JP2015116139A - Sulky paddy field implement - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate a change between specifications with accessory work of a sulky paddy field implement and specifications without the accessory work of it, without increasing costs on the sulky paddy field implement of the specifications without the accessory work.SOLUTION: A sulky paddy field implement comprises: a riding type traveling vehicle body; and a main working device for seeding or for planting seedlings and which is connected to the rear part of the traveling vehicle body through link mechanics. In the sulky paddy field implement, an accessory-work device B which provides fertilizer or agents is attachably/detachably provided. The accessory-work device B comprises: detectors E which detect abnormality of the accessory-work device B; and annunciators D which perform informing-operation on the basis of the abnormality detection of the detectors E.

Description

  The present invention relates to a riding paddy field working machine including a riding type traveling vehicle body and a main working device for seeding or seedling planting connected to a rear portion of the traveling vehicle body via a link mechanism.

  In the riding rice transplanter as an example of the riding paddy field machine as described above, for example, a fertilizer device (an example of an auxiliary work device) is provided at the rear part of the traveling vehicle body, and a hopper of the fertilizer device is provided on a meter panel provided in the traveling vehicle body. The fertilizer hopper has a “fertilizer run-out” lamp that displays a decrease in the amount of fertilizer stored in the tank, and a “clog” lamp that displays the occurrence of fertilizer clogging at each groover of the fertilizer application. Based on detection of the remaining fertilizer sensor and the clogging sensor provided in each grooving device, the second control device is configured to control the operation of the “fertilizer out” lamp and the “clogged” lamp. (See, for example, Patent Document 1).

JP 2000-253719 A (paragraph numbers 0015, 0020, 0022 to 0024, FIGS. 1 to 4)

  In the above configuration, when changing the specifications of the riding rice transplanter to the fertilization specification (specification with auxiliary work) and the specification without fertilization (specification without auxiliary work), in addition to attaching and detaching the fertilizer, the meter panel provided on the traveling vehicle body, There is a need to replace the fertilizer specifications with “out of fertilizer” and “clogged” lamps and the non-fertilized specifications without those lamps. For this reason, it takes time to change the specifications.

  In order to eliminate the need to replace the meter panel, it is conceivable to equip the meter panel with a “fertilizer out” lamp and a “clogged” lamp regardless of the fertilizer specification and the non-fertilizer specification. Will unnecessarily increase the cost of a non-fertilized passenger rice transplanter.

  An object of the present invention is to make it possible to easily change specifications between a specification with auxiliary work and a specification without auxiliary work for a riding paddy work machine without incurring an increase in the cost of the riding paddy work machine with a specification without auxiliary work. There is.

The problem solving means of the present invention is:
A riding-type traveling vehicle body, and a main working device for sowing or seedling planting connected to the rear portion of the traveling vehicle body via a link mechanism,
Auxiliary work device that supplies fertilizer or chemicals to the field is detachable,
The auxiliary work device includes a detector that detects an abnormality of the auxiliary work device, and a notification device that performs a notification operation based on detection of the abnormality of the detector.

  According to this means, in the case of changing the specification of the riding paddy field machine from the specification with auxiliary work to the specification without auxiliary work, the auxiliary working device is removed from the riding paddy field working machine, thereby detecting and detecting the auxiliary working device. Can also be removed from the riding paddy field machine.

  In addition, when changing the specification of the riding paddy field machine from the specification without assistance work to the specification with assistance work, the auxiliary work equipment detector and alarm can be used by attaching the auxiliary work equipment to the riding paddy field work machine. Can be attached to paddy field machine.

  Therefore, it is possible to easily change the specifications of the riding paddy field work machine with the auxiliary work specification and the non-auxiliary work specification without causing an increase in the cost of the riding paddy field work machine without the auxiliary work.

As one of the means for making the present invention more suitable,
The auxiliary work device includes a storage unit for storing fertilizer or medicine,
The storage unit includes a first remaining amount detector that detects that the remaining amount of stored fertilizer or medicine is lower than a first reference value, and the remaining amount of stored fertilizer or medicine is smaller than the first reference value. A second remaining amount detector for detecting that the value has fallen below the second reference value is provided as the detector.

  According to this means, it becomes easy to measure the timing of replenishment of the fertilizer or medicine to the storage part by performing the alarm regarding the remaining amount of the fertilizer or medicine stored in the storage part in two stages. Thereby, for example, efficient fertilizer supply or drug supply such as supplying fertilizer or chemicals at the timing of seed supply or seedling supply to the main working device can be systematically performed.

  Therefore, the work efficiency can be improved.

As one of the means for making the present invention more suitable,
The traveling vehicle body includes a blower that operates with power from an engine,
The auxiliary work device includes a supply path for supplying fertilizer or medicine to the field,
The supply path includes a connection port that can be connected to the exhaust port of the blower at a site on the upper side in the supply direction.

  According to this means, the air blown from the blower can be used as the fertilizer or medicine transporting air flowing in the supply path, whereby the fertilizer or medicine can be supplied smoothly in the field without any delay.

  In addition, supply failure caused by a decrease in the rotation speed of the blower due to insufficient battery power, or an increase in the size of the battery to prevent this supply failure, which occurs when the blower is operated with power from the battery, is avoided. can do.

  Therefore, it is possible to satisfactorily and reliably supply the fertilizer or the medicine in the field without causing an increase in the size of the battery.

As one of the means for making the present invention more suitable,
The blower is configured to suck in the heated air around the engine.

  According to this means, the dried temperature rising air around the engine can be used as a fertilizer or medicine conveying air. Thereby, the clogging of the fertilizer or the chemical | medical agent in the supply path | route resulting from moisture etc. can be prevented.

  In addition, stagnation of the heated air around the engine can be prevented, and cooling of the engine can be promoted.

  Accordingly, it is possible to better and reliably supply the fertilizer or the medicine in the field, and it is possible to improve the cooling efficiency of the engine.

As one of the means for making the present invention more suitable,
An operation detector that detects whether or not the main working device is in an operating state, a blower clutch that intermittently transmits power to the blower, and a blower operation control that switches the operating state of the blower clutch based on the output of the operation detector With
The blower operation control unit switches the blower clutch to a connected state when the operation detector detects an operation state of the main work device, and the blower operation control unit detects the stop state of the main work device when the operation detector detects a stop state of the main work device. The clutch is configured to be switched to the disconnected state.

  According to this means, the blower is activated when the main working device is operated, and the blower is stopped when the main working device is stopped.

  This allows the blower to maintain its operating state and carry it to the farm field during seed or seedling replenishment or fertilizer or chemical replenishment that is performed by temporarily switching the main work apparatus and auxiliary work apparatus to the stopped state during the work. This causes inconveniences such as the muddy water at the conveyance wind supply location diffuses and the mud surface of the field becomes rough, or the fertilization or medicine applied just before the work stoppage is uneven. Fear can be avoided.

  Therefore, work accuracy can be improved.

As one of the means for making the present invention more suitable,
The main work device is configured as an engine drive type that operates with power from the engine,
A work clutch for intermittently transmitting power to the main work device;
The blower is configured to be operated by power extracted from a transmission section extending between the work clutch and the main work device.

  According to this means, an operation detector that detects whether or not the main working device is in an operating state, a blower clutch that intermittently transmits power to the blower, and a blower operation control unit that switches the operating state of the blower clutch based on the output of the operation detector Without the above, the blower can be operated when the main working device is operated, and the blower can be stopped when the main working device is stopped.

  This allows the blower to maintain its operating state and carry it to the farm field during seed or seedling replenishment or fertilizer or chemical replenishment that is performed by temporarily switching the main work apparatus and auxiliary work apparatus to the stopped state during the work. This causes inconveniences such as the muddy water at the conveyance wind supply location diffuses and the mud surface of the field becomes rough, or the fertilization or medicine applied just before the work stoppage is uneven. Fear can be avoided.

  Accordingly, it is possible to improve work accuracy while simplifying the configuration.

It is a left view of the riding rice transplanter comprised to the midmount fertilization specification. It is a top view of the riding rice transplanter comprised to the mid-mount fertilization specification. It is a top view of the principal part of the riding rice transplanter which shows the 2nd state of a preliminary seedling placement apparatus figure. It is a transmission system figure which shows schematic structure of the driving | running | working transmission system in a passenger rice transplanter. It is a transmission system figure which shows schematic structure of the work transmission system in a riding rice transplanter. It is a vertical rear view of the principal part which shows the fertilizer applicator and the drive structure of a blower. It is a vertical front view of the principal part which shows the residual fertilizer extraction structure of a fertilizer application apparatus. It is a vertical left view of the principal part which shows the structure of a fertilizer application apparatus. It is a block diagram which shows the control structure of the principal part in a riding rice transplanter. It is a block diagram which shows another embodiment regarding the drive of a blower.

  Hereinafter, as an example of an embodiment for carrying out the present invention, an embodiment in which the present invention is applied to a riding rice transplanter that is an example of a riding paddy working machine will be described with reference to the drawings.

  As shown in FIGS. 1 to 3, the riding rice transplanter exemplified in the present embodiment includes a lifting cylinder 2 that employs a single-acting hydraulic cylinder at the rear part of a traveling vehicle body 1 configured in a riding type four-wheel drive type. A seedling planting device 4 is connected as a main work device A so as to be movable up and down through a vertically swinging link mechanism 3 that swings up and down by operation. And the specification is changed from the non-fertilization specification to the mid-mount fertilization specification by detachably installing the mid-mount fertilizer 5 as the auxiliary work device B across the rear part of the traveling vehicle body 1 and the seedling planting device 4. . Further, a spare seedling placement device 7 for placing the four mat-like seedlings as spare seedlings together with the seedling box 6 is provided at each of the left and right side end portions in the front portion of the traveling vehicle body 1.

  As shown in FIGS. 1, 4 and 5, the traveling vehicle body 1 is provided with an air-cooled engine 8 and a transmission case (hereinafter referred to as a T / M case) 9 on the front side thereof. In addition, a rear axle case 10 and a boarding operation unit 11 are provided on the rear side. The power from the engine 8 is transmitted to the front wheels via a hydrostatic continuously variable transmission (hereinafter referred to as HST) 12 provided as a main transmission, and a gear transmission 13 provided as an auxiliary transmission. Is transmitted to the front differential wheel 14, and the power extracted from the left and right differential shafts 15 is transmitted to the left and right front wheels 16 for driving the front wheels. Further, the power taken out from the differential case 17 in the front wheel differential device 14 is used for driving the rear wheels, the first transmission shaft 18 facing forward, the second transmission shaft 19 facing left and right, the left and right side clutches 20, and The transmission is transmitted to the left and right rear wheels 22 via the left and right gear-type reduction gears 21. On the other hand, the power after shifting by the HST 12 covers the one-way clutch 23, the inter-strain transmission 24, the electric planting clutch 25 provided as the working clutch, and the planting clutch 25 and the seedling planting device 4 for work. This is transmitted to the seedling planting device 4 via the transmission unit 26 and the like.

  The T / M case 9 is equipped with an HST 12 on the left side. In addition, a gear transmission 13, a front wheel differential 14, a one-way clutch 23, a stock transmission 24, a planting clutch 25, and the like are provided therein. The rear axle case 10 incorporates a second transmission shaft 19, left and right side clutches 20, left and right gear-type reduction gears 21, and the like.

  As shown in FIGS. 1 to 3, the boarding operation unit 11 includes a display panel 27 that displays an engine speed, a steering wheel 28 for front wheel steering, a main shift lever 29 that enables a shift operation of the HST 12, a gear-type shift. A sub-transmission lever 30 that enables the gear shift operation of the device 13, a first work lever 31 and a second work lever 32 that enable the raising / lowering operation and switching of the operation state of the seedling planting device 4, and the position in the front-rear direction An adjustable driver's seat 33 is provided. A blower 35 that sucks the heated air around the engine through the intake duct 34 is provided at a position below the driver seat 33. Thereby, engine cooling performance can be improved.

  Although not shown in the drawings, the first work lever 31 is swingable that can hold the position at each operation position while being able to swing to the respective operation positions of planting, lowering, neutral, rising, and automatic. It is configured as an expression position holding type. The second work lever 32 is configured as a swinging neutral return type that can swing to an upper position above the neutral position and a lower position below the neutral position.

  As shown in FIGS. 5 and 6, the blower 35 is configured as an engine drive type that operates with power from the engine 8 taken out from the transmission unit 26 described above. Specifically, the front and rear working transmission shaft 36 in the transmission section 26 is linked and connected via a bevel gear type blower power branching device 37 and a belt type blower transmission device 38. Thereby, the enlargement of a battery which arises when an electric blower with large power consumption is employ | adopted can be avoided. Further, the blower 35 is configured to be switched between the operating state and the stopped state in conjunction with the switching between the operating state and the stopped state of the seedling planting device 4 by the intermittent operation of the planting clutch 25.

  As shown in FIGS. 1 to 3, the left and right spare seedling placement devices 7 are each provided with a single inner spare seedling stand 40 and three outer spare seedlings on a support frame 39 erected on the front portion of the traveling vehicle body 1. The base 41 is provided. In each of the spare seedling placement devices 7, the inner spare seedling stand 40 is configured to be switchable between a placement posture that protrudes from the support frame 39 to the inside of the vehicle body and an upward retracted posture along the support frame 39. . The three outer spare seedling stands 41 are configured to be switchable between a first state in which they are arranged in the vertical direction with a predetermined interval and a second state in which they are arranged in a series in the front-rear direction.

  As shown in FIGS. 1 and 2, the seedling planting device 4 includes a seedling stage 42 on which eight mat-like seedlings are placed, and a lateral feed mechanism that reciprocates the seedling stage 42 in the left-right direction with a constant stroke. (Not shown), a belt-type vertical feed mechanism that feeds each mat-like seedling on the seedling stage vertically to the lower end of the seedling stage 42 at a predetermined pitch every time the seedling stage 42 reaches the left and right stroke ends. 43, 8 rotary-type planting mechanisms 44 for cutting a predetermined amount of seedlings from the lower end of each mat-shaped seedling placed on the seedling stage 42 and planting them in the mud portion of the field, and planting seedlings when working It includes five leveling floats 45 for leveling the field mud surface such as a part, and the like, and is configured for 8 rows for planting a maximum of 8 seedlings. And it is comprised by the engine drive type which act | operates with the motive power from the engine 8 interrupted by the action | operation of the planting clutch 25. As shown in FIG.

  As shown in FIGS. 1-3 and FIGS. 6-8, the fertilizer applying apparatus 5 respond | corresponds with the supply part 46 which stores a granular fertilizer, and the four delivery parts 47 which intermittently deliver a predetermined amount of fertilizer from the storage part 46 Eight fertilizer hoses 48 for guiding the fertilizer fed by the feeding section 47 and eight grooving devices 49 for supplying the fertilizer guided by the corresponding fertilizer hose 48 to the field, etc. It is configured for Article 8 to be performed. And it is comprised in the engine drive type which each delivery part 47 act | operates with the motive power from the engine 8 taken out from the 1st transmission shaft 18 mentioned above. Specifically, the bevel gear fertilization power branching device 50, the electric fertilization clutch 51 that is detachably linked to the fertilization power branching device 50, and the rod-linked fertilizer for fertilization are provided. The first transmission shaft 18 is linked and connected via a transmission device 52 and the like.

  The storage unit 46 includes a hopper 53 having a supply port at the upper end, a vertically swinging lid 54 that opens and closes the supply port of the hopper 53 by swinging up and down with the rear side as a fulcrum. The hopper 53 is formed with four funnel portions 53A for guiding the stored fertilizer to the corresponding feeding portions 47 in a state where the funnel portions 53A are continuously arranged in the left-right direction at the lower portion. And the lower end part of those funnel parts 53A is connected to the upper end part of the corresponding feeding part 47. The lid body 54 is formed so as to have an upper surface 54A on which a plurality of seedling boxes 6 containing preliminary seedlings can be placed in a horizontal orientation in which the longitudinal direction of the seedling boxes 6 is horizontal. doing. A plurality of reinforcing ribs 54B that protrude in a state that prevents the seedling box 6 from falling off are formed on the outer edge portion of the upper surface 54A. As a result, the lid 54 is reinforced so that a plurality of seedling boxes 6 containing preliminary seedlings can be placed, while the lid 54 of the seedling box 6 is caused by vibration of the machine body. Can be prevented from falling off. In other words, the lid 54 of the storage unit 46 can be suitably functioned as a spare seedling stand, thereby increasing the number of spare seedlings placed on the machine body without causing inconveniences such as a reduced boarding area. It can be done well.

  Each feeding portion 47 is configured for two strips capable of feeding a maximum of two portions of fertilizer, and is attached to a fertilizing frame 55 that is detachably bolted to the rear portion of the traveling vehicle body 1. In addition, two fertilizer outlets 47A arranged on the left and right sides for removing fertilizer are provided on the rear surfaces of the lower end portions thereof. And the fertilizer hose 48 corresponding to each fertilizer extraction outlet 47A is connected.

  Each grooving device 49 is formed in a U-shape in plan view with the rear opened, and is detachably attached to a predetermined position of the corresponding leveling float 45. And, when working, it is configured to groat a planned fertilization site that is a predetermined distance in the lateral direction from the corresponding planting planting site on the field mud surface after leveling, and to supply fertilizer into the groove Yes.

  That is, in this fertilizer application device 5, a supply path C for supplying the fertilizer fed by each feeding portion 47 to the field is formed by the lower end portion of each feeding portion 47, each fertilizer hose 48, and each grooving device 49. ing. A connection port 47 </ b> B that enables connection to the exhaust port 35 </ b> A of the blower 35 is provided in front of the lower end portion of each feeding portion 47 that is the upper side portion in the supply direction of the supply path C.

  From the above configuration, the fertilizer applying device 5 has the fertilizer frame 55 bolted to the rear portion of the traveling vehicle body 1, each grooving device 49 is attached to a predetermined position of the corresponding leveling float 45, and the fertilizer clutch 51 is connected to the fertilizer power branch. By interlocking connection with the device 50, it is possible to equip the rear portion of the traveling vehicle body 1 and the seedling planting device 4. Then, by connecting the exhaust port 35A of the blower 35 and the connection port 47B of each feeding portion 47 via the exhaust duct 56 extending from the exhaust port 35A of the blower 35 to the connection port 47B of each feeding portion 47, the exhaust of the blower 35 is exhausted. Dry heated air discharged from the mouth 35A can be effectively used as a fertilizer conveying air. As a result, it is possible to smoothly supply the fertilizer fed by each feeding unit 47 to the field, and to effectively suppress the occurrence of fertilizer clogging in each fertilizer hose and each grooving device.

  As shown in FIG. 9, the traveling vehicle body 1 has an electronic control unit (hereinafter referred to as an ECU) 57 configured using a microcomputer including a CPU, an EEPROM, and the like below the driver's seat 33. Yes. The ECU 57 includes an elevation control unit 57A that controls the raising and lowering of the seedling planting device 4, an operation control unit 57B that controls the operation of the seedling planting device 4, and the like. And it is comprised so that it may operate | move with the electric power from the battery (not shown) mounted in the traveling vehicle body 1. FIG.

  The lift control unit 57A outputs the first position detector 58 that detects the operation position of the first work lever 31, the output of the second position detector 59 that detects the operation position of the second work lever 32, and the leveling at the center of the left and right. The output of the first angle detector 60 that detects the vertical swing angle of the float (hereinafter referred to as the center float) 44 as the ground height of the seedling planting device 4 and the vertical swing angle of the link mechanism 3 are set as the seedling planting. By controlling the operation of the lift valve 62 composed of an electromagnetic control valve that switches the operation state of the lift cylinder 2 based on the output of the second angle detector 61 detected as the height of the attachment device 4 with respect to the vehicle body, etc. It is comprised so that raising / lowering of the planting apparatus 4 may be controlled.

  Specifically, when an operation to the raised position of the first work lever 31 is detected based on the output of the first position detector 58, the lift valve 62 is moved to the lift cylinder 2 while the operation is detected. Ascending control for raising the seedling planting device 4 is performed by switching to a supply state for supplying oil and operating the lifting cylinder 2 to contract. When the operation of the first work lever 31 to the lowered position is detected based on the output of the first position detector 58, the lift valve 62 is discharged to discharge oil from the lift cylinder 2 while the operation is detected. The lowering control for lowering the seedling planting device 4 is performed by switching to the state and operating the elevating cylinder 2 to extend. When the operation to the neutral position of the first work lever 31 is detected based on the output of the first position detector 58, the lift valve 62 is switched to a supply / discharge stop state in which oil supply / discharge to the lift cylinder 2 is stopped. The raising / lowering stop control which stops the seedling planting apparatus 4 in the height position at that time by stopping the action | operation of the raising / lowering cylinder 2 is performed.

  That is, the seedling planting device 4 can be moved up and down to an arbitrary height position by the control operation of the lifting control unit 57A based on the output of the first position detector 58.

  Further, when the lifting control unit 57A detects the operation of the first work lever 31 to the automatic position based on the output of the first position detector 58, the second position detector while detecting the operation. The operation of the lift valve 62 is controlled based on the output of 59 and the like.

  For example, when the operation of the lower position of the second working lever 32 is detected based on the output of the second position detector 59, the center float 41 is grounded and the output of the first angle detector 60 is set in advance. Until the state in which the control target angle of the float 41 coincides (the output of the first angle detector 60 falls within the dead zone width of the control target angle) is obtained, the lift valve 62 is switched to the discharge state and the lift cylinder 2 is moved. The seedling planting device 4 is lowered by the extension operation, and as the output of the first angle detector 60 coincides with the control target angle by this lowering, the raising / lowering valve 62 is switched to the supply / discharge stop state to raise / lower the cylinder. By stopping the extension operation 2, automatic lowering control is performed in which the seedling planting device 4 is automatically stopped at a predetermined ground contact height position (working height position) corresponding to the control target angle. Thereafter, the operation of the elevating valve 62 is controlled to switch the operating state of the elevating cylinder 2 so that the output of the first angle detector 60 matches the control target angle. Regardless of the pitching of the traveling vehicle body 1 due to the above, automatic raising / lowering control for automatically raising and lowering the seedling planting device 4 in a state in which the seedling planting device 4 maintains a predetermined ground contact height position is performed. And when operation to the upper position of the 2nd operation lever 32 is detected based on the output of the 2nd position detector 59, the output of the 2nd angle detector 61 becomes the control upper limit angle of the link mechanism 3 set beforehand. Until the state of coincidence (the output of the second angle detector 61 falls within the dead zone width of the control upper limit angle) is obtained, the raising / lowering valve 62 is switched to the supply state and the raising / lowering cylinder 2 is contracted to perform seedling planting As the output of the second angle detector 61 coincides with the control upper limit angle due to the ascending operation of the attaching device 4, the lifting valve 62 is switched to the supply / discharge stop state to stop the contracting operation of the lifting cylinder 2. Thus, automatic raising control is performed to automatically stop the seedling planting device 4 at a predetermined upper limit position corresponding to the control upper limit angle.

  That is, by the control operation of the lifting control unit 57A based on the output of the second position detector 59, the seedling planting device 4 is automatically moved up and down to a predetermined ground contact height position or a predetermined upper limit position, and their heights are increased. It is configured so that it can be maintained in the vertical position.

  The control target angle of the center float 41 can be set and changed to an arbitrary angle by operating the float angle setting unit 63 provided in the boarding operation unit 11.

  Based on the output of the first position detector 58, the output of the second position detector 59, the output of the first angle detector 60, and the like, the operation control unit 57B The operation of the seedling planting device 4 is controlled by controlling the operation.

  Specifically, when the operation of the first working lever 31 to the planting position is detected based on the output of the first position detector 58, the planting clutch 25 is switched from the disengaged state to the on state, and seedling planting is performed. The planting start control which switches the apparatus 4 from a stop state to an operation state is performed. Thereafter, when the operation of the first working lever 31 from the planting position to the lowered position is detected based on the output of the first position detector 58, the planting clutch 25 is switched from the on state to the off state to plant seedlings. The planting stop control which switches the apparatus 4 from an operation state to a stop state is performed.

  Further, when the operation control unit 57B detects the operation of the first work lever 31 to the automatic position based on the output of the first position detector 58, the operation control unit 57B described above based on the output of the second position detector 59 and the like. Planting start control and planting stop control are performed.

  For example, in a state where the arrival of the seedling planting device 4 to a predetermined ground contact height position is detected based on the outputs of the float angle setter 63 and the first angle detector 60 (execution state of automatic lifting control), When the operation to the lower position of the second work lever 32 is detected based on the output of the second position detector 59, the detection detects that the seedling planting device 4 has reached the predetermined ground contact height position. If it is an odd-numbered detection, the above-described planting start control is performed, and if it is an even-numbered detection, the above-described planting stop control is performed.

  As described above, the blower 35 is switched between the operating state and the stopped state in conjunction with the switching between the operating state and the stopped state of the seedling planting device 4 by the intermittent operation of the planting clutch 25. As a result, the blower 35 is switched from the stopped state to the activated state as the seedling planting device 4 is switched from the stopped state to the activated state by the planting start control, and the operation of the seedling planting device 4 is controlled by the planting stop control. With the switching from the state to the stopped state, the blower 35 is switched from the operating state to the stopped state.

  As shown in FIGS. 1, 6 and 9, the fertilizer application device 5 is an electronic control unit for a fertilizer application (hereinafter referred to as “fertilizer application device”) configured using a microcomputer having a CPU, EEPROM, etc. on the front surface of the reservoir 46. (Referred to as a fertilizer application ECU) 64, and a notification unit 65 including various notification devices D that notify abnormality in the fertilizer application device 5. Further, as a detector E for detecting an abnormality of the fertilizer application device 5 in each funnel portion 53A of the hopper 53 of the storage section 46, a first detection is made that the remaining amount of stored fertilizer is below the first reference value. The first remaining amount detector 66 and a second remaining amount detector 67 that detects that the remaining amount of the fertilizer stored is below a second reference value that is smaller than the first reference value. Further, a clogging detector 68 for detecting occurrence of clogging of fertilizer in the corresponding grooving device is provided in each grooving device 49 as a detector E for detecting an abnormality of the fertilizer application device 5.

  The fertilizer application ECU 64 includes a fertilizer operation control unit 64A that controls the operation of the fertilizer application device 5, a notification operation control unit 64B that controls the operation of the notification unit 65, and the like. And it connects to ECU57 via the coupler 69 etc. so that mutual communication with ECU57 of the traveling vehicle body 1 by in-vehicle communication, such as CAN communication, is attained. On the other hand, the notification unit 65 serves as a notification device D for reporting an abnormality in the fertilizer application device 5, and indicates the positions of the remaining amount alarm buzzer 70 and the clogging alarm buzzer 71 having different timbres, and the clogging device 49 where clogging has occurred. A liquid crystal panel 72 for notification is provided.

  The fertilizer application control unit 64 </ b> A is based on the output of the first position detector 58, the output of the second position detector 59, the output of the first angle detector 60, and the like. The operation of the fertilizer application device 5 is controlled by controlling the operation.

  Specifically, when an operation to the planting position of the first work lever 31 is detected based on the output of the first position detector 58, the fertilizer application device 5 is switched by switching the fertilizer clutch 51 from the disengaged state to the engaged state. Fertilization start control to switch from the stopped state to the activated state is performed. Then, when the operation from the planting position to the lowered position of the first work lever 31 is detected based on the output of the first position detector 58, the fertilizer application device 5 is switched by switching the fertilizer clutch 51 from the on state to the cut state. Fertilization stop control to switch from the operating state to the stopped state is performed.

  Then, when the fertilization operation control unit 64 </ b> A detects an operation of the first work lever 31 to the automatic position based on the output of the first position detector 58, the fertilization operation control unit 64 </ b> A is based on the output of the second position detector 59. The applied fertilizer start control and fertilizer stop control are performed.

  For example, in a state where the arrival of the seedling planting device 4 to a predetermined ground contact height position is detected based on the outputs of the float angle setter 63 and the first angle detector 60 (execution state of automatic lifting control), When the operation to the lower position of the second work lever 32 is detected based on the output of the second position detector 59, the detection detects that the seedling planting device 4 has reached the predetermined ground contact height position. If the detection is an odd number, the above-described fertilization start control is performed. If the detection is an even number, the above-described fertilization stop control is performed.

  The notification operation control unit 64B detects an abnormality in the fertilizer application 5 based on the output of each first remaining amount detector 66, the output of each second remaining amount detector 67, and the output of each clogging detector 68. In this case, the notification unit 65 is configured to notify the abnormality of the fertilizer application device 5 by performing a notification operation.

  Specifically, when it is detected that the remaining amount of fertilizer in the storage unit 46 is lower than the first reference value based on the output of one of the first remaining amount detectors 66, a remaining amount alarm buzzer The first replenishment alarm issuing control for notifying that the remaining amount of fertilizer in the storage unit 46 has fallen below the first reference value is performed by operating 70 intermittently. Thereby, replenishment of the fertilizer to the storage part 46 can be promoted. Thereafter, based on the output of each first remaining amount detector 66, when it is detected that the fertilizer remaining amount in the storage unit 46 does not fall below the first reference value, the remaining amount alarm buzzer 70 is intermittently operated. The first replenishment alarm canceling control for stopping is performed. Conversely, if it is detected that the remaining amount of fertilizer in the storage unit 46 is below the second reference value based on the output of any of the second remaining amount detectors 67, the remaining amount alarm buzzer 70 is turned off. By continuously operating, the second replenishment alarm issuing control for notifying that the fertilizer remaining amount in the storage unit 46 has fallen below the second reference value is performed. Thereby, immediate fertilizer replenishment to the storage part 46 can be promoted. Thereafter, when it is detected based on the output of each second remaining amount detector 67 that the fertilizer remaining amount in the storage unit 46 does not fall below the second reference value, the remaining amount alarm buzzer 70 is continuously operated. The second replenishment alarm canceling control for switching from the intermittent operation to the intermittent operation is performed, and further, based on the output of each first remaining amount detector 66, it is detected that the fertilizer remaining amount in the storage unit 46 is not lower than the first reference value. If this is the case, the first replenishment alarm release control described above is performed.

  On the other hand, if the occurrence of fertilizer clogging is detected in any of the grooving devices based on the output of each clogging detector 68, the clogging alarm buzzer 71 is activated to activate the clogging device. The clogging alarm issuing control for notifying that the fertilizer clogging has occurred and notifying the position of the grooving device 49 where the fertilizer clogging has occurred is performed by the liquid crystal panel 72. Thereby, removal of the clogging fertilizer from the grooving device 49 in which clogging has occurred can be promoted. Thereafter, based on the output of each clogging detector 68, when the occurrence of clogging of fertilizer in each grooving device is no longer detected, the operation of the clogging alarm buzzer 71 is stopped and a notification is given by the liquid crystal panel 72. Perform clogging alarm release control that ends.

  In other words, the fertilizer application device 5 is provided over the rear portion of the traveling vehicle body 1 and the seedling planting device 4 and then connected to the ECU 57 of the traveling vehicle body 1 via the coupler 69 so that the fertilizer application ECU 64 is communicable. The fertilization operation control unit 64A of the ECU 64 includes the output of the first position detector 58 and the output of the second position detector 59 provided in the traveling vehicle body 1, and the output of the first angle detector 60 provided in the seedling planting device 4. The fertilization start control and the fertilization stop control for controlling the operation of the fertilization clutch 51 based on the output and the like can be performed.

  In addition, the notification operation control unit 64B of the fertilizer application ECU 64 is connected to the ECU 57 regardless of the connection with the ECU 57, the first replenishment alarm issuing control, the first replenishment alarm canceling control, the second replenishing alarm issuing control regarding the fertilizer remaining amount in the storage unit 46, The second replenishment alarm canceling control and the clogging alarm issuing control and the clogging alarm canceling control related to the fertilizer clogging in each grooving device 49 can be performed independently.

  With the above configuration, this mid-mount fertilizer-specific passenger rice transplanter releases the connection between the ECU 57 of the traveling vehicle body 1 and the fertilizer ECU 64 of the fertilizer application device 5 via the coupler 69, and each feeding portion is provided from the exhaust port 35 </ b> A of the blower 35. 47, the exhaust duct 56 over the connection port 47B is removed, the fertilizer clutch 51 is removed from the fertilizer power branching device 50, each grooving device 49 is removed from the predetermined position of the corresponding leveling float 45, and the rear part of the traveling vehicle body 1 and the fertilizer frame 55 are removed. The fertilizer application device 5 can be easily removed and the specification can be easily changed to the specification without fertilization.

  That is, in this riding rice transplanter, the four first remaining amount detectors 66, four as the detector E for detecting an abnormality of the fertilizing device 5 are added to the fertilizing device 5 configured to be detachable from the riding rice transplanter. A second remaining amount detector 67 and eight clogging detectors 68 are provided, and a remaining amount alarm buzzer 70, a clogging alarm buzzer 71, and a liquid crystal are used as a notification device D for notifying an abnormality in the fertilizer application device 5. By providing the panel 72 and the fertilizer ECU 64 that controls the operation thereof, the riding rice transplanter is provided with a fertilizer alarm D and the like as standard equipment, and the cost of the passenger rice transplanter is not increased. On the other hand, it is possible to change the specification of the riding rice transplanter between the specification without fertilization and the specification with mid-mount fertilization without requiring the trouble of individually attaching and removing the indicator D for fertilization.

  Further, when the riding body transplanter is to be changed to the mid-mount fertilizer specification by installing the engine-driven blower 35 for engine cooling in the traveling vehicle body 1 as described above, as described above, the blower 35 for engine cooling is used. Can also be used for fertilization. As a result, when changing the specifications of the riding rice transplanter between the non-fertilizer specification and the mid-mount fertilizer specification, it is possible to save the trouble of attaching / detaching the dedicated fertilizer blower, and the traveling vehicle body 1 according to the presence / absence of the fertilizer dedicated blower. It is possible to eliminate the need to change the model of the engine 8 mounted on the vehicle.

  And when switching to the operation state of the seedling planting device 4 and the fertilizer application device 5 based on the operation of the first operation lever 31 or the second operation lever 32 is performed, the blower 35 is also switched to the operation state, The cooling exhaust air from the blower 35 can be effectively used as the conveying air for fertilization, and the fertilizer can be supplied smoothly to the field. In addition, when the seedling planting device 4 and the fertilizer application device 5 are switched to the stopped state based on the operation of the first working lever 31 or the second working lever 32, the blower 35 is also switched to the stopped state. During seedling replenishment work or fertilizer replenishment work that is performed by temporarily switching the seedling planting device 4 and the fertilizer application device 5 to the stop state during the work, the blower 35 maintains the operating state and supplies the conveyance wind to the field. Due to the continuous operation, it is possible to avoid the possibility of inconveniences such as the muddy water in the field blowing up from each grooving device 49 or the occurrence of uneven fertilization.

  As shown in FIGS. 1 to 3, the fertilizer application device 5 can store the empty seedling box 6 in a standing posture on the upper surface 54 </ b> A of the lid body 54 in the storage unit 46 after the preliminary seedling is taken out. A foldable seedling box 73 is placed.

  Thereby, for example, the left and right spare seedling placement devices 7 are switched to the second state in which the three outer spare seedling stands 41 are connected in the front-rear direction, and a plurality of seedling boxes are placed on the outer spare seedling stands 41. When 6 is placed in a state where it can be pulled and moved toward the seedling replenishment position at the rear of the vehicle body, an empty seedling box after the spare seedlings have been replenished to the seedling mount 42 of the seedling planting device 4 6 is placed in the seedling box holder 73 on the storage unit, so that it does not obstruct the seedling replenishment work without the need to carry the empty seedling box 6 to the front end side of the spare seedling placement device 7 in the second state. Can be stored in position. As a result, the seedling replenishment work for the seedling mount 42 of the seedling planting device 4 can be performed efficiently.

  In addition, when the seedling box holder 73 is not used, the seedling box holder 73 can be folded to reduce the area required for storing the seedling box holder 73, and the seedling replenishing operation can be performed. In this case, the seedling box holder 73 can be made difficult to get in the way.

  As shown in FIGS. 1, 7, and 8, the fertilizer application device 5 is provided with a residual fertilizer removal outlet 47 </ b> C that enables the fertilizer remaining in the storage unit 46 to be taken out in front of the upper side of each feeding unit 47. Yes. Each feeding portion 47 is provided with a swinging opening / closing body 74 that switches the residual fertilizer outlet 47C between a closed state and an open state. The left fertilizer guide hose 75 connected to the remaining fertilizer removal outlet 47C provided in the two left feeding parts 47 and the right remaining residue connected to the remaining fertilizer removal outlet 47C provided in the two right delivery parts 47 A fertilizer guide hose 75 is provided.

  The left residual fertilizer guide hose 75 is formed in a Y shape that joins the fertilizers flowing out from the residual fertilizer outlet 47 </ b> C of the two corresponding feeding portions 47 and guides them to the left outer side of the traveling vehicle body 1. Further, the remaining fertilizer guide hose 75 on the right side is formed in a Y shape that joins the fertilizers flowing out from the remaining fertilizer outlet 47C of the corresponding two feeding portions 47 and guides them to the right outside of the traveling vehicle body 1. .

  Each of the left and right residual fertilizer guide hoses 75 is configured in a bellows shape that enables the length adjustment thereof. In addition, an opening / closing member 76 is provided for opening and closing the discharge ports located at the guiding ends. Each opening / closing member 76 is an engagement portion that enables position holding at a predetermined position by engagement with a holding tool 78 provided at a rear end portion of an auxiliary step 77 located at both left and right end portions of the traveling vehicle body 1. A joint hole 76A is provided.

  When the residual fertilizer is not taken out from the above configuration, the outlets of the respective residual fertilizer guide hoses 75 are closed by the left and right opening / closing members 76, and the engaging holes 76A of these opening / closing members 76 are corresponding holders. 78, by engaging the guide end portions of the left and right residual fertilizer guide hoses 75 with the discharge ports closed by engaging with each other, the vicinity of the rear end portion of the auxiliary step 77 located in the middle of the separation distance between the front wheel 16 and the rear wheel 22 The position can be held at a place (the predetermined position described above). Thereby, the muddy water splashed up by the front wheel 16 or the rear wheel 22 adheres to the guide end portions of the left and right residual fertilizer guide hoses 75 or enters from the discharge port of each residual fertilizer guide hose 75. Occurrence can be suppressed.

  On the other hand, when the residual fertilizer is taken out, it is used by releasing the engagement between the engagement hole 76A of the opening / closing member 76 and the holder 78 that closes the discharge port of the residual fertilizer guide hose 75 to be used. The discharge port of the residual fertilizer guide hose 75 to be moved can be moved to a residual fertilizer collection point such as a fertilizer bag or a collection container. Then, the opening / closing body 74 provided in the two left-hand feeding parts 47 or the two right-hand feeding parts 47 used for taking out the residual fertilizer is opened, and the discharge port of the residual fertilizer guide hose 75 used is opened by the opening / closing member 76. Thus, the remaining fertilizers for the four strips can be taken out at once from the remaining fertilizer outlets 47C of the two left-hand feeding parts 47 or the two right-hand feeding parts 47, and can be collected at the residual fertilizer collecting points. Thereby, it is possible to efficiently extract and collect the fertilizer remaining in the storage unit 46.

  [Another embodiment]

[1] The riding paddy field working machine may be a riding direct seeding machine equipped with a direct sowing device as the main working device A for sowing.

[2] The riding paddy field machine may be detachably provided with a fertilizer application device that supplies powdered or liquid fertilizer to the field as the auxiliary work device B. Moreover, you may detachably equip | install with the prescription apparatus which supplies a powdery, granular, or liquid chemical | medical agent to a farm field. Furthermore, you may equip both a fertilizer and a medicine application device so that attachment or detachment is possible.

[3] The number of working strips of the main working device A and the auxiliary working device B can be variously changed. For example, the main working device A and the auxiliary working device B may be configured for 6 or 10 strips. Good.

[4] The auxiliary work device B is a mid-mounting medicine application device configured to be detachable between the rear portion of the traveling vehicle body 1 and the main work device A, or a rear-mount type fertilizer configured to be detachable from the main work device A. It may be a device or a medication device.

[5] The auxiliary work device B may be provided with a blower dedicated to fertilization or medication.

[6] The auxiliary work device B is configured to include a relay circuit for informing the alarm device D based on the abnormality detection of the detector E that detects the abnormality of the auxiliary work device B, instead of the fertilizer application ECU 64. It may be.

[7] The auxiliary work device B may be configured to include a plurality of storage units 46.

[8] The storage part 46 of the auxiliary work device B may be formed by dividing a plurality of storage parts therein.

[9] The detector E included in the auxiliary work device B includes a first medicine remaining amount detector for detecting that the remaining amount of the medicine stored in the storage section 46 is lower than the first reference value, and the storage section 46. A second remaining amount detector for the drug that detects that the remaining amount of the stored fertilizer falls below a second reference value that is smaller than the first reference value; It may be a remaining amount detector that detects that the amount of the fertilizer has fallen below, a clogging detector that detects occurrence of clogging of the fertilizer in the fertilizer hose, or a downflow detector that detects the downflow of the fertilizer or medicine.

[10] The alarm device D provided in the auxiliary work device B has a plurality of sound generators that notify the occurrence of an abnormality in the auxiliary work device and the location where the abnormality has occurred by voice, and a plurality of indicators that notify the abnormality occurrence location in the auxiliary work device by lighting. It may be an alarm lamp, or a plurality of alarm lamps that notify the occurrence of an abnormality in the auxiliary work device and the location of the abnormality by lighting.

[11] The traveling vehicle body 1 may be configured such that the engine 8 and the blower 35 for sucking the heated air around the engine are arranged side by side below the driver seat 33.

[12] The traveling vehicle body 1 may be equipped with an auxiliary clutch (fertilization clutch 51) as a standard feature that intermittently transmits power to the auxiliary work device B (fertilization device 5).
In this configuration, when the auxiliary work device B is configured to be detachable, for example, an auxiliary work transmission device (fertilizing transmission device 52) extending from the auxiliary work device B to the auxiliary clutch is configured to be detachable from the auxiliary clutch. It is possible to do.

[13] As shown in FIG. 10, the traveling vehicle body 1 may be configured to include an electric blower clutch 80 for intermittently transmitting power from the engine 8 to the blower 35.
In this configuration, for example, as shown in the figure, the traveling vehicle body 1 is provided with an operation detector F that detects whether or not the main work device A is in an activated state, and the traveling vehicle body 1 includes an ECU 57. In addition, a blower operation control unit 57C that switches the operation state of the blower clutch 80 based on the output of the operation detector 81 is mounted, and the blower operation control unit 57C detects the operation state of the main work device A. Then, it can be considered that the blower clutch 80 is switched to the connected state, and when the operation detector 81 detects the stop state of the main work device A, the blower clutch 80 is switched to the disconnected state.
The operation detector F in this configuration includes, for example, a first position detector 58 that detects the operation position of the first work lever 31 and a second position detector 59 that detects the operation position of the second work lever 32. Alternatively, a clutch operation detector that detects the operating state of the work clutch 25 that interrupts transmission to the main work device A, or a work transmission shaft 36 provided in the T / M case 9 for taking out power to the main work device A. For example, a rotation detector that detects the rotation of the rotation detector can be employed.
Although not shown, in the configuration including the blower clutch 80, the traveling vehicle body 1 includes a traveling detector that detects whether the traveling vehicle body 1 is in a traveling state, and the ECU 57 included in the traveling vehicle body 1 includes The blower operation control unit that switches the operation state of the blower clutch 80 based on the output of the travel detector is mounted, and the blower operation control unit connects the blower clutch 80 when the travel detector detects the travel state of the traveling vehicle body 1. It is conceivable that the blower clutch 80 is switched to the disengaged state when the travel detector detects the stopped state of the traveling vehicle body 1.
For example, a position detector that detects the operation position of the main transmission lever 29 or a rotation detector that detects the output rotation speed of the HST 12 can be employed as the travel detector in this configuration.

[14] The traveling vehicle body 1 may not include the blower 35 that sucks the heated air around the engine.

[15] The ECU 57 mounted on the traveling vehicle body 1 may be configured to have a function as the fertilizer application ECU 64, and the fertilizer application apparatus 5 may not be equipped with the fertilizer application ECU 64.

[16] The blower 35 may be configured to maintain the operating state by the power from the engine 8 during operation of the engine 8.

[17] The blower 35 may be configured to operate with electric power from a battery mounted on the traveling vehicle body 1. Further, it may be configured to operate with electric power from a generator that generates electric power from the engine 8.

  INDUSTRIAL APPLICABILITY The present invention can be applied to a riding paddy field work machine such as a riding rice planting machine provided with a seedling planting device as a main working device or a riding direct seeding machine equipped with a direct sowing device as a main working device.

DESCRIPTION OF SYMBOLS 1 Traveling vehicle body 3 Link mechanism 8 Engine 25 Work clutch 26 Transmission part 35 Blower 35A Exhaust port 46 Storage part 47B Connection port 57C Blower operation control part 66 1st remaining amount detector 67 2nd remaining amount detector 80 Blower clutch A Main work Device B Auxiliary work device C Supply path D Alarm E Detector F Operation detector

Claims (6)

A riding-type traveling vehicle body, and a main working device for sowing or seedling planting connected to the rear portion of the traveling vehicle body via a link mechanism,
Auxiliary work device for supplying fertilizer or chemicals to the field is detachable
The auxiliary work device is a riding paddy field machine including a detector that detects an abnormality of the auxiliary work device and a notification device that performs a notification operation based on detection of the abnormality of the detector. The auxiliary work device includes a storage unit for storing fertilizer or medicine,
The storage unit includes a first remaining amount detector that detects that the remaining amount of stored fertilizer or medicine is lower than a first reference value, and the remaining amount of stored fertilizer or medicine is smaller than the first reference value. The riding paddy field work machine according to claim 1 provided with the 2nd remaining amount detector which detects that it fell below the 2nd standard value as said detector. The traveling vehicle body includes a blower that operates with power from an engine,
The auxiliary work device includes a supply path for supplying fertilizer or medicine to the field,
The riding paddy field machine according to claim 1 or 2, wherein the supply path includes a connection port that can be connected to an exhaust port of the blower at a site on the upper side in the supply direction.   The riding paddy field work machine according to claim 3, wherein the blower is configured to suck in the heated air around the engine. An operation detector that detects whether or not the main working device is in an operating state, a blower clutch that intermittently transmits power to the blower, and a blower operation control that switches the operating state of the blower clutch based on the output of the operation detector With
The blower operation control unit switches the blower clutch to a connected state when the operation detector detects an operation state of the main work device, and the blower operation control unit detects the stop state of the main work device when the operation detector detects a stop state of the main work device. The riding paddy field machine according to claim 3 or 4, wherein the clutch is switched to a disengaged state. The main work device is configured as an engine drive type that operates with power from the engine,
A work clutch for intermittently transmitting power to the main work device;
5. The riding paddy field work machine according to claim 3, wherein the blower is configured to be operated by power extracted from a transmission unit extending between the work clutch and the main work device.

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