JP6445507B2 - Water channel sediment removal device - Google Patents

Description

The present invention relates to waterways atherectomy device for removing deposits such as sand deposited on agricultural waterways.

Agricultural waterways are approximately 370,000 km nationwide, but with the aging of farmers and labor shortages, labor saving of waterway function maintenance work (deposit removal, etc.) is strongly demanded. Among agricultural watercourses, those with relatively large waterways and working passages can be used to remove sediments using machinery such as backhoes. There are many cases where it is difficult to bring in a mechanical device due to a field condition such as a narrow road.
On the other hand, as an apparatus for cleaning the side groove, an apparatus that collects sludge while cleaning the inside of the side groove using high-pressure water has been proposed (for example, see Patent Document 1).

Japanese Patent Laying-Open No. 2015-184221

  Here, assuming the case where the above-described gutter cleaning apparatus is used for removing sediments from agricultural waterways, the following problems arise. In other words, since the above-described cleaning apparatus uses high-pressure water for cleaning, extra water is added to sediment such as earth and sand, and the amount to be disposed increases. And in order to reduce such a disposal amount, since a dehydration volume reduction process is needed, an installation becomes heavy and cost will become high. Furthermore, it is necessary to work while mounting and moving a generator, a cleaning device, a tank, etc. on a cart with a power unit, but it is difficult to travel on the soft ground around the agricultural waterway with the wheels of the cart.

The present invention has been made in view of the above problems, it is an object regardless of the site conditions, the deposit of agricultural waterways to efficiently removed.

(Aspect of the Invention)
The following aspects of the present invention exemplify the configuration of the present invention, and will be described separately for easy understanding of various configurations of the present invention. Each section does not limit the technical scope of the present invention, and some of the components of each section are replaced, deleted, or further while referring to the best mode for carrying out the invention. Those to which the above components are added can also be included in the technical scope of the present invention.

(1) A channel sediment removal device for removing deposits in agricultural channels, an injection mechanism for injecting high-pressure fluid to disintegrate the deposits, and deposits crushed by the injection mechanism An ejector mechanism that sucks using compressed air; a transport vehicle that mounts the injection mechanism and the ejector mechanism; and a compressed air supply unit that supplies compressed air to the ejector mechanism via a supply hose; Piping for pumping deposits sucked by the ejector mechanism using compressed air supplied to the ejector mechanism, and the transport vehicle extends toward the rear side of the transport vehicle. a handle portion for operator to steering, and a driving assist mechanism for assisting the movement of the truck by an operator, upon removal work of deposits, behind the truck through the handle portion By steered by placed al operator, waterways deposit removal equipment is intended to be moved agricultural the waterway.

The water channel deposit removing apparatus described in this section includes an injection mechanism, an ejector mechanism, a transport vehicle, a compressed air supply means, and a pipe. Injection mechanism, by injecting high pressure fluid such as compressed air or high pressure water is for crushing the deposits such as sand deposited on agricultural waterways, by adjusting the direction and injection pressure of the injection port, crushing a wide range of deposits in agricultural waterways. The ejector mechanism sucks the sediment crushed by the injection mechanism using the compressed air supplied from the compressed air supply means. More specifically, the ejector mechanism has a compressed air flow inside the suction port. By generating a negative pressure, the deposit is sucked from the suction port. Truck is equipped with ejection mechanism and the ejector mechanism, entryway and up to the agricultural waterways, in agricultural water courses during the removal work of deposits, it is for moving the injection mechanism and the ejector mechanism . Further, the transport vehicle includes a handle portion for the operator to steer and extending toward the rear side of the transport vehicle, and a drive assist mechanism for assisting the worker to move the transport vehicle. As a result, during the deposit removal operation, the transport vehicle can be easily moved in the agricultural waterway by being steered by the operator from the rear position of the transport vehicle via the handle portion while assisting the movement by the drive assist mechanism. To be moved.

  The compressed air supply means is for supplying compressed air to the ejector mechanism, and is connected to the ejector mechanism via a supply hose. Further, the piping is used to pressure-feed the deposit sucked by the ejector mechanism using the compressed air supplied from the compressed air supply means to the ejector mechanism. That is, the piping is connected to the ejector mechanism, and the compressed air used to generate the negative pressure inside the suction port of the ejector mechanism is moved from the ejector mechanism into the piping together with the deposit sucked by the ejector mechanism. By flowing in, a deposit is conveyed by compressed air through piping.

As described above, the channel sediment removal device described in this section performs the crushing operation of the sediment, which is included in the sediment removal operation, using the high-pressure fluid, and also performs the suction and conveyance of the sediment. Since both of the two operations are performed using compressed air, the manpower operation is greatly reduced. Furthermore, the compressed air supply means for supplying compressed air through a supply hose may be installed off the agricultural waterway, the agricultural the waterways equipped with ejection mechanism and the ejector mechanism, the handle portion It is only necessary to bring in a transport vehicle having a compact configuration that is steered by the operator from the rear position . Therefore, the width of the entryway to the agricultural waterway, the width of the agricultural waterways, regardless of the site conditions, such as the presence or absence of work corridor, the entrance road and agricultural the waterway is moved truck, agricultural waterways The deposit is efficiently removed. In addition, the pumping of the sediment through the piping using compressed air also supports the transport of the sediment over a relatively long distance, so the length of the piping is adjusted to collect the removed sediment. location, such as a position away from the neighborhood and agricultural waterways agricultural waterway, is set at an arbitrary position.

(2) In the above item (1), the injection mechanism injects compressed air as the high-pressure fluid, and the compressed air supply means supplies compressed air to both the injection mechanism and the ejector mechanism. It waterways deposit removal equipment to.
Waterways atherectomy apparatus according to the above injection mechanism, disintegrated as a high pressure fluid, by injecting the compressed air supplied from the compressed air supply means, the deposits such as sediment deposited on agricultural waterways . The compressed air supply means is connected not only to the ejector mechanism but also to the injection mechanism via a supply hose, and supplies compressed air to both the injection mechanism and the ejector mechanism. As a result, the three operations of crushing, suctioning, and conveying the deposits included in the deposit removal operation are all performed using compressed air, and the work by manpower is greatly reduced. Furthermore, since the injection mechanism, the ejector mechanism, and the piping all use compressed air supplied from the compressed air supply means, the entire apparatus is reduced in size and weight. Further, since water is not used for crushing the deposit, the weight of the deposit does not increase. For this reason, compared with the case where the deposit containing a water | moisture content is processed, while a conveyance operation | work etc. are performed efficiently, the further weight reduction of an apparatus will be achieved.

( 3 ) In the above item ( 2 ), a water channel deposit removing device in which a hood is attached around a suction port of the ejector mechanism (claim 1 ).
The channel sediment removal device described in this section has a hood attached around the suction port of the ejector mechanism, so that the inlet for sucking the deposit has a shape and size of the suction port of the ejector mechanism. To the shape and size of the hood. Further, it is possible to prevent scattering during suction of the deposits and scattering of the deposits crushed near the hood.

(4) above (3) in the section, wherein the drive assist mechanism, the waterway atherectomy device is an air driven mechanism the compressed air supplied from the compressed air supply means and a power source (claim 2).
In the channel sediment removal apparatus described in this section, the drive assist mechanism provided in the transport vehicle is an air drive mechanism that uses compressed air supplied from the compressed air supply means as a power source. That is, as with the ejector mechanism, the drive assist mechanism of the transport vehicle uses the compressed air supplied from the compressed air supply means, so that the size of the apparatus can be increased compared to the case of using another power system. This suppresses the cost increase. Furthermore, since hydraulic pressure is not used as the power source of the transport vehicle, there is no adverse effect on the crops due to, for example, the oil leaking into the agricultural waterway.

(5) In the above item (4), the air drive mechanism, waterways atherectomy device further comprising a sending unit for sending the compressed air to the ejector mechanism (claim 3).
In the channel sediment removal apparatus described in this section, the air drive mechanism of the transport vehicle includes a delivery unit that sends the compressed air to the ejector mechanism. Instead, it is sent to the ejector mechanism via the sending unit. Thereby, since the compressed air sent out from the air drive mechanism is reused to suck the deposits in the ejector mechanism, the energy is used more effectively.

( 6 ) In the above ( 3 ) to ( 5 ), a water channel deposit removing device including a depressurizing cyclone mechanism for depressurizing and taking out the deposit pumped through the pipe (claim 4 ).
The channel sediment removal apparatus described in this section further includes a depressing cyclone mechanism, and this depressing cyclone mechanism is connected to an outlet side of a pipe for feeding the deposit. Thereby, in the de-energizing cyclone mechanism, the momentum of the air energy used for pumping is removed, and the deposit and air that have passed through the pipe are separated, and the deposit is efficiently taken out. Furthermore, de-energized cyclone mechanism, while connected with the pipe may be installed off the agricultural waterways like the compressed air supply means, there is no need to provide a water channel near the or agricultural agricultural waterways Is.

( 7 ) In the above items ( 3 ) to ( 6 ), a water channel deposit removing device in which the transport vehicle is a crawler vehicle (claim 5 ).
Waterways atherectomy apparatus according to the above transportation vehicle mounting the injection mechanism and the ejector mechanism, it is tracked vehicle, on soft ground near farm waterway and, in agricultural waterway gravel or the like is deposited Even if it exists, it will run easily. Furthermore, if adopting a tracked vehicle of one wheel becomes a small size suitable for movement by access road and the agricultural waterways.

The present invention is for a configuration as described above, regardless of the site conditions, it is possible to effectively remove deposits of agricultural waterways.

It is an image figure showing roughly the composition of the channel sediment removal device concerning an embodiment of the invention. It is an image figure which expands and shows the peripheral part of the conveyance vehicle of the watercourse deposit removal apparatus of FIG. It is an image figure for demonstrating the effect | action of the ejector mechanism contained in the water channel deposit removal apparatus of FIG. It is an image figure for demonstrating the effect | action of the decelerating cyclone mechanism contained in the water channel deposit removal apparatus of FIG. It is an image figure which shows schematically the utilization form different from FIG. 1 of the channel sediment removal apparatus which concerns on embodiment of this invention.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the accompanying drawings. Throughout the drawings, the same or corresponding parts are denoted by the same reference numerals.
FIG. 1 schematically shows a configuration of a water channel sediment removal apparatus 10 according to an embodiment of the present invention, and FIG. 2 shows a peripheral portion of a transport vehicle 20 included in the water channel sediment removal apparatus 10. ing. In the example of FIGS. 1 and 2, the water channel deposit removing device 10 includes an injection mechanism 12 and an ejector mechanism 14 mounted on the transport vehicle 20, and compressed air supply means connected to the transport vehicle 20 via a supply hose 32. 30 and a de-energizing cyclone mechanism 42 connected to the ejector mechanism 14 via a pipe 40.

Ejection mechanism 12, the compressed air supplied to the truck 20 from the compressed air supply means 30 via a supply hose 32, it received via the branching section 34, by injecting the compressed air from the injection port 12a, Agriculture it is intended to crush the deposits S deposited in the use waterway G. For this reason, in consideration of the convenience of work, the injection mechanism 12 is transported so that the injection port 12a for injecting compressed air is arranged on the front side of the transport vehicle 20 (left side in FIG. 2A). It is mounted on the car 20. Also, the orientation of the injection port 12a is adjustable so as to face the bottom surface or the side surface of the agricultural waterways G, also becomes adjustable pressure of the compressed air injected from the injection port 12a.

  The ejector mechanism 14 is for sucking the deposit S crushed by the injection mechanism 12, and the suction port 14 a for sucking the deposit S is provided in front of the transport vehicle 20, as with the injection mechanism 12. It is mounted on the transport vehicle 20 so as to be arranged on the side (left side in FIG. 2A). Further, the ejector mechanism 14 receives the compressed air supplied from the compressed air supply means 30 to the transport vehicle 20 via the supply hose 32 via the branch portion 34 and sucks the deposit S using the compressed air. To do. More specifically, the hose 36 branched into two from the supply hose 32 via the branch part 34 is connected to the ejector mechanism 14 as shown in FIG. 3, and each hose is shown by arrows A1 and A2. Compressed air is supplied to the ejector mechanism 14 through 36. The compressed air supplied through the hose 36 is jetted toward the diffuser 14b inside the ejector mechanism 14 as indicated by arrows A3 and A4.

Then, due to the flow of the compressed air, the range indicated by the symbol B including the inside of the suction port 14a becomes a vacuum state, and a negative pressure is generated there. Due to the negative pressure and the viscosity of the air, the surrounding air is drawn into the air jet flowing into the diffuser 14b, so that a suction force to the suction port 14a is generated as indicated by an arrow A5, and the deposit S is sucked together with the air. Is done. Then, the compressed air supplied through the hose 36, the air sucked from the suction port 14a, and the deposit S pass through the diffuser 14b and, as indicated by an arrow A6, the discharge port 14c of the ejector mechanism 14. From this, it flows into the pipe 40 connected to the ejector mechanism 14.
As shown in FIG. 2, a hood 16 is attached around the suction port 14a of the ejector mechanism 14 so as to open in a direction and size so as to facilitate the suction of the deposit S from the suction port 14a. . Further, for convenience of explanation, the portion covered with the hood 16 is shown to be transparent.

Reference to Figures 1 and 2 again, the injection mechanism 12 and the truck 20 equipped with the ejector mechanism 14, upon removal work of deposits S, and intended to be moved in agricultural water channel G by the operator W as can be seen in FIG. 2 (b), it is sized to fit within the agricultural waterway G. The transport vehicle 20 includes a handle portion 22 and a drive assist mechanism 24, and the handle portion 22 is for the operator W to grip and steer the transport vehicle 20. The driving assist mechanism 24 generates a driving force for assisting movement when the worker W moves the transport vehicle 20. In the illustrated example, the driving power mechanism 24A uses an air driving mechanism 24A whose pneumatic power source is pneumatic. Has been.

  The air drive mechanism 24A receives the compressed air supplied from the compressed air supply means 30 to the transport vehicle 20 via the supply hose 32 via the branch portion 34, and generates a driving force by the compressed air. Further, the air drive mechanism 24A is provided with a delivery section 26 for delivering the compressed air used for generating the drive force to the ejector mechanism 14. The air driving mechanism 24A is generated by assisting forward and backward movement of the transport vehicle 20 by switching a switch (not shown), and by adjusting the amount of compressed air supplied through the branch portion 34. The driving force is adjusted. In addition, although the transport vehicle 20 travels with wheels in the illustrated example, it may travel with a crawler instead of the wheels.

  In the illustrated example, the compressed air supply means 30 is installed on a carriage 48 pulled by an agricultural machine (tractor) 46, and supplies the compressed air to the transport vehicle 20 via the supply hose 32. For the compressed air supply means 30, for example, a compressor is used. As described above, the compressed air supplied via the supply hose 32 is distributed to each of the injection mechanism 12, the ejector mechanism 14, and the air drive mechanism 24A via the branch portion 34 installed in the transport vehicle 20. Is done.

  Similar to the compressed air supply means 30, the de-energizing cyclone mechanism 42 installed on the carriage 48 pulled by the agricultural machine 46 is connected to the ejector mechanism 14 mounted on the transport vehicle 20 via the pipe 40. Yes. Then, the deposit S sucked by the ejector mechanism 14 is conveyed to the reduced-pressure cyclone mechanism 42 through the pipe 40 using the compressed air supplied to the ejector mechanism 14. More specifically, as described with reference to FIG. 3, the compressed air supplied to the ejector 14 via the hose 36, the air sucked from the suction port 14a, and the deposit S pass through the diffuser 14b. As indicated by an arrow A6, the air flows from the discharge port 14c of the ejector mechanism 14 to the pipe 40. As a result, the deposit S that has flowed into the pipe 40 is pumped through the pipe 40 by the compressed air that also flows into the pipe 40, and is transported to the reduced-pressure cyclone mechanism 42 connected to the outlet side of the pipe 40.

  The de-energizing cyclone mechanism 42 weakens the momentum of the deposit S and compressed air that have passed through the pipe 40 and separates the deposit S and air. That is, as shown in FIG. 4, the compressed air and the sediment S that have reached the depressing cyclone mechanism 42 in the flow as indicated by the arrow A7 flow spirally inside the depressing cyclone mechanism 42 having an inverted frustoconical shape. It is reduced by this. The air rising by the spiral flow is discharged from the upper part of the depressing cyclone mechanism 42 as indicated by an arrow A8, and the sediment S that flows downward by gravity while flowing spirally is indicated by an arrow A9. As described above, the lowering cyclone mechanism 42 is discharged from the lower part. As shown in FIG. 1, the deposit S thus separated is deposited and collected in the vicinity of the de-energizing cyclone mechanism 42.

In the example of FIG. 1, the compressed air supply means 30 and the de-energizing cyclone mechanism 42 installed on the carriage 48 towed by the agricultural machine 46 are arranged at positions relatively close to the transport vehicle 20. Waterways atherectomy device 10 according to the embodiment of the present invention, usage of the such a positional relationship, for example, to deposit S right beside such agricultural waterway G to remove the sediment S removal Applicable when depositing. Further, waterways atherectomy device 10 according to the embodiment of the present invention can in principle while blocking the water flow to the agricultural waterway G, in which the removal work of deposits S.

Next, FIG. 5 shows a usage pattern different from that of FIG. 1 of the water channel deposit removing apparatus 10 according to the embodiment of the present invention. That is, the water channel deposit removing device 10 of FIG. 5 is a utilization form in the case where the air supply means 30 and the depressurizing cyclone mechanism 42 are arranged at positions away from the transport vehicle 20, and the sediment S is removed from the transport vehicle 20. The piping 40 for pumping to the de-energizing cyclone mechanism 42 is laid longer than the example of FIG. In the example of FIG. 5, the pipe 40 includes a flexible tube 40A, which is composed of a light-weight iron pipe 40B, and a range portion connected to trucks 20 to move the agricultural waterway G, the energy dissipation cyclone mechanism 42 A flexible tube 40A that can be bent is used for the connected portion, and a plurality of lightweight iron tubes 40B are connected and used between the flexible tubes 40A. By adjusting the quantity of the plurality of lightweight iron pipes 40B, the length of the entire pipe 40 is adjusted.

In addition, a simple detachable joint member is used at a connection portion 40C between the flexible tube 40A and the light iron tube 40B and a connection portion between the light iron tubes 40B. Thereby, for example, when the lightweight iron pipe 40B is added or removed in order to extend or shorten the pipe 40 according to the progress of the work, the reconnection work between the flexible pipe 40A and the lightweight iron pipe 40B, or between the lightweight iron pipes 40B. The reconnection operation is easily performed. Further, in the example of FIG. 5, the air supply means 30 and the energy dissipation cyclone mechanism 42, it is not necessary to place on soft ground surrounding agricultural waterways G, air supply means 30 and the energy dissipation cyclone mechanism 42, Agriculture It is installed not on the carriage 48 pulled by the machine 46 but on the carrier of the small truck 50. Further, the deposit S discharged from the de-energizing cyclone mechanism 42 is packed in a flexible container bag 52 and collected. Form as shown in FIG. 5, for example, it is used for decontamination work or the like agricultural waterways G. In FIG. 5, the supply hose 32 for supplying the compressed air from the compressed air supply means 30 to the transport vehicle 20 is not shown, but the supply hose 32 may be laid along the pipe 40. Good.

Now, according to the embodiment of the present invention configured as described above, the following operational effects can be obtained. That is, the channel sediment removal apparatus 10 according to the embodiment of the present invention includes an injection mechanism 12, an ejector mechanism 14, a transport vehicle 20, a compressed air supply means 30, and a pipe 40, as shown in FIGS. Is included. Injection mechanism 12 to inject the high-pressure fluid such as compressed air or high pressure water is for crushed deposits S such sediment deposited on agricultural waterway G, the orientation and the injection pressure of the injection port 12a the adjustment can be disintegrated extensive deposits S agricultural the waterway G. The ejector mechanism 14 sucks the sediment S crushed by the injection mechanism 12 using compressed air supplied from the compressed air supply means 30, and more specifically, as shown in FIG. The deposit S is sucked from the suction port 14a by generating a negative pressure inside the suction port 14a by the flow of compressed air. Truck 20 is equipped with injection mechanism 12 and the ejector mechanism 14, entryway and up to the agricultural waterway G, during operation of removing deposits S in agricultural waterways G, the injection mechanism 12 and the ejector mechanism 14 Is for moving.

  The compressed air supply means 30 is for supplying compressed air to the ejector mechanism 14, and is connected to the ejector mechanism 14 via a supply hose 32. The compressed air supply means 30 can be easily transported by an agricultural machine 46 such as a tractor. The pipe 40 is configured to pump the deposit S sucked by the ejector mechanism 14 using the compressed air supplied from the compressed air supply means 30 to the ejector mechanism 14. That is, the piping 40 is connected to the ejector mechanism 14, and as shown in FIG. 3, compressed air used for generating a negative pressure inside the suction port 14 a of the ejector mechanism 14 is sucked by the ejector mechanism 14. By flowing into the pipe 40 from the ejector mechanism 14 together with the deposit S, the deposit S is conveyed by the compressed air through the pipe 40.

As described above, the water channel deposit removing apparatus 10 according to the embodiment of the present invention performs the crushing operation of the deposit S included in the operation of removing the deposit S using the high-pressure fluid, Since the two operations of sucking and transporting the object S are both performed using compressed air, it is possible to greatly reduce the work by manpower. Furthermore, the compressed air supply means 30 for supplying compressed air through the supply hose 32 may be installed off the agricultural waterway G, In the agricultural waterway G, the injection mechanism 12 and the ejector mechanism 14 It is only necessary to bring in the transport vehicle 20 having a compact configuration. Therefore, agricultural access road widths up waterway G, the width of the agricultural waterway G, regardless of the site conditions, such as the presence or absence of the working passage, and move the cart 20 in the entrance lane and the agricultural water channel G, the sediment S agricultural waterway G becomes possible to efficiently remove. In addition, the pumping of the deposit S that passes through the pipe 40 using compressed air can also support the transport of the deposit S over a relatively long distance as shown in FIG. doing, the collection site of the removed deposits S, such as a position away from the neighborhood and agricultural waterways G agricultural waterways G, can be set at an arbitrary position.

Further, waterways atherectomy device 10 according to the embodiment of the present invention, the injection mechanism 12, as a high pressure fluid, by injecting the compressed air supplied from the compressed air supply means 30, deposited on agricultural waterway G The sediment S such as earth and sand is crushed. For this reason, the compressed air supply means 30 is connected not only to the ejector mechanism 14 but also to the injection mechanism 12 via the supply hose 32, and supplies the compressed air to both the injection mechanism 12 and the ejector mechanism 14. As a result, the three operations of crushing, suctioning, and conveying the deposit S included in the deposit S removal operation can be performed using compressed air, greatly reducing human labor. it can. Furthermore, since the injection mechanism 12, the ejector mechanism 14, and the pipe 40 all use compressed air supplied from the compressed air supply means 30, the entire apparatus can be reduced in size and weight. Moreover, since water is not used for crushing the deposit S, the weight of the deposit S does not increase. For this reason, as compared with the case where the deposit S containing moisture is processed, it is possible to efficiently perform the transfer operation and the like, and to further reduce the weight of the apparatus.

In addition, the channel sediment removal device 10 according to the embodiment of the present invention assists the transporter 20 to move the transporter 20 by the operator W and the handle portion 22 for the operator W to steer. Drive assist mechanism 24 is provided. Thus, the worker W while receiving a driving assistance by the auxiliary drive mechanism 24, and steering with handle portion 22, the truck 20 can be easily moved by agricultural waterways G in like. In the channel sediment removal apparatus 10 according to the embodiment of the present invention, the driving assist mechanism 24 provided in the transport vehicle 20 uses the compressed air supplied from the compressed air supply means 30 as a power source. It is what is. That is, as with the injection mechanism 12 and the ejector mechanism 14, the drive assist mechanism 24 of the transport vehicle 20 uses the compressed air supplied from the compressed air supply means 30 to compare with a case where another power system is used. Thus, the increase in size and cost of the apparatus can be suppressed. Furthermore, since hydraulic pressure is not used as the power source of the transport vehicle 20, for example, it is possible to prevent adverse effects on agricultural products caused by oil leaking into agricultural waterways.

In addition, the channel sediment removal apparatus 10 according to the embodiment of the present invention is used as a power source by the air drive mechanism 24A of the transport vehicle 20 including the delivery unit 26 that sends the compressed air to the ejector mechanism 14. The compressed air is released to the ejector mechanism 14 via the delivery unit 26 without being released into the atmosphere and becoming ineffective energy. Thereby, since the compressed air sent out from the air drive mechanism 24A can be reused for sucking the deposit S in the ejector mechanism 14, energy can be utilized more effectively.
Furthermore, the water channel deposit removing apparatus 10 according to the embodiment of the present invention has an inlet for sucking the deposit S by attaching the hood 16 around the suction port 14a of the ejector mechanism 14. The shape and size of the suction port 14 a of the ejector mechanism 14 can be expanded to the shape and size of the hood 16. Moreover, it is possible to prevent the deposit S from being scattered during the suction, and the deposit S being crushed in the vicinity of the hood 16 from being scattered.

The channel sediment removal apparatus 10 according to the embodiment of the present invention further includes a depressing cyclone mechanism 42, and this depressing cyclone mechanism 42 is provided on the outlet side of the piping 40 that pumps the deposit S. Connected. As a result, in the de-energizing cyclone mechanism 42, the momentum of the air energy used for pumping can be removed, and the deposit S that has passed through the pipe 40 can be separated from the air. Can be taken out efficiently. Furthermore, energy dissipation cyclone mechanism 42, as shown in FIG. 5, while connected with the pipe 40 may be installed off the likewise agricultural waterway G and the compressed air supply means 30, agricultural waterway G the inner and vicinity agricultural waterways G is that there is no need to install.
Furthermore, the water channel deposit removing apparatus 10 according to the embodiment of the present invention is configured such that the transport vehicle 20 on which the injection mechanism 12 and the ejector mechanism 14 are mounted is a crawler vehicle, so that it can be used on soft ground around agricultural water channels or earth and sand. etc. even within agricultural waterway G was deposited, it is possible to easily travel. Moreover, if adopting a tracked vehicle of one wheel, it is possible to promote miniaturization suitable for movement by access road and the agricultural waterway G.

Here, waterways atherectomy device 10 according to the embodiment of the present invention, agricultural waterway G is a removal target deposits S is not limited to the concrete gutter or the like, a groove provided in the soil in the backhoe or the like It may be an open digging side groove. Further, the drive source of the drive assist mechanism 24 of the transport vehicle 20 is not limited to the pneumatic type, and may be a small engine or an electric motor. Further, by adding a mechanism for adding a small amount of water in the vicinity of the injection port 12a of the injection mechanism 12, the injection mechanism 12 may be configured to inject an air-fuel mixture in which compressed air and water are mixed. In this case, the deposit S or the like firmly stuck to the concrete side groove or the like can be peeled off by using the mixed air jet from the injection mechanism 12.

In addition, the channel sediment removal apparatus 10 which concerns on embodiment of this invention is not limited to the injection mechanism 12 which injects a high pressure fluid, Injecting compressed air, For example, even if it injects high pressure water Good. In this case, for example, high-pressure water supply means is installed on the carriage 48 or the small truck 50, and the high-pressure water supply means and the injection mechanism 12 are connected by a supply hose separate from the supply hose 32. That's fine. Thus, in a state filled with water without interrupting the water flow to the agricultural waterways G, the sediment S deposited on the agricultural waterway G, and effectively crushed using a high pressure water Can be removed.

DESCRIPTION OF SYMBOLS 10: Water channel deposit removal apparatus, 12: Injection mechanism, 14: Ejector mechanism, 14a: Suction port, 16 hood, 20: Transport vehicle, 22: Handle part, 24: Drive assist mechanism, 24A: Air drive mechanism, 26: sending unit, 30: compressed air supply means, 32: supply hose, 40: pipe, 42: de-energized cyclone mechanism, S: deposit, W: operator, G: agricultural waterways

Claims (5)

A channel sediment removal device for removing sediment in an agricultural channel ,
An injection mechanism for injecting high-pressure fluid to break up the deposit;
An ejector mechanism for sucking the sediment crushed by the injection mechanism using compressed air;
A transport vehicle carrying the injection mechanism and the ejector mechanism;
Compressed air supply means for supplying compressed air to the ejector mechanism via a supply hose;
Piping for pumping deposits sucked by the ejector mechanism using compressed air supplied to the ejector mechanism,
The transport vehicle includes a handle portion that extends toward the rear side of the transport vehicle and is operated by an operator, and a driving assist mechanism that assists the movement of the transport vehicle by the operator . during the work of removing the by being steered by the operator from the rear position of the transportation vehicle through the handle portion state, and are intended to be moved agricultural the waterway,
The injection mechanism is for injecting compressed air as the high-pressure fluid,
The compressed air supply means supplies compressed air to both the injection mechanism and the ejector mechanism,
A water channel deposit removing device, characterized in that a hood is attached around a suction port of the ejector mechanism . Wherein the auxiliary drive mechanism, waterways atherectomy device of claim 1, wherein the compressed air supplied is an air driven mechanism powered from said compressed air supply means. The water channel deposit removing apparatus according to claim 2 , wherein the air driving mechanism includes a delivery unit that sends compressed air to the ejector mechanism. The water channel deposit removing apparatus according to any one of claims 1 to 3 , further comprising a depressurizing cyclone mechanism for depressurizing and taking out deposits pumped through the pipe. The water channel deposit removing apparatus according to any one of claims 1 to 4 , wherein the transport vehicle is a crawler vehicle.

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