JP3570049B2 - Granule sprayer - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a configuration for collecting particulate matter remaining in a particulate matter storage unit in a granular material spraying apparatus that sprays granular matter such as fertilizer.
[0002]
[Prior art]
There is a fertilizer apparatus configured to transfer granular fertilizer fed from a fertilizer storage unit through a transfer pipe to a spraying port facing a spraying position in a field, and to feed pressurized air for transferring the fertilizer into the transfer pipe by a blower.
[0003]
[Problems to be solved by the invention]
In this type of fertilizer application, if the fertilizer remains in the fertilizer storage unit, the fertilizer is solidified and hinders the next operation, so the fertilizer remaining in the fertilizer storage unit after the work is taken out and collected. . An object of the present invention is to make it possible to reliably and easily recover the residual fertilizer.
[0004]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is configured as follows. That is, the granular material spraying device according to the present invention transfers the granular material fed from the granular material storage unit to the spray port facing the spraying position in the field through the transfer tube, and pressurized air for transferring the granular material into the transfer tube. In the granular material spraying device configured to send a particulate matter by a blower, a granular material outlet for removing the granular material remaining in the granular material storage unit, and a collection pipe for collecting the granular material taken out through the granular material outlet. A collection shutter that opens and closes the particulate matter outlet, and a blower switching shutter that switches the pressurized air from the blower to be sent to the collection pipe, and the blower that blows the compressed air from the blower into the collection pipe. When the switching shutter is switched, the two shutters are linked so that the recovery shutter is opened with a delay.
[0005]
【Example】
Hereinafter, examples of the present invention will be described.
1 to 6 is a fertilizer applicator to be mounted on a riding rice transplanter and used to apply fertilizer to the vicinity of the side of each of the four planting strips.
[0006]
Numeral 2 in the figure is a fertilizer storage unit (granular material storage unit) in which granular fertilizer is put. The fertilizer storage unit 2 in the illustrated example is formed integrally with two rows, and has a lid 2a that can be opened and closed at the top. Below the fertilizer storage unit 2, there is provided a feeding unit 3 for feeding the fertilizer in the fertilizer storage unit downward by a fixed amount.
[0007]
The feeding section 3 has a feeding roll 5 built therein. This feeding roll 5 is a combination of a groove roll 5a in which a plurality of axial grooves are formed on the outer peripheral portion and a claw roll 5b in which claw-like projections slidably engaged with the grooves of the groove roll are formed. , And the portion of the groove where the claw-shaped projection is not engaged becomes the fertilizer holding concave portion 6,. The feed roller 5 is rotatably supported on the outer periphery of a roll support cylinder 7 provided in the left-right direction, and the rotation of a feed shaft 8 whose one end is rotatably fitted in the roll support cylinder 7 is rotated by a fertilizer application clutch. 9 to the feeding roll 5. The fertilizer application clutch 9 can be turned on and off by a clutch pin 9a. When the feeding roll 5 rotates in the direction of the arrow in FIG. 1, the recesses 6,... Convey the fertilizer in the fertilizer storage unit 2 and are fed downward. The movement of the claw roll 5b in the axial direction is restricted by the opening adjustment gear 11. The opening adjustment gear 11 is screwed into the screw portion 7 a of the roll support cylinder 7 and meshes with a pinion 13 attached to the opening adjustment shaft 12. Therefore, when the opening adjusting shaft 12 is rotated using the opening adjusting hand 14, the claw roll 5b moves in the axial direction together with the opening adjusting gear 11, whereby the volume of the recesses 6,. The amount is adjusted.
[0008]
The feeding section 3 is driven by power from the rice transplanter main body. That is, the reciprocating motion of the fertilizer drive rod 15 is transmitted to the fertilizer drive shaft 17 via the one-way clutch 16, and the intermittent rotation of the fertilizer drive shaft 17 is transmitted to the feed shaft 8 via the transmission belt 18. FIG. 6 is a view showing a transmission portion from the fertilizing drive shaft 17 to the feeding shaft 8. In FIG. 6, reference numeral 17 a denotes a pulley on the fertilizing driving shaft, 8 a denotes a pulley on the feeding shaft, and 12 a denotes a tension pulley. As shown in the figure, since the tension pulley 12a is mounted on the opening adjustment shaft 12, there is no need to separately provide a shaft for mounting the tension pulley 12a, and the configuration is simple.
[0009]
At the space between the feeding roll 5 and the front wall surface where the concave portions 6,... Hold and rotate the fertilizer, the partition plate 20 for preventing the free fall of the fertilizer in the fertilizer storage unit 2 and the concave portion 6 are provided. A brush 21 for leveling the surface of the fertilizer being held and transported downward is detachably attached. A seal rubber 20a is attached to the leading end of the partition plate 20 so that no gap is formed between the partition roll 20 and the feeding roll 5, so that fertilizer is caught between the two and powdered, thereby preventing clogging of fertilizer and the like. Inconvenience is prevented. Further, since the feeding roll 5 is in contact with the flexible seal rubber 20a, the wear of the feeding roll 5 is prevented. Since the seal rubber 20a is inserted into the partition plate 20, it can be easily replaced when the seal rubber 20a is worn out. The seal rubber 20a may be formed integrally with the partition plate 20 by baking.
[0010]
A connection pipe 23 is formed integrally with a lower portion of the feeding section 3. The fertilizer transfer pipe 24 is connected to the rear end of the connection pipe 23. On the other hand, the front end of each connection pipe 23 is inserted and connected to a side surface of an air chamber 25 provided in the left-right direction. One end of the air chamber 25 is connected to a blower 27 via a connecting pipe 26, and pressurized air from the blower 27 is sent to the connection pipe 23 and the fertilizer transfer pipe 24 of each strip via the air chamber 25, The fertilizer fed from the feeding section 3 is transported to the fertilizing port (spray port) at the tip of the connection pipe 23 by wind pressure.
[0011]
A cylindrical fertilizer outlet (granular material outlet) 30 for removing fertilizer remaining in the fertilizer storage unit 2 is provided obliquely downward on the upper rear side wall surface of the feeding unit 3. Further, a collection pipe 31 in the left-right direction is provided on the axis of the fertilizer take-out port 30, and the lower end of the fertilizer take-out port 30 is connected to an obliquely upper horizontal wall of the collection pipe 31. At the lower end of the fertilizer take-out port 30, a portion on the upper side of the collection tube 31 in the fertilizer collection direction is formed as a spherical windproof hood 30a, and a lower side in the fertilizer collection direction is open. A spherical recovery shutter 32 that can be opened and closed by an opening and closing mechanism described below is attached to the opening. The hood 30a and the collection shutter 32 form a hemisphere. One end of the recovery pipe 31 is connected to the blower 27 via the joint pipe 26. The other end serves as a fertilizer collection port, and a collection lid 33 that can be freely opened and closed is attached thereto.
[0012]
As shown in FIG. 5, the connecting pipe 26 is forked, and the connecting port 26a is connected to the air chamber 25, and the other connecting port 26b is connected to the collecting pipe 31. The branch portion is provided with a blower switching shutter 35 that switches between a state in which pressurized air from the blower 27 is blown into the air chamber 25 and a state in which the compressed air is blown into the collection pipe 31. The blower switching shutter 35 is rotatable about a rotating shaft 36 as a support shaft. By rotating the rotating shaft 36 with a blower switching lever 37 provided outside, the blowing direction is switched. Has become. Note that seal members 35a and 35b are attached to portions where the blower switching shutter 35 contacts the wall surface of the connecting pipe 26. The blower 27 is driven by a motor 38 (shown in FIGS. 7 and 8), and the motor 38 is turned ON / OFF by a blower ON / OFF switch 39.
[0013]
The collecting shutter 32 is attached to two parallel collecting shutter opening / closing shafts 40, 40 provided in the collecting pipe 31 by mounting plates 41, 41, and a connecting portion 40a connecting these opening / closing shafts 40, 40 is provided with a ventilation switching shutter. The rod 41 is loosely fitted in the elongated hole 41a linked to the rod 35. The collection shutter 32 is in a closed state when the ventilation switching shutter 35 is on the side that blows air to the air chamber 25, and when the ventilation switching shutter 35 is switched to the side that blows the collection pipe 31, the open / close shafts 40 and 40 are pulled. The collection shutter 32 is opened. At this time, the timing at which the open / close shafts 40, 40 are pulled by the length of the elongated hole 41a is delayed, so that the collection shutter 32 is opened after a short time has elapsed since the air supply to the collection pipe 31 was started. I have. Instead of mechanically interlocking the collection shutter 32 with the ventilation switching shutter 35 as in this embodiment, the collection shutter 32 may be interlocked by electrical control using a motor or the like.
[0014]
The fertilizer applicator 1 has the above configuration, and is used by being mounted on a riding rice transplanter 50 as shown in FIGS. In the drawing, reference numeral 51 denotes a riding traveling vehicle body, 52 denotes a planting portion, and 53 denotes a lifting link device that supports the planting portion so as to be able to move up and down with respect to the traveling vehicle body. Also, 51a is a front wheel, 51b is a rear wheel, 51c is a cockpit, 51d is a floor step, 51e is a steering wheel, 51f is an engine, 52a is a seedling mounting table, 52b is a seedling planting device, and 52c is a float.
[0015]
The fertilizer applicator 1 is provided with an air chamber 25 fixed to the rear upper side of the traveling vehicle body 51 in the left and right horizontal direction, and the fertilizer storage units 2 and... The fertilizer storage units 2,... Are integrally formed in two rows, and the feeding rolls 5,... Of the feeding sections 3,. ing. The fertilizer application ports (spraying ports) at the ends of the fertilizer transfer pipes 24,... Connected to the connection pipes 23,. The blower 27 is attached to a joint pipe 26 integrally fixed to the left end of the air chamber 25 by an attachment pipe 55. An intake port of an intake pipe 56 for taking in air into the blower 27 is located at a rear central portion of the traveling vehicle body 51 so as to suck warm air heated by the engine 51f. By blowing the warm air into the fertilizer transfer pipes 24,..., The fertilizer attached to the inner wall surfaces of the fertilizer transfer pipes 24,.
[0016]
A herbicide spraying device 60 is also mounted on the rice transplanter 50. The herbicide spraying device 60 is provided with a herbicide tank 61 for storing a liquid herbicide at a central portion on the right and left sides located between the fertilizer storage portions 2, which are integrated into two right and left rows. The herbicide therein is guided through a flexible herbicide transfer pipe 62 to a spray nozzle 63 provided at the center of the rear left and right of the planting section 52. The spray nozzle 63 is attached to the nozzle attachment frame 64, and faces the field scene behind the seedling planting position. A replenishing lid 61a is attached to an upper part of the herbicide tank 61. An operation panel 65 is attached to the front surface of the herbicide tank 61, and the operation panel 65 is provided with a feed ON / OFF switch 65a and a spray amount adjustment dial 65b. As shown in FIG. 9, the herbicide in the herbicide tank 61 is intermittently fed to the herbicide transfer pipe 62, and the herbicide application amount is adjusted by changing the feeding time T. It has become.
[0017]
When the traveling body 51 is advanced by driving the planting section 52, the fertilizer application device 1, and the herbicide spraying device 60, the seedlings on the seedling mounting table 52a are planted by the seedling planting devices 52b,. The fertilizer in the fertilizer storage units 2, fed by the units 3, ... is sprayed through the fertilizer transfer pipes 24, ... from the fertilizer application guides 55, ... to the vicinity of the side of each planting strip, and the herbicide in the herbicide tank 61. The spraying agent is sprayed from the spraying nozzle 63 through the herbicide transfer pipe 62 to a spraying position located behind the left and right central portions of the machine.
[0018]
When the amount of the fertilizer or herbicide in the fertilizer storage units 2,... In the fertilizer or herbicide tank 61 runs out or becomes low, the lids 2a and 61a are opened to supply the fertilizer or the herbicide. Since the fertilizer storage units 2,... And the herbicide tank 61 are arranged behind the cockpit 51c with their front and rear positions aligned, the replenishment work can be easily performed from the floor step 51d. Further, since the replenishment work is easier on both sides than immediately behind the cockpit 51c, the fertilizer storage units 2,... Of the fertilizer with high consumption are provided on the left and right sides, and the herbicide of the herbicide with low consumption is provided. By providing the tank 61 at the center on the left and right, it is particularly easy to supply fertilizer that is frequently supplied.
[0019]
When the operation is completed, the fertilizer in the fertilizer storage units 2,... Is collected in order to prevent the fertilizer from solidifying in the fertilizer storage units 2,. At the time of collection, the collection lid 33 is opened, and the ventilation switching lever 37 is switched to the collection tube ventilation side. Then, the blower switching shutter 35 is switched, and the pressurized air from the blower 27 is blown into the collection pipe 31, and the collection shutters 32,. The fertilizer remaining in the fertilizer storage units 2,... Is dropped into the collection pipe 31, and the fertilizer is carried in the collection pipe 31 by pressurized air and discharged from the collection port. Since the collection shutters 32 are opened later than the start of the air blowing, the fertilizer dropped into the collection pipe 31 from the fertilizer storage units 2 is immediately conveyed by the pressurized air. For this reason, clogging of the fertilizer in the collection pipe 31 is prevented. When the collection shutters 32,... And the air-flow switching shutter 35 are operated at the same time, since the fertilizer that has dropped from the fertilizer storage units 2,. Fertilizer may not be transported properly, and the fertilizer may be clogged. Since windproof hoods 30a are provided at the lower ends of the fertilizer outlets 30,..., Pressurized air is blown into the fertilizer outlets 30,. There is no.
[0020]
FIG. 10 shows a different configuration for residual fertilizer recovery. The fertilizer applicator 1 'has a fertilizer storage section 2,... And a feeding section 3,... Which are rotatably provided around a rotation shaft 70, and a gear 71 attached to the rotation shaft 70; A gear 73 attached to a handle shaft 72 provided in parallel with the shaft 70 is engaged. By turning the handle 72a, the fertilizer storage units 2,... And the feeding units 3,... Are turned over as shown by a chain line in the figure, and the residual fertilizer in the fertilizer storage units 2,. The removed residual fertilizer is received by the collecting gutter 74 and collected at one end of the collecting gutter 74.
[0021]
【The invention's effect】
As described above, the particulate matter dispersing apparatus according to the present invention is configured such that the particulate matter remaining in the storage section taken out from the particulate matter outlet to the collection pipe is conveyed to the collection side of the collection pipe by pressurized air and collected. Since the particulate matter is taken out to the collection pipe after the start of the ventilation to the pipe, the clogging of the particulate matter in the collection pipe is prevented, and the particulate matter remaining in the storage unit can be reliably collected. Became.
[Brief description of the drawings]
FIG. 1 is a side sectional view of a fertilizer application apparatus.
FIG. 2 is a front view of the fertilizer application device.
FIG. 3 is a rear view of the fertilizer application device.
FIG. 4 is a front sectional view of a feeding portion.
FIG. 5 is a cross-sectional view showing a ventilation switching mechanism and a collection shutter opening / closing mechanism.
FIG. 6 is a diagram showing a transmission unit from a fertilizer drive shaft to a feed shaft.
FIG. 7 is a side view of a riding rice transplanter equipped with a fertilizer application device and a weeding and spraying device.
FIG. 8 is a plan view of a riding rice transplanter equipped with a fertilizer application device and a weeding and spraying device.
FIG. 9 is a diagram showing the timing of herbicide application.
FIG. 10 is a side view of a fertilizer applicator having a different configuration.
[Explanation of symbols]
1 Fertilizer application unit 2 Fertilizer storage unit (granular material storage unit)
3 Feeding part 5 Feeding roll 23 Connecting pipe 24 Transfer pipe 25 Air chamber 27 Blower 30 Fertilizer outlet (granular material outlet)
31 collection pipe 32 collection shutter 35 ventilation switching shutter 37 ventilation switching lever 50 riding rice transplanter 51 riding traveling vehicle body 53 planting section 60 herbicide spraying device 61 herbicide tank 62 herbicide transfer pipe 63 herbicide spray nozzle

Claims (1)

A granular material dispersing device having a configuration in which the granular material fed out from the granular material storage unit is transferred to a spraying port facing a spraying position of a field through a transfer tube, and pressurized air for transferring the granular material is sent into the transfer tube by a blower. A particulate matter outlet for taking out particulate matter remaining in the particulate matter storage part, a collection pipe for collecting the particulate matter taken out through the particulate matter outlet, and a collection shutter for opening and closing the particulate matter outlet. A blower switching shutter for switching the pressurized air from the blower to the recovery pipe; and switching the blower switching shutter to a side for feeding the pressurized air from the blower to the recovery pipe; And a shutter for interlocking both shutters so as to open.

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