JP6664611B1 - Self-propelled agricultural irrigation vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a self-propelled agricultural irrigation vehicle. A self-propelled water truck 1, a self-propelled auxiliary vehicle 2, and a spray system 3 are provided, and the self-propelled water truck 1 is provided on a traveling facility 11, a support frame 12, and a support frame 12 for moving. A winch device 13 for winding a water supply hose and a pump device 14 provided on the support frame 12 for transporting water. The spray system 3 includes a water pipe closed at one end, and nozzle devices evenly arranged on the water pipe. The inlet end of the water supply pipe is connected to the output end of the pump device, and the closed end of the water supply pipe is provided in the self-propelled auxiliary vehicle 2. [Selection diagram] Fig. 1

Description

The present invention relates to the technical field of agricultural irrigation, and more particularly to a self-propelled agricultural irrigation vehicle.

Existing pivot irrigation systems generally use a central support shaft type sprinkler, where the rotating support shaft of the sprinkler is fixed in the center of the irrigation area, fixed to the reinforced concrete support base, and the center lower end of the support shaft is a well pump. The upper end is a water-saving irrigation machine connected to the rotating curved pipe by a rotating mechanism, and spraying water on crops by the spray system on the truss. The central support shaft type sprinkler radiates outward from the center of the support shaft sheet, so the fixed fulcrum greatly limits the irrigation area in use, and at the same time, the irrigation area is circular, so irrigation overlaps in actual application Inevitably, there will be areas to be irrigated or irrigated, and the overall cost of manufacturing will be increased because the entire facility will require the manufacture of reinforced concrete support bases and the construction of wells required for irrigation water.

In view of the above problems, the present invention provides a self-propelled agricultural irrigation vehicle, which avoids the problem of areas where central support shaft type sprinklers overlap or cannot be irrigated, and significantly reduce costs.

According to the technical solution of the present invention, a self-propelled agricultural irrigation vehicle includes a self-propelled water vehicle, a self-propelled auxiliary vehicle, and a spray system, wherein the self-propelled water vehicle includes traveling equipment for moving. ,
It includes a support frame for supporting, a winch device provided on the support frame for winding a water supply hose, and a pump device provided on the support frame for transporting water.

The support frame includes a first support frame and a second support frame, the second support frame is provided on an upper end of the first support frame, and a winch device is provided on the first support frame, and a pump device is provided on the first support frame. Two supporting frames are provided.

The spray system includes a water pipe closed at one end, and a nozzle device evenly arranged on the water pipe, an inlet end of the water pipe being connected to an output end of a pump device, and a closed end of the water pipe being free-running. It is provided on the auxiliary vehicle.

A power device is provided in the self-propelled water vehicle, and the power device includes a power equipment body, a driving device,
The power plant body includes a plurality of output drive shafts and a plurality of transmission connection devices, the power device body may employ any of a power engine or a motor, the drive device employs a gearbox, and a power equipment body. The output end of is connected to the gearbox, and the rotary drive shaft of the traveling equipment is
One transmission connection device is connected to one output drive shaft, and one end of a center shaft of the winch device is provided with a first interlock gear, and the first interlock gear is connected to one output drive shaft by a first belt. A second interlock gear is provided at one end of a fan shaft of the pump device, and the second interlock gear is connected to one output drive shaft by a second belt.

  The traveling structure of the self-propelled auxiliary vehicle is the same as that of the self-propelled water vehicle.

Further, the power plant includes a power plant body, a driving device, two output drive shafts, and one transmission connection device, wherein the power plant body employs a motor, and the rotary drive shaft of the traveling equipment is driven by a transmission connection device. The second interlocking gear and the first interlocking gear are connected to one output drive shaft, and are connected to another output drive shaft by a first belt and a second belt, respectively.

Further, the power plant includes a power plant main body, a drive device, two output drive shafts, and two transmission connection devices, the power plant main body employs a motor, and a rotary drive shaft of a front wheel of the traveling facility has one One transmission drive device is connected to one output drive shaft, the rotary drive shaft of the rear wheel of the traveling equipment is connected to another output drive shaft by another transmission connection device, and the first interlocking gear is connected to the first belt Connected to one output drive shaft, and the second interlocking gear is connected to another output drive shaft by a second belt, which effectively provides sufficient power for traveling by a front and rear double drive method. Further, since the belt winch device and the pump device are independently disposed on the two drive shafts, it is possible to effectively avoid a power shortage caused by an excessively large load on one drive shaft. thing It can be.

Further, the power plant includes a power plant main body, a driving device, four output drive shafts, and two transmission connection devices. The power plant main body employs a gasoline engine, and a rotary drive shaft of a front wheel of the traveling facility is: One transmission connection device is connected to the first output drive shaft, the rotary drive shaft of the rear wheel of the traveling equipment is connected to the second output drive shaft by another transmission connection device, and the first interlocking gear is connected to the first output drive shaft. The belt is connected to the third output drive shaft, the second interlocking gear is connected to the fourth output drive shaft by the second belt, and in use, the rotary drive shaft of the front and rear wheels of the traveling equipment, the winch device. The first interlocking gear and the second interlocking gear of the pump device are connected by independent output drive shafts, respectively, so that utilization of power can be maximized.

In addition, the self-propelled water vehicle is used with a plurality of self-propelled auxiliary vehicles and a plurality of spray systems, and can greatly expand and utilize the self-propelled auxiliary vehicles and the spray system, thereby maximizing an irrigated area. And make it more efficient.

Furthermore, the self-propelled water vehicle is provided with a two-way motor, and the two-way motor is connected to the first interlocking gear, so that independent control of the winch device can be realized by the two-way motor, which is easier to use.

Further, the spray system further includes a protective bending bracket, wherein the protective bending bracket is provided with a plurality of buckles, a second mounting frame is provided with a first mounting bracket, and a second mounting bracket is provided on the self-propelled auxiliary vehicle. A bracket is provided, both ends of the protective bending bracket can be movably provided on the first mounting bracket, the second mounting bracket, and the protective bending bracket can fix the water pipe by a buckle, and in use. In addition, the stability of this device can be effectively improved.

The beneficial effect is that, instead of the central support shaft type irrigation method radiated from the center of the support shaft sheet to the outside, a self-propelled body is adopted to effectively solve the limitation of the irrigation area, and the present invention The device does not need to take water at the support points, and because it chooses to take water in any area, there is no need to build a well compared to traditional irrigation methods, saving costs, and It is suitable for dissemination.

FIG. 1 is a schematic structural view of Embodiments 1 and 2 of the present invention. FIG. 2 is a schematic structural view of the self-propelled water vehicle in Embodiment 1 of the present invention. FIG. 3 is a schematic diagram of the principle structure of the self-propelled water vehicle in the first embodiment of the present invention. FIG. 4 is a schematic diagram illustrating the principle structure of a self-propelled water vehicle according to a second embodiment of the present invention. FIG. 5 is a schematic structural diagram of Embodiment 3 of the present invention. FIG. 6 is an exploded view of the self-propelled water vehicle in Embodiment 3 of the present invention. FIG. 7 is a schematic diagram illustrating the principle structure of a self-propelled water vehicle according to Embodiment 3 of the present invention. FIG. 8 is a schematic structural view of a buckle according to the third embodiment of the present invention. FIG. 9 is an irrigation flowchart of the first and second embodiments of the present invention. FIG. 10 is a flowchart of irrigation according to the third embodiment of the present invention. Here, 1-self-propelled water vehicle, 10-power device, 100-equipment main body, 101-drive device, 102-output drive shaft, 103-transmission connection device, 11-travel equipment, 111-rotation drive shaft, 12 -Support frame, 121-first support frame, 122-second support frame, 123-first mounting bracket, 13-winch device, 130-first interlocking gear, 131-first belt, 132-bidirectional motor, 14- Pump device, 140-second interlocking gear, 141-second belt, 2-self-propelled auxiliary vehicle, 3-spray system, 4-protective curved bracket, 41-buckle.

Example 1
The self-propelled agricultural irrigation vehicle as shown in FIGS. 1 and 2 includes a self-propelled water vehicle 1, a self-propelled auxiliary vehicle 2, and a spray system 3, and the self-propelled water vehicle 1 moves. Traveling equipment 11,
It includes a support frame 12 for supporting, a winch device 13 provided on the support frame 12 for winding a water supply hose, and a pump device 14 provided on the support frame 12 for transporting water.

The support frame 12 includes a first support frame 121 and a second support frame 122,
The second support frame 122 is provided on the upper end of the support frame 121 and the winch device 13
Is provided on the first support frame 121, and the pump device 14 is provided on the second support frame 122.

The spray system 3 includes a water pipe closed at one end and a nozzle device evenly arranged on the water pipe, the inlet end of the water pipe being connected to the output end of the pump device 14, and the closed end of the water pipe being self-propelled. It is provided on the auxiliary vehicle 2.

As shown in FIG. 3, the self-propelled water vehicle 1 is provided with a power unit 10, and the power unit 10 includes a power plant body 100, a drive unit 101, two output drive shafts 102, and one transmission connection unit 103.
The power equipment main body 100 may employ a motor, the driving device 101 employs a gearbox, an output end of the power equipment main body 100 is connected to a gearbox, and a rotary drive shaft 111 of the traveling equipment 11. Is connected to one output drive shaft 102 by a transmission connection device 103, and a first interlocking gear 130 is provided at one end of the center shaft of the winch device 13, and the first interlocking gear 130 is connected to another by a first belt 131. Pump device 1 connected to output drive shaft 102
A second interlocking gear 140 is provided at one end of the fourth fan shaft, and the second interlocking gear 140 is connected to another output drive shaft 102 by a second belt 141.

  The traveling structure of the self-propelled auxiliary vehicle 2 is the same as that of the self-propelled water vehicle 1.

As shown in FIG. 9, before use, the apparatus was moved to an irrigated area, and then the water source was directed through a water pipe to a port of a water supply hose.
02 to the rotary drive shaft 11 of the traveling equipment 11
1, the trolley advances, and the motor is driven by the drive 101 to the output drive shaft 102.
To the winch device 13 by the first belt 131 and the first belt 141.
The water supply hose is lined with the rotation of the winch device, and the pump device pumps water to the spray system 3 to irrigate the water, and after use, winch the water supply hose manually for the next use. Wrap around device 13.

Example 2
As for the difference from the first embodiment, as shown in FIG.
, Drive device 101, two output drive shafts 102, and two transmission connection devices 103, the power equipment body 100 employs a motor, and the rotary drive shaft 111 of the front wheels of the traveling equipment 11 has one transmission connection device 103. Is connected to one output drive shaft 102, the rotary drive shaft 111 of the rear wheel of the traveling equipment 11 is connected to another output drive shaft 102 by another transmission connection device 103, and the first interlocking gear 130 is The belt 131 is connected to one output drive shaft 102, and the second interlocking gear 140 is connected to another output drive shaft 102 by a second belt 141.

In use, the difference between the first embodiment and the first embodiment is that the motor transmits power to the output drive shaft 102 by the driving device 101, and then transmits the power to the rotation drive shaft 111 of the front and rear wheels of the traveling device 11 by the transmission connection device 103. The first belt 131 and the second belt 141 are connected to the drive shafts 102 of the front and rear wheels, respectively.

Example 3
Regarding the difference from the first embodiment, as shown in FIG. 5, the self-propelled water vehicle 1 is used together with two self-propelled auxiliary vehicles 3 and two spray systems 3.

As shown in FIG. 7, the power plant 10 includes a power plant body 100, a drive device 101, four output drive shafts 102, and two transmission connection devices 103. The power plant body 100 employs a gasoline engine, The rotation drive shaft 111 of the front wheel of the eleventh
Is connected to the first output drive shaft 102, and the rotary drive shaft 111 of the rear wheels of the traveling equipment 11 is
Connected to the second output drive shaft 102 by another transmission connecting device 103,
30 is connected to the third output drive shaft 102 by a first belt 131, the second interlocking gear 140 is connected to the fourth output drive shaft 102 by a second belt 141, A motor 132 is provided, and the bidirectional motor 132 is connected to the first interlocking gear 130.

As shown in FIGS. 5, 6 and 8, the spray system 3 further includes a protective curved bracket 4, which is provided with a plurality of buckles 41 evenly on the protective curved bracket 4.
A first mounting bracket 123 is provided on the second mounting bracket 22, a second mounting bracket is provided on the self-propelled auxiliary vehicle 2, and both ends of the protection curved bracket 4 are movably provided on the first mounting bracket 123 and the second mounting bracket. The protective curved bracket 4 can fix the water pipe by the buckle 41.

As shown in FIG. 10, the difference from the embodiment is that before the use, after the water supply hose is placed long enough using the two-way motor 132, the water supply hose is guided to the water source without the aid of the water pipe, and Attach the protective curved bracket 4 and fix the water pipe with the buckle 41 for use.
In use, the front and rear rotary drive shafts 111 of the traveling equipment 11, the first interlocking gear 130 of the winch device 13, and the second interlocking gear 140 of the pump device 14 are connected by independent output drive shafts 102, respectively, and , After use, two-way motor 1 provided independently for next use
At 32, the water supply hose is wound around the winch device 13.

Application Example An irrigation experiment was performed using the irrigation vehicle manufactured according to Examples 1 to 3 in a specialized cooperation wheat field,
Areas of 500 mu of farmers to be irrigated include the 1st, 2nd, 3rd, 4th,
And the fifth area, and each area is 100 mu. The first area, the second area, and the third area are irrigation vehicles manufactured according to the first, second, and third examples, respectively. Irrigation is performed, the fourth area is irrigated with a pointer-type irrigation system, and the fifth area is irrigated by the conventional field irrigation method.If the irrigation intensity is the same, the specific irrigation situation in each area is as follows. is there.

Conclusion: When irrigating with the irrigation vehicle of the present invention, compared to the conventional irrigation method and irrigation equipment for field irrigation, the water consumption is greatly reduced, the labor required for labor is reduced, and much time and Costs can be saved.
Finally, it should be noted that the above embodiments are only used to explain the technical solution of the present invention and are not limited thereto.

Claims (1)

A self-propelled agricultural irrigation vehicle comprising a self-propelled water vehicle (1), a self-propelled auxiliary vehicle (2), and a spray system (3);
The self-propelled water vehicle (1) includes a traveling facility (11) for moving, a support frame (12) for supporting, and a winch device (13) provided on the support frame (12) for winding a water supply hose. ), And a pump device provided on the support frame (12) for transporting water (
14),
The support frame (12) includes a first support frame (121) and a second support frame (12).
122), the second support frame (122) is provided on an upper end of the support frame (121), the winch device (13) is provided on the first support frame (121), and the pump device (14) is provided on the first support frame (121). Two supporting frames (122),
The spray system (3) includes a water pipe closed at one end and a nozzle device evenly arranged on the water pipe, an inlet end of the water pipe being connected to an output end of a pump device (14);
The closed end of the water pipe is provided on the self-propelled auxiliary vehicle (2),
The self-propelled water vehicle (1) is provided with a power unit (10), and the power unit (10) includes a power equipment body (100), a drive unit (101), a plurality of output drive shafts (102), a plurality of output drive shafts. The power transmission main body (100) can use either a power engine or a motor, and the driving device (101) adopts a gearbox, The output end of the equipment body (100) is connected to the gearbox, and the traveling equipment (11)
Are connected to one output drive shaft (111) by one transmission connection device (103).
102) and a first interlocking gear (130) at one end of the center axis of the winch device (13).
The first interlocking gear (130) is connected to one output drive shaft (102) by a first belt (131), and a second interlocking gear (130) is connected to one end of a fan shaft of the pump device (14).
140), and the second interlocking gear (140) is connected to the first belt (141) by the first belt (141).
Connected to two output drive shafts (102),
The traveling structure of the self-propelled auxiliary vehicle (2) is the same as that of the self-propelled water vehicle (1),
The power unit (10) includes a power plant body (100), a drive unit (101), and four outputs.
The power plant body (100) including a drive shaft (102) and two transmission connection devices (103).
Adopts a gasoline engine, and the rotary drive shaft (111) of the front wheels of the traveling equipment (11) has one
Connected to the first output drive shaft (102) by two transmission connecting devices (103).
11) The rear drive shaft (111) of the rear wheel is connected to the second output by another transmission connection device (103).
The first interlocking gear (130) is connected to a drive shaft (102) and is connected to a first belt (131).
Therefore, the second output gear (140) is connected to the third output drive shaft (102),
(141) connected to the fourth output drive shaft (102),
The self-propelled water vehicle (1) is provided with a two-way motor (132), and the two-way motor is provided.
(132) is connected to the first interlocking gear (130),
The spray system (3) further comprises a protective curved bracket (4), wherein the protective bay
A plurality of buckles (41) are equally provided on the curved bracket (4), and the second support frame is provided.
A first mounting bracket (123) is provided on the (122), and the self-propelled auxiliary vehicle (2) is provided.
Is provided with a second mounting bracket, both ends of the protective curved bracket (4),
One mounting bracket (123) may be movably provided on said second mounting bracket.
And the protective curved bracket (4) is connected to the water pipe by the buckle (41).
Can be fixed,
A self-propelled agricultural irrigation vehicle, characterized in that: