device shown in FIG.
8A is a plan view of a crankshaft constituting the automatic lodging apparatus shown in FIG. 5, and FIG. 8B is a front view of the crankshaft.
FIG. 9 is an explanatory diagram showing an automatic lodging function of the automatic lodging device shown in FIG. 1;
FIG. 10 is an explanatory diagram showing functions of the automatic lodging device shown in FIG. 5;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Automatic lodging gate 2 Water channel 2a Water channel side wall 3 Door body 4 Water intake 5 Float chamber 6 Float 7 Wire 8 Door body hoisting machine 9 Hoisting drums 10, 18 Casing 11 Drum shafts 12, 16 Chain 13 Automatic lodging device 15 Drive shaft 17 Hydraulic brake 18a Front portion 18b Rear portion 19 Ratchet gear 20 Float shaft 21 Locking claw 22 Link mechanism 23 Ring member 25 Crankshaft 25a Tip portion 25b Base end portion 26 Manual release lever 27 Bearing hole 30, 31 Stopper 33 Support device

Claims (1)

A door body that can be raised and lowered in a water channel, a float that detects a water level in the water channel upstream from the door body, a door body holding means that keeps the door body in an inclined state ,
An intermittent means for releasing the door body holding means when the float is raised, and returning the door body holding means when the float is lowered ;
Door body releasing means for keeping the door body holding means released by the rise of the float in a released state ;
Operation of the door body release means includes a selectively alterable function switching means a pause, a,
The door body holding means includes a wire whose distal end side is secured to the door body, a hoisting drum on which the proximal end side of the wire is wound, and a casing inner so as to rotate in conjunction with the hoisting drum. Provided with a ratchet gear mounted on a drive shaft pivotally supported by and a latching claw that engages with the ratchet gear and prevents its rotation,
As the intermittent means, provided with a link mechanism for detaching and engaging the locking claw from the ratchet gear according to the raising and lowering of the float,
As the door body releasing means, it can be engaged with and disengaged from a ring member provided in a part of the link mechanism, and when engaged with the ring member, it rotates in conjunction with the ring member, and from the ratchet gear. A detachable crankshaft that prevents re-engagement of the disengaged locking claw is provided,
The crankshaft is rotatably inserted in bearing holes provided in the front portion and the rear portion of the casing, and can be detached from the casing by moving in an axial direction with respect to the bearing hole. Is pivotally supported within
As the function switching means, there is provided an engagement / disengagement mechanism capable of selecting whether or not the crankshaft is inserted into the ring member when the crankshaft is pivotally supported in the casing. .

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