KR20120085261A - Fertilizer applicator and riding-type rice transplanter having same mounted thereon - Google Patents

Abstract

Discharge remaining fertilizer steadily.
While the fixed side fertilizer is formed by the support frame portion and the lower side supply body, the plurality of hopper portions disposed on one side are integrally communicated in the adjacent direction to form one movable side fertilizer, and the multiple arranged on the other side. Hopper parts are integrally communicated in the adjacent direction to form the other movable side fertilizer, and an outer end of both movable side fertilizers is provided with a discharge part for discharging fertilizer remaining inside, and one movable side fertilizer and the other movable part The side fertilizers were pivotally connected to the side end portions of the support frame portions, respectively, and protruded substantially vertically from the feeding posture which was horizontally lateral, so that the posture was changed to the discharge posture which directed the discharge portion downward.

Description

Fertilizer and fertilizer equipped with it {FERTILIZER APPLICATOR AND RIDING-TYPE RICE TRANSPLANTER HAVING SAME MOUNTED THEREON}

The present invention relates to a mid-mount fertilizer and a passenger electric machine equipped with the same as a unit.

BACKGROUND ART Conventionally, one type of passenger transponder has been provided with a fertilizer device at the rear of the seat provided in the traveling device while connecting the planting device to the rear of the traveling device. In the above-mentioned passenger electric machine, it is possible to simultaneously carry out seedling work of some seedling by the planting device and fertilization of fertilizer by the fertilizer.

And the fertilizer is attached to the support frame part extended in the left-right width direction, and is attached to the some supply part along the extending direction. Each supply part communicates with the some hopper part, respectively. Fertilizer accommodated in each hopper part is made to be supplied through each supply part.

Moreover, each supply part is provided with the discharge port part for discharging residual fertilizer. The shutters are attached to each outlet port so as to be opened and closed, and a discharge hose is connected to each outlet port. In this way, when discharging the residual fertilizer, the remaining fertilizer is discharged into the recovery container through each discharge hose by opening the shutter closing the discharge port. Here, the discharge hose is formed into a corrugated box shape in order to ensure good flexibility and elasticity. The discharge hose is stretched during use to drop the remaining fertilizer into its own weight into the discharge hose, and when not in use, the discharge hose is bent in a loop shape and stored between the supply portion and the seat.

Moreover, each supply part is penetrated through the supply operation shaft extended in the left-right direction, and it is made to supply each supply part. Here, the supply operation shaft is linked to the power take-off shaft provided in the traveling device.

Japanese Patent Publication No. 2003-61420

By the way, in the above fertilizer, when discharging the residual fertilizer, it is necessary to extend the discharge hose connected to each supply part as straight down as possible so that the residual fertilizer smoothly falls to its own weight in the discharge hose. The arrangement of the discharge hose is complicated.

That is, when the recovery container is disposed in the space between the traveling device and the planting device, the residual fertilizer can be discharged by extending the discharge hose toward the recovery container. However, since the left and right rear wheels are located on the left and right sides of the space between the traveling device and the planting device, it is complicated to arrange the recovery container in such a space.

In addition, when the recovery container is disposed outside the left and right rear wheels, it is necessary to extend the discharge hose through the upper and left rims of the left and right rear wheels or between the rims of the left and right rear wheels. However, since the soil is attached to the left and right rear wheels, there is a trouble such as the removal of the soil from the treatment point of the discharge hose.

A fertilizer according to the invention of claim 1 is a fertilizing apparatus in which a plurality of supply portions are attached to a support frame portion extending in one direction along the stretching direction, and each of the supply portions communicates with a hopper portion, and each of the supply portions is a lower side. It is formed so as to be separable and joined by a supply body and an upper side supply body, and attaches the lower side supply body to the support frame part to form a fixed side fertilizing part, while communicating the upper side supply body in communication with each of the hopper parts to move one side. The side fertilizer and the other movable side fertilizer are formed, and at an outer end of both movable side fertilizers, a discharge part for discharging fertilizer remaining therein is provided, and the one movable side fertilizer and the other movable side fertilizer are respectively supported in a supporting frame. It is pivoted and connected to the side end of the part, and it jumps about vertically with the feeding posture which is horizontally and horizontally Discharge unit characterized in that one to a position in which discharge directed downward posture can be changed.

A fertilizer according to the invention of claim 2 is a fertilizer according to the invention of claim 1, wherein each discharge portion is connected to the outer end of each of the movable side fertilizers in a cylindrical shape and connects a proximal end portion of the discharging discharge guide to each discharge. It is characterized in that the posture can be changed into a use posture in which the guide body is vertically lowered in an extended state and an unuse posture stored in a shortened state.

The fertilizer according to the invention of claim 3 is a fertilizer according to the invention of claim 2, wherein each of the discharge parts has an inner opening / closing cover body and an outer opening / closing cover body at an outer end of each of the movable side fertilizing parts. It is placed in the room so that the cover can be opened and closed, and a guide receiving space is formed between the inner opening and closing cover and the outer opening and closing cover to store the remaining portion except the proximal edge of the discharge guide in the guide receiving space in a shortened state. It is characterized by the above-mentioned.

The fertilizer according to the invention of claim 4 is a fertilizer according to the invention of claim 1, wherein one side supply operation shaft and the other side for supplying and operating an upper side feed body to the one side movable side fertilizer and the other side movable fertilizer, respectively. Arranges the supply operation shaft coaxially and connects the inner end portions of the two supply operation shafts to be connected and cutable, and the one side movable side fertilizer is provided with an input side connection part interlocked with the one supply operation shaft to move one side. The input side connecting portion is connected to the output side connecting portion provided in the supporting frame portion in the supply posture of the side fertilizing portion, while the input side connecting portion is cut from the output side connecting portion in the discharge posture of the one side movable side fertilizing portion.

A fertilizer according to the invention of claim 5 is a fertilizer according to the invention of claim 4, wherein the input side connecting portion is formed by axially supporting the input gear on the inner end of the one movable side fertilizing portion so as to be movable in rolling, and the output side connecting portion The output gear is formed by axially supporting the output gear provided on the support frame, and the input gear is engaged with the output gear upward from the supply posture of one movable side fertilizer and the input gear is discharged from one discharge side fertilizer. It is characterized in that the disengaged upwardly spaced apart from the output gear.

A fertilizer according to the invention of claim 6 is a fertilizer according to the invention of claim 1, wherein the fertilizer according to the invention of claim 1 is provided between an upper end edge portion of the lower side supply body and a lower end opening edge portion of the upper side It is characterized by providing a sealing material.

A fertilizer according to the invention of claim 7 is a fertilizer according to the invention of claim 6, wherein the sealing material is a ring-shaped mounting body attached to an opening edge of any one of the upper and lower side supply bodies, A ring-shaped container for receiving the opening edge portion of any one of the lower side supply bodies so as to be spaced apart and in close contact with each other is provided, and the receiving surface side of the container has radially spaced inner and outer contact pieces of concentric short width tubular shape. It protrudes so that bending deformation is possible.

The fertilizer according to the invention of claim 8 is a fertilizer according to the invention of claim 6 or 7, wherein the lower end opening of each of the lower side supply bodies communicates with the upper end of the fertilizing hose body formed of a hard material. In the middle part of the fertilizing hose body, a avoiding concave part is formed to avoid interference with other objects, and the inner flow path cross section of the same middle part is made substantially the same as the other inner flow path cross sections.

A fertilizer according to the invention of claim 9 is a fertilizer according to the invention of claim 1, wherein the supporting leg is arranged at the inner end of each of the movable side fertilizing parts, and the lower end of each supporting leg is supplied It is characterized by engaging the support frame part in a posture to position each movable side fertilizer.

A fertilizer according to the invention of claim 10 is a fertilizer according to the invention of claim 9, wherein an engaging recess is formed at the lower end of each of the support legs, while the support frame portion is formed of a rod-shaped extending along the stretching direction. The frame forming body is provided, and the engagement recesses can be engaged with the frame forming body in a substantially orthogonal state from above.

A fertilizer according to the invention of claim 11 is a fertilizer according to the invention of claim 1, wherein each of the movable side fertilizers has an obtuse angle to rotate from the supply posture to the discharge posture around each of the pivot and connecting portions, In the discharge position, the center of gravity of each of the movable side fertilizers is positioned outside the pivot and connecting portion.

A fertilizer according to the invention of claim 12 is a fertilizer according to the invention of claim 11, wherein the axis of the upper side feed body communicating with each of the hopper portions is inclined so that the hopper side is inclined downward in the discharge position. The fertilizer remaining in the feed is passed through the hopper portion and discharged from the discharge portion.

A fertilizer according to the invention of claim 13 is a fertilizer according to the invention of claim 12, wherein each of the upper side feed bodies has a funnel shape of the inner circumferential wall, and gradually becomes downward in a feeding posture and in a discharge posture. The lower main wall surface is formed to be inclined downward to the hopper side.

A fertilizer according to the invention of claim 14 is a fertilizer according to the invention of claim 1, wherein the supporting legs are provided at the inner end portions of the movable side fertilizing portions, respectively, and the supporting legs are each supported in the supply posture. A frame-shaped positioning body is formed by engaging the support frame part, by the support frame part, the pivot support arm, the movable side fertilizing part, and the support leg.

A fertilizer according to the invention of claim 15 is a fertilizer according to the invention of claim 14, wherein the fertilizer according to the invention according to the invention is directed to the axial direction through a pivoting axis which is oriented in the direction orthogonal to the extending direction of the support frame portion at both end portions of the support frame portion. A three-dimensional frame-shaped position having a depth in the axis direction of the pivot axis by connecting a hopper portion formed in a box shape to a proximal end portion of each of the pair of opposing pivot support arms, and connecting a hopper formed in a box shape to the tip of each pair of pivot support arms. A crystal is formed.

A fertilizer according to the invention of claim 16 is a fertilizer according to the invention of claim 1, wherein the fertilizer feeding air is supplied to the lower side supply body to one end of the support frame portion which pivots and connects the one movable side fertilizer. In addition to the installation of the air supply, the air supply may be changed into a posture supplying position capable of supplying the pressurized air and a posture supplying position in which the pressurized air is not supplied. It is characterized in that an interference avoidance posture positioned at a non-interfering position outside of the posture change operation surface of the supply posture and the discharge posture of the side fertilizer.

A fertilizer according to the invention described in claim 17 is a fertilizer according to the invention as described in claim 16, wherein the compressed air supply unit is held in an interference avoidance posture by a posture maintaining means.

A passenger transfer machine according to the invention of claim 18 is equipped with the fertilizer device according to any one of claims 1 to 17.

(Effects of the Invention)

(1) In the invention according to claim 1, a plurality of supply portions are attached to the support frame portion extending in one direction along the stretching direction, and each of the supply portions is a fertilizing apparatus in which a hopper portion is communicated with each other. It is formed so as to be separable and joined by a supply body and an upper side supply body, and attaches the lower side supply body to the support frame part to form a fixed side fertilizing part, while communicating the upper side supply body in communication with each of the hopper parts to move one side. The side fertilizer and the other movable side fertilizer are formed, and at an outer end of both movable side fertilizers, a discharge part for discharging fertilizer remaining therein is provided, and the one movable side fertilizer and the other movable side fertilizer are respectively supported in a supporting frame. It is pivoted and connected to the side end of the part, and it jumps about vertically with the feeding posture which is horizontally lateral and horizontally. In that the discharge position is directed to the enabling position change.

In this way, the posture can be changed into a supply posture in which the one side movable side fertilizer and the other side movable side fertilizer are arranged substantially horizontally, and the discharge posture which springs up substantially vertically, and the fertilizer remaining therein at the outer ends of both side movable side fertilizers. Since the discharge part for discharging the gas is provided, the respective discharge parts can be directed downward by changing the postures of both movable side fertilizers in the discharge attitude, respectively. Therefore, the residual fertilizer can flow down to each discharge | release part side by own weight, and can discharge easily and robustly from each discharge | release part.

In addition, the fertilizer can be disposed at the left and right end portions of the fertilizer by mounting the discharge device in a horizontally long shape in the horizontal direction at the rear of the seat installed in the traveling device of the passenger electric machine. Therefore, the discharge operation can be performed easily through each discharge part by setting the both movable side fertilizers to be discharged in a substantially vertical manner. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without connecting the discharge hose to the supply unit, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(2) In the invention according to claim 2, each discharge portion is connected to the outer end of each of the movable side fertilization portions in a cylindrical shape and connects a proximal edge of the stretchable discharge guide body so that each discharge guide body is vertically lowered in an extended state. It is possible to change the posture to an unused posture stored in a posture and a shortened state.

In this way, since the tubular and stretchable discharge guide body which enables the posture change in the use posture lowered in the extended state and the unused posture stored in the shortened state is connected to the outer end of each movable side fertilizer, In the discharge operation of the residual fertilizer, the residual fertilizer can be reliably recovered into the recovery container by setting the discharge guide body into an extended state and using the discharge guide body in the use attitude of vertically lowering toward the recovery container. In addition, after the discharge operation is completed, the discharge guide member is placed in an unused posture in which the discharge guide member is shortened and stored, so that the discharge guide member does not interfere with subsequent operations.

(3) In the invention according to claim 3, each discharge portion is attached to the outer end of each movable side fertilizer and the cover to be opened and closed by placing the inner open / close cover body and the outer open / close cover body on the outer side of the proximal edge of the discharge guide body, A guide body accommodating space is formed between the inner open / close lid and the outer open / close lid so that the remaining portion excluding the proximal edge of the discharge guide body can be accommodated in the shortened state.

Thus, since the discharge guide body can be accommodated in the guide body accommodating space formed between the inner and outer opening / closing bodies in a shortened state, the discharge guide body is made simple in structure and compactly and simply in the guide body accommodating space. I can receive it. Moreover, since the inner and outer opening / closing cover bodies are provided in each discharge section provided at the outer end of each movable side fertilizing section, the cover closure property of each discharge section can be ensured satisfactorily.

(4) In the invention according to claim 4, the one side operating side fertilizer and the other side movable side fertilizing unit are arranged coaxially with one side supply operation shaft and the other side supply operation shaft for supplying and operating the upper side supply body, respectively. The opposite inner end portions of the supply working shafts are connected to each other so as to be connected and cut, and the one side movable side fertilizing section is provided with an input side connecting portion interlocked with one side supplying operation shaft, and the input side connecting portion supports the supporting frame from the supply posture of the one side movable fertilizing section. It is connected to the output side connection part provided in the part, and the input side connection part is cut | disconnected from the output side connection part in the discharge attitude | position of one movable side fertilization part.

In this way, the posture can be changed into a supply posture in which the one side movable side fertilizer and the other side movable side fertilizer are arranged substantially horizontally, and the discharge posture which springs up substantially vertically, and the fertilizer remaining therein at the outer ends of both side movable side fertilizers. Since the discharge part for discharging the gas is provided, the respective discharge parts can be directed downward by changing the postures of both movable side fertilizers in the discharge attitude, respectively. Therefore, the residual fertilizer can flow down to each discharge | release part side by own weight, and can discharge easily and robustly from each discharge | release part.

In addition, since the input side connecting portion is connected to the output side connecting portion provided in the supporting frame portion in the supply posture of the one side movable side fertilizing portion, while the input side connecting portion is cut from the output side connecting portion in the discharge posture of the one side movable side fertilizing portion, There is no need to perform the connection / cutting operation of the input side connection part and the output side connection part in order when changing the value. Therefore, the problem that an operator forgets to perform connection / cutting operation of an input side connection part and an output side connection part is eliminated, and operability improves.

In addition, the fertilizer can be disposed at the left and right end portions of the fertilizer by mounting the discharge device in the horizontally long shape in the horizontal direction at the rear of the seat installed in the traveling device of the passenger electric machine. Therefore, the discharge operation can be performed easily through each discharge part by setting the both movable side fertilizers to be discharged in a substantially vertical manner. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without connecting the discharge hose to the supply unit, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(5) In the invention according to claim 5, the input side connecting portion is formed by axially supporting the input gear on the inner end of the one movable side fertilizing portion so as to be movable in rolling, while the output side connecting portion is provided on the output frame provided in the supporting frame portion. The output gear is formed by being axially supported so that the input gear is engaged with the output gear from the upper side in the supply position of the movable fertilizer on one side, and the input gear is spaced apart upward from the output gear in the discharge position of the movable side fertilizer. .

In this way, the input gear is engaged with the output gear in the supply posture of the one side movable side fertilizer, and the input gear is spaced apart upward from the output gear in the discharge posture of the one side movable fertilizer so that the one side is operated. A negative posture change operation can be performed easily, and a connection part can be connected and cut | disconnected by making meshing and releasing of an input gear and an output gear solid by this.

(6) In the invention according to claim 6, a sealing material is provided between the upper end edge portion of the lower side supply body and the lower end edge portion of the upper side supply body, which are separated and joined.

In this way, the posture can be changed into a supply posture in which the one side movable side fertilizer and the other side movable side fertilizer are arranged substantially horizontally, and the discharge posture which springs up substantially vertically, and the fertilizer remaining therein at the outer ends of both side movable side fertilizers. Since the discharge part for discharging the gas is provided, the respective discharge parts can be directed downward by changing the postures of both movable side fertilizers in the discharge attitude, respectively. Therefore, the residual fertilizer can flow down to each discharge | release part side by own weight, and can discharge easily and robustly from each discharge | release part.

And since the sealing material is provided between the upper edge opening part of the said lower side supply body and the lower opening edge part of the said upper side supply body which were isolate | separated and joined, the attitude | position of the supply attitude | position of each movable side fertilization part, and the discharge | emission attitude | position It is possible to protect the upper and lower opening edges of the upper and lower side supply bodies which repeat separation and joining at the time of change, and ensure good sealing.

In addition, the fertilizer can be disposed at the left and right end portions of the fertilizer by mounting the discharge device in the horizontally long shape in the horizontal direction at the rear of the seat installed in the traveling device of the passenger electric machine. Therefore, the discharge operation can be performed easily through each discharge part by setting the both movable side fertilizers to be discharged in a substantially vertical manner. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without providing the discharge hose, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(7) In this invention of Claim 7, the said sealing material is a ring-shaped mounting body attached to either opening edge part of the said upper and lower side supply bodies, and the other of the upper and lower side supply bodies. A ring-shaped container is provided which accommodates the opening edge portion so as to be spaced apart from each other and is in close contact with each other. A concentric short-width cylindrical inner and outer contact piece protrudes in a radial direction so as to bend and deform in a radial direction.

Thus, since the sealing material is provided with the ring-shaped mounting body and the ring-shaped container, the said movable side fertilizing part is supplied by attaching a mounting body to the opening edge of any one of the said upper and lower side supply bodies. In the case of adopting the posture, it is possible to secure the supply performance of the supply part by accommodating the opening edge portion of either of the upper and lower supply bodies in close contact. Moreover, when each said movable side fertilization part adopts a discharge attitude | position, the opening edge part of either of the upper and lower side feed bodies is easily spaced apart from a container, and each said movable side fertilization part can be made into the discharge attitude smoothly. .

At this time, since the inner and outer contact pieces of the concentric short-width cylindrical shape are protruded so as to bend and deform at radial intervals on the receiving surface side of the container, the inner and outer contact pieces are warped and deformed when the receptor receives the opening edge. This is ensured well.

(8) In the present invention according to claim 3, the upper end of the fertilizing hose body formed of a hard material is connected to the lower end opening of each of the lower side supply bodies, and the middle part of the fertilizing hose body is not subjected to interference with other objects. An avoidance recess for avoiding is formed, and an inner flow passage cross-sectional area of the same intermediate portion is made substantially the same as that of other inner flow passages.

In this way, the intermediate portion of the fertilizing hose body is provided with a recess for avoiding interference with other objects, and because the cross-sectional area of the inner flow path of the intermediate portion is approximately equal to that of other inner flow paths, the fertilizer stays in the middle part. have nothing to do. Therefore, the transportability of the fertilizer can be satisfactorily secured while avoiding interference with other materials. In other words, in order to achieve compactness of the transfer machine, for example, when the front and rear spacing of each member is reduced, it is necessary to arrange the fertilizing hose body between the seedling stand of the planting device and the transverse feed mechanism for transverse feeding of the seedling stand. There is also a need to avoid interference with this transverse feed mechanism. In the conventional fertilizing hose body, there is a problem that neither the interference with the lateral transfer mechanism nor the transportability of the fertilizer can be achieved. By the way, the said problem can be solved in the fertilizing hose body of this invention.

(9) In the present invention described in claim 9, the supporting legs are provided at the inner end portions of the movable side fertilizing portions, respectively, and the lower end portions of the supporting legs are engaged with the supporting frame portions in the feeding posture, so that each movable side is provided. The fertilizer is positioned.

In this way, the posture can be changed into a supply posture in which the one side movable side fertilizer and the other side movable side fertilizer are arranged substantially horizontally, and the discharge posture which springs up substantially vertically, and the fertilizer remaining therein at the outer ends of both side movable side fertilizers. Since the discharge part for discharging the gas is provided, the respective discharge parts can be directed downward by changing the postures of both movable side fertilizers in the discharge attitude, respectively. Therefore, the residual fertilizer can flow down to each discharge | release part side by own weight, and can discharge easily and robustly from each discharge | release part.

And since the lower end part of each support leg installed in the inner end part of each movable side fertilizer part is made to engage each support side fertilizer part by engaging with the said support frame part in the said supply posture, each movable side fertilizer part is supplied You can position reliably with posture. Therefore, the posture change from the positioned supply posture to the discharge posture can also be performed smoothly, and the discharge operation can be performed efficiently.

In addition, such a fertilizer device can be disposed at the left and right ends of the fertilizer device by mounting each discharge portion in the horizontally long shape in the horizontal direction at the rear of the seat installed in the traveling device of the passenger electric machine, so that the operator rides on the traveling device. Therefore, the discharge operation can be performed easily through each discharge part by setting the both movable side fertilizers to be discharged in a substantially vertical manner. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without providing the discharge hose, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(10) In the present invention described in claim 10, an engaging recess is formed at the lower end of each of the supporting legs, while the supporting frame portion is provided with a rod-shaped frame forming member which is elongated in the stretching direction, and the same frame is formed. Each said engagement recessed part is made to be engaged with a sieve in substantially orthogonal state from upper direction.

Thus, since the engagement recessed part formed in the lower end part of each support leg can be meshed to the rod-shaped frame forming body provided in the support frame part in substantially orthogonal state from the upper side, each movable side fertilizer part is structured in a supply position. Simplifying can reliably position.

(11) In this invention of Claim 11, each said movable side fertilization part makes the rotation angle which rotates from a supply attitude | position to a discharge attitude centering around each said pivot and connection part, and the weight of each said movable side fertilization part in a discharge attitude | position The center position is located outward from the pivot joint.

In this way, the posture can be changed into a supply posture in which the one side movable side fertilizer and the other side movable side fertilizer are arranged substantially horizontally, and the discharge posture which springs up substantially vertically, and the fertilizer remaining therein at the outer ends of both side movable side fertilizers. Since the discharge part for discharging the gas is provided, the respective discharge parts can be directed downward by changing the postures of both movable side fertilizers in the discharge attitude, respectively. Therefore, the residual fertilizer can flow down to each discharge | release part side by own weight, and can discharge easily and robustly from each discharge | release part.

And each said movable side fertilization part makes the oblique angle which rotates from a supply attitude to a discharge attitude centering around each said pivot connection part, In a discharge attitude | position, the center of gravity position of each said movable side fertilization part is outer side than the said pivot connection part. Since each said movable side fertilization part is stably maintained by the discharge attitude | position of the standing state which jumped up substantially vertically. Therefore, there is no need to provide a means for fixing each of the movable side fertilizers in such a discharge posture, and no effort is required to release the fixed state and change the posture to the supply posture. Therefore, the operation | work which discharges residual fertilizer from a discharge part can be performed efficiently.

In addition, such a fertilizer device can be disposed at the left and right ends of the fertilizer device by mounting each discharge portion in the horizontally long shape in the horizontal direction at the rear of the seat installed in the traveling device of the passenger electric machine, so that the operator rides on the traveling device. Therefore, the discharge operation can be performed easily through each discharge part by setting the both movable side fertilizers to be discharged in a substantially vertical manner. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without providing the discharge hose, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(12) In the present invention as set forth in claim 12, the fertilizer remaining in the upper feed body in the hopper portion has the axial line of the upper feed body communicating with the hopper part so that the hopper side is inclined downward in the discharge position. It passes through and is discharged from the discharge part.

In this way, the fertilizer remaining in the upper side supply body can be discharged | emitted from a discharge part steadily only by making each said movable side fertilizer part a discharge attitude | position. Therefore, the discharge work efficiency of residual fertilizer can be improved.

(13) In the present invention described in claim 13, each of the upper side supply bodies has a funnel shape of the inner circumferential wall, and gradually becomes a shaft shape downward in the supply posture, and in the discharge posture, the lower main wall face is inclined downward toward the hopper side. It is formed as much as possible.

In this way, the fertilizer remaining in the upper side supply body can also flow down along the lower main wall surface only by making each said movable side fertilization part into a discharge attitude | position, and can discharge | eject from a discharge part steadily. Therefore, also from this point, the discharge work efficiency of residual fertilizer can be improved.

(14) In the present invention described in claim 14, the support legs are provided at the inner end portions of the movable side fertilizers, respectively, and in the supply posture, the support legs are engaged with the support frame portions so as to engage the support frame portions. And the pivot support arm, the movable side fertilizer, and the support leg form a frame-shaped positioning body.

In this way, the posture can be changed into a supply posture that is substantially horizontally aligned with a supply posture which is pivotally connected to one side of the movable side fertilizer and the other side of the movable side fertilizer by a pivoting support arm at the side end of the support frame, respectively. Since the discharge part for discharging the fertilizer which remains inside is provided in the outer edge part of both movable side fertilization parts, each discharge part can be directed downward by changing the attitude | position to both discharge side fertilizers, respectively. Therefore, the residual fertilizer can be dropped to each discharge part side by its own weight, and can be discharged easily and reliably from each discharge part.

Moreover, in a supply posture, the support frame part and the pivoting support arm, the movable side fertilizer part, and the said support leg body are made to engage with the said support frame part by the support leg body which respectively arranged in the inner edge part of each said movable side fertilization part. The frame positioning body can be formed by this. And by forming the said frame-shaped positioning body, positioning of the one side movable side fertilization part and the other side movable side fertilization part from a discharge attitude to a supply attitude can be carried out simply and reliably. In addition, the fertilizer can be used as a frame structure to ensure its rigidity. Here, the hopper portion can be made of a lightweight and hard material to make the hopper portion function as a strength member, and the movable side fertilizer can be made lighter, and the posture changing operation of each movable side fertilizer can be performed easily.

Such a fertilizer device can be disposed at the left and right ends of the fertilizer device by mounting the discharge device at the left and right ends of the fertilizer device in a horizontally long shape at the rear of the seat installed in the traveling device of the passenger electric machine. By setting the movable side fertilizer to the discharge posture which jumps substantially vertically, discharge operation can be performed easily through each discharge part. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without providing the discharge hose, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(15) In the present invention described in claim 15, a pair of each of the pivotal support arms that are opposed to the axial direction through the pivotal axis that faces the axis in a direction orthogonal to the stretching direction of the support frame portion at both end portions of the support frame portion. The proximal end of the pivot is pivoted, and a hopper formed in a box shape is connected to the tip of each of the pivotal support arms to form a three-dimensional frame-shaped positioning body having a depth in the axial direction of the pivotal axis.

Thus, since the frame positioning body is formed three-dimensionally, the rigidity of the frame positioning body structure can be further improved. As a result, the positioning at the time of changing the posture of one side movable side fertilization part and the other side movable side fertilization part from a discharge attitude to a supply attitude becomes robust. Moreover, the support structure of each said movable side fertilization part can also be made strong, and the attitude | position change operation | movement of each said movable side fertilization part can be ensured favorably.

(16) In the present invention as set forth in claim 16, at one end of the support frame portion in which the one side movable side fertilizer is pivoted and connected, a pressurized air supply unit for supplying fertilizer pressurized air to the lower side supply body is provided and at the same time The wind supply unit enables the posture to be changed into a posture supplying posture capable of supplying a pressurized wind and a posture supplying non-feeding posture incapable of supplying the pressurized wind. The interference avoidance posture positioned at the non-interfering position outside the change operation plane is adopted.

In this way, the posture can be changed into a supply posture in which the one side movable side fertilizer and the other side movable side fertilizer are arranged substantially horizontally, and the discharge posture which springs up substantially vertically, and the fertilizer remaining therein at the outer ends of both side movable side fertilizers. Since the discharge part for discharging the gas is provided, the respective discharge parts can be directed downward by changing the postures of both movable side fertilizers in the discharge attitude, respectively. Therefore, the residual fertilizer can flow down to each discharge | release part side by own weight, and can discharge easily and robustly from each discharge | release part.

At this time, at one end of the support frame portion which pivots and connects the one side movable side fertilizer, a pressurized air supply unit for supplying fertilizer pressurized air to the lower side supply body is provided. However, the pressurized air supply part enables the posture to be changed to a pressurized air supply posture capable of supplying the pressurized wind and a non-pressurized air supply posture incapable of supplying the pressurized wind, and further, in the non-pressurized air supply posture, the supply posture and discharge of the one side movable fertilizer It is possible to adopt an interference avoidance posture positioned at a non-interfering position outside the posture change operation plane. Therefore, when changing the posture of the one side movable side fertilizer to the discharge attitude, the posture can be changed to the discharge attitude without interfering the one side movable side fertilizer with the pressurized air supply by changing the posture to the interference avoidance posture in advance. Therefore, even the one side movable side fertilizing part pivoted to one end of the said support frame part can ensure the directivity to the downward direction of a discharge part favorably, and can ensure robust discharge | emission from this discharge part. In addition, since the pressurized air supply unit in the interference avoidance posture is also the pressurized air non-feeding posture, the pressurized wind is not supplied due to a malfunction during the discharge operation of the residual fertilizer.

In addition, such a fertilizer device can be disposed at the left and right ends of the fertilizer device by mounting each discharge portion in the horizontally long shape in the horizontal direction at the rear of the seat installed in the traveling device of the passenger electric machine, so that the operator rides on the traveling device. Therefore, the discharge operation can be performed easily through each discharge part by setting the both movable side fertilizers to be discharged in a substantially vertical manner. At this time, if the recovery container is arrange | positioned in the position directly under each discharge | release part which is directed downward from the left and right outer side position of a traveling apparatus, the residual fertilizer discharged in the flow state in the said collection container can be collect | recovered easily. In addition, since the discharge operation can be performed without providing the discharge hose, there is no need to consider the complicated processing of the discharge hose connected to each supply unit as in the prior art.

(17) In the present invention described in the seventeenth aspect, the pressure wind supply unit is held in an interference avoidance posture by a posture maintaining means.

In this way, since the compressed air supply unit can be held in the interference avoidance posture by the posture maintaining means, even if the fertilizer device itself is inclined due to the unevenness of the pavement surface or the like, or the gusts blow, the interference air avoidance posture It is possible to reliably avoid interference with the one-side movable fertilizer which adopts the discharge posture by maintaining the position. In addition, it is also possible to prevent the accidental accident occurs by changing the posture of the supply air supply.

(18) In the invention described in claim 18, the fertilizer device according to any one of claims 1 to 3 is equipped with a riding machine.

In this way, some planting work and a fertilization work can be performed simultaneously, and work efficiency can be aimed at.

1 is a left side view of a riding machine.
2 is a plan view of a riding machine.
3 is an explanatory view over time from the right rear side of the main vehicle body frame.
4 is an explanatory view over time from the right rear side of the main vehicle body frame.
5 is an explanatory view of the rear side of the fertilizing hose portion disposed in the planting apparatus.
6 is a front view of the fertilizer.
7 is a rear view of the fertilizer.
8 is an explanatory front view of the fertilizer in the discharge position.
9 is a rear explanatory diagram of the fertilizer application in the discharge position.
10 is a plan explanatory view of the fertilizer in the discharge position.
11 is an explanatory view of part of the cutout plane of the fertilizer.
It is explanatory drawing of the plane except the hopper part of a fertilizing apparatus.
It is explanatory drawing of the attitude change of a right side movable fertilization part.
It is explanatory drawing of the left side of a fertilizing apparatus.
It is explanatory drawing on the left side of a fertilizing apparatus.
16 is a plan explanatory diagram of an interference avoidance attitude of a pressurized air supply unit.
It is a plan explanatory drawing of the connection attitude of a pressurized air supply part.
It is explanatory drawing of the center part right side of a fertilizing apparatus.
It is explanatory drawing of the right side part in the middle part of a fertilizing apparatus.
20 is a rear cross-sectional explanatory view of the discharge unit.
21 is a partial side cross-sectional explanatory view of a supply part.
22 is a side cross-sectional view of the gasket.
It is a side view of a middle fertilization hose body.
24 is a cross-sectional view taken along the line II of FIG.
It is explanatory drawing of the supply attitude of the left movable side fertilization part.
It is explanatory drawing of the cover opening attitude | position of an outer opening / closing cover body, and the interference avoidance attitude | position of a pressurized air supply part.
It is explanatory drawing of the use state of the discharge guide body.
It is explanatory drawing of the discharge attitude | position of the left movable side fertilization part.
It is explanatory drawing of the residual fertilizer discharge | release of the left movable side fertilization part.

A shown in FIG. 1 and FIG. 2 is a riding type electric machine equipped with the fertilizing apparatus M by this invention. Hereinafter, the fertilizer M according to the present invention will be described in detail after the passenger electric machine A is described.

[Driving Pottery Machine (A)]

As shown in FIG. 1 and FIG. 2, the riding type electric machine A attaches and lowers the planting device 3 to the rear of the traveling device 1 as a tow vehicle via the lifting mechanism 2. And the said riding machine A can perform a planting operation of several (6 sets in this embodiment).

[Driver (1)]

As shown in FIG. 1 and FIG. 2, the traveling device 1 is configured by attaching the upper body 12 to the lower body 11. 3 and 4, the lower body 11 mounts the prime mover part 14 which consists of an engine 15 etc. on the main body frame 13. As shown in FIG. In addition, the main body frame 13 extends and installs the front axle cases 17 and 17 from the left and right side wall front portions of the mission case 16 to the outside, respectively, and the outer end portions of the front axle cases 17 and 17. A pair of left and right front wheels 19, 19 are attached through the front axles 18, 18, and a left and right pair of right and left pairs are provided through the rear axles 21, 21 at the left and right outer ends of the rear axle case 20. The rear wheels 22 and 22 are attached to each other, and a temporary connection frame 23 extending in the front-rear direction between the rear part of the mission case 16 and the center part of the rear axle case 20 is formed in a transverse shape. Doing. Here, the connecting frame 23 is made into a pipe shape which is rectangular in cross section and stretched in a straight line in the front-rear direction.

As shown in FIG. 4, the middle part of the connecting frame 23 protrudes the left and right front engine mounts 24 and 24 toward the outside upward, while the middle part of the rear axle case 20 is left and right toward the front. The rear engine mounts 25, 25 are projected, and the engine 15 is mounted on these engine mounts 24, 24, 25, 25.

As shown in FIG. 1, between the output shaft 26 which protrudes outward from the left front part of the engine 15 and the input shaft 27 which protrudes outward from the left rear part of the mission case 16, a pulley ( The electric belt 30 is wound up via 28 and 29. As shown in FIG.

As shown in FIG. 4, the transmission shaft 31 extended in the front-back direction is provided between the rear part of the mission case 16 and the right front part of the rear axle case 20. As shown in FIG. The PTO shaft 32 protrudes toward the rear in the left rear part of the rear axle case 20.

As shown in FIG. 3 and FIG. 4, the power take-out case 33 is provided in the right side of the engine 15 in the protruding shape in the right front part of the rear axle case 20, and the power take-out case 33 and A power take-off shaft 35 extending in the front-rear direction is provided between the right rear part of the mission case 16. The first power take-off shaft 36 protrudes upward from the upper rear portion of the power take-out case 33, and the second power take-off shaft 34 is rearward from the rear portion of the power take-out case 33. Protruding towards.

In this way, power is transmitted to the engine 15 → output shaft 26 → pulley 28 → transmission belt 30 → pulley 29 → input shaft 27 → mission case 16. The mission case 16 → front axle case (17, 17) → front axles (18, 18) → right and left pair of front wheels (19, 19), as well as mission case (16) → transmission Power is transmitted to the shaft 31, the rear axle case 20, the rear axles 21, 21, and the pair of rear wheels 21, 21. In addition, power is transmitted to the PTO shaft 32 of the rear axle case 20. Further, power is transmitted to the mission case 16 → power extracting shaft 35 → first power extracting shaft 36 and the second power extracting shaft 34. Here, power is transmitted from the PTO shaft 32 to the stationary apparatus 4 provided in the planting apparatus 3 mentioned later. Then, power is transmitted from the first power take-off shaft 36 to the fertilizer M described later. In addition, power is transmitted from the second power take-off shaft 34 to the planting apparatus 3 described later.

On the main body frame 13 described above, as shown in Figs. 3 and 4, the sub-body frame 37 having a rectangular frame shape when viewed in plan is protruded to the front and left and right sides of the main body frame 13. I wear it. The sub-body frame 37 includes a front forming frame portion 38 arranged in a protruding shape forward from the front axle cases 17 and 17, and a rear end edge of the same forming frame portion 38. As shown in FIG. From the rear half axle case 20 to the upper position of the rear axle case 20, and is formed by the second half forming frame portion 39 arranged to have a predetermined step. Here, the rear end portion of the rear half forming frame portion 39 is formed between the left and right pair of rear end support posts 40 and 40 formed by raising from the rear axle case 20, and the upper ends of both rear end support posts 40 and 40. The rear end forming pieces 41 formed by stretching in the left and right directions are formed horizontally in the protruding shape in both the left and right sides.

3 and 4, a pair of left and right fertilizer attachment sheets 48 and 48 extending in the front-rear direction is disposed at the rear of the rear half forming frame portion 39 of the sub-body frame 37 in the left-right direction. Are installed at regular intervals.

In this way, the fertilizing apparatus M mentioned later is detachably attached to the left and right pair of fertilizing apparatus attachment sheets 48 and 48, and the fertilizing apparatus M is attached to the latter half-formed frame part of the sub-body frame 37 ( 39).

As shown in FIG. 3 and FIG. 4, the upper body 12 is provided with the vehicle body cover body 42 in a cover shape on the sub-body frame 37 described above. Then, the vehicle body cover body 42 includes a first half forming portion 43 disposed along the first half forming frame portion 38 of the sub vehicle body frame 37, and a second half forming frame portion 39 of the sub vehicle body frame 37. It is formed by the second half forming portion 44 which is arranged to follow. The handle column 45 is erected and installed in the front part of the front half formation part 43, and the handle 46 is attached to the upper end surface part of the handle column 45. As shown in FIG. The seat 47 is mounted on the second half forming portion 44 located behind the handle 46. Here, the constant width (front and rear width of the fertilizer M in this embodiment) of the rear part of the sub-body frame 37 is exposed without being covered by the latter half forming portion 44 of the vehicle body cover body 42. have. The application device M is supported by the exposed half-formed frame portion 39.

Planting apparatus (3)

As shown in FIG. 1, FIG. 2, and FIG. 5, the planting apparatus 3 extends from the planting mission case 50 to the planting center case 51 toward the rear. And the front part of the planting side cases 53 and 53 extended in the front-back direction is connected to the left and right side parts of the planting mission case 50 through the tubular connection cases 52 and 52 extended in the left-right direction, respectively. The planting center case 51 and the planting side cases 53 and 53 are arranged in parallel at regular intervals in the left and right directions, and the front part of the planting center case 51 and the front of each planting side case 53 and 53. Interlocking shafts 54 and 54 are provided between the parts, and these cases 51, 53 and 53 are interlocked with each other.

Planting claws (not shown) are attached to the left and right rear portions of the cases 51, 53, and 53 through a pair of left and right rotary cases (not shown). On these cases 51, 53 and 53, the seedling stand 58 is supported by the seedling stand support frame 57 so that reciprocation and horizontal sliding can be carried out to the left-right direction in the inclined posture of the front and rear. Then, on the front side (lower surface side) of the seedling stand 58, a transverse feed mechanism 59 for reciprocating horizontally sliding (lateral transfer) of the seedling stand 58 is provided, and the seedling stand (for the horizontal feed mechanism 59). 58) is linked. On the seedling stand 58, it is possible to load | separate 6 trillion seedling mats.

The planting mission case 50 projects the input shaft 55 toward the front. The input shaft 55 is detachably linked to the second power take-off shaft 34 of the power take-off case 33 installed in the traveling device 1 via a planting transmission shaft 60. In addition, the planting mission case 50 is provided with the connecting frame 56 raised upward. The center float 61 is arrange | positioned under the planting center case 51, and the side float 62, 62 is arrange | positioned below each planting side case 53, 53, respectively.

The elevating mechanism 2 is provided between the rear end forming piece 41 and the pair of left and right rear end struts 40 and 40 forming the rear end of the latter forming frame portion 39 and the connecting frame 56. It is established. The lifting mechanism 2 includes a lifting link 63, a lifting cylinder (not shown), and a rolling cylinder (not shown). In this way, the planting apparatus 3 is connected by the lifting mechanism 2 to the rear of the traveling apparatus 1 so that rolling is possible so that it can roll up and down around the axis line of the front-back direction.

In the passenger electric machine A comprised as mentioned above, the seedling operation of 6 trillion seedlings can be performed, traveling in a package.

Fertilizer (M)

As shown in FIGS. 1 and 2, the fertilizer M is provided with a pair of right and left fertilizer attachment sheets 48 and 48 (see FIGS. 3 and 4) described above at the rear portion of the traveling device 1. It is attached detachably.

As shown in FIG. 6 and FIG. 7, such a fertilizing apparatus M has a plurality (6 in this embodiment) along the extending direction to the support frame part 70 extended in one direction (left-right direction in this embodiment). A plurality of (6 in this embodiment) hopper portions 73 are communicated to the upper end openings of the respective supply portions 72, while the lower openings of the respective supply portions 72 are connected to each other. A plurality of fertilizing hose portions 74 (see FIG. 1) are connected to each other in the present embodiment.

Here, each supply part 72 communicates and communicates with the lower side supply body 75 attached to the said support frame part 70, and each hopper part 73 mentioned later as shown in FIGS. The upper side supply body 76 is formed so that separation and joining are possible.

And the fixed side fertilizing part 77 is formed by the support frame part 70, the lower side supply body 75, and the fertilizing hose part 74. As shown in FIG. In addition, the plurality of hopper portions 73 arranged on one side (left side in the present embodiment) are communicated integrally in the adjacent direction, and each upper portion is provided at the lower end of each hopper portion 73. The side supply body 76 is communicated to form a left movable side fertilizer 78 as one movable side fertilizer. On the other hand, plural (three in this embodiment) hopper portions 73 disposed on the other side (right in this embodiment) are integrally communicated in the adjacent direction, and each upper portion is provided at the lower end of each hopper portion 73. The side supply body 76 is communicated with each other, and the right movable side fertilizer 79 as the other movable side fertilizer is formed. Moreover, the discharge parts 80 and 80 for discharging the fertilizer which remain in each inside are provided in the outer edge part of both movable side fertilizing parts 78 and 79, respectively.

The left movable side fertilizer 78 and the right movable side fertilizer 79 are pivoted and connected to the left and right ends of the support frame portion 70 through the pivoting support arms 81 and 81, respectively, and are horizontally horizontally fed. The posture can be changed to a posture (b) (see Figs. 8 to 10) which springs up substantially perpendicularly to the posture (a) (see Figs. 6 and 7) and directs the discharge portions 80 and 80 downward. have.

In this way, the posture can be changed into a supply posture (a) in which the left movable side fertilization section 78 and the right movable side fertilization section 79 are arranged substantially horizontally, respectively, and a discharge posture (b) which springs up substantially vertically, At the outer ends of both movable side fertilizers 78 and 79, discharging portions 80 and 80 for discharging fertilizer remaining therein are provided, so that both movable side fertilizers 78 and 79 are discharged. By changing the attitude to (b), the respective discharge parts 80 and 80 can be directed downward. Therefore, the residual fertilizer is allowed to fall to each discharge part side by its own weight, and it can discharge easily from each discharge part 80 and 80 simply and reliably. At this time, when the recovery container K (refer FIG. 27) is arrange | positioned in the position directly under each discharge part 80, 80 which is directed downward from the left-right outer side position of the traveling apparatus 1, the said recovery container K The residual fertilizer (H) (refer FIG. 29) discharged in dripping state inside can be recovered easily. In addition, since the discharge operation can be performed without connecting the discharge hose to the supply portion, there is no need to consider the complicated processing of the discharge hose connected to the respective supply portions 72 as in the prior art.

Then, the left side supply operation shaft 82 as the one side supply operation shaft for supplying and operating the upper side supply body 76 to the left movable side fertilizing portion 78 and the right movable side fertilizing portion 79 as shown in FIG. 7, respectively. And the right side supply operation shaft 83 as the other side supply operation shaft. In addition, the left side supply operation shaft 82 and the right side supply operation shaft 83 penetrate the upper part of each upper side supply body 76, extend | stretch in the left-right direction, and are arrange | positioned coaxially. Opposite inner end portions of the two side supply operation shafts 82 and 83 are connected to each other so as to be connected and cut through the clutch portions 84 and 84. Here, as shown in Fig. 12, the clutch portions 84 and 84 are cylindrical sliding bodies 85 and 85, which are externally slidably inserted into the inner end portions of the respective supply operation shafts 82 and 83 in the axial direction thereof. And engaging bodies 86 and 86 formed in a dog clutch shape in a state opposing the inner end portions of the respective sliding bodies 85 and 85. And each sliding body 85 and 85 is elastically biased by the spring 87 and 87 in the opposing direction (direction to connect).

11 and 12, an input side connecting portion 88 is provided on the left side of the right side supplying operation shaft 83, and the same input side connecting portion 88 and the right side supplying operation shaft ( 83) is linked. On the other hand, the output side connecting part 89 is provided in the support frame part 70.

As shown in FIG. 6, the input side connection part 88 is the gear case 90 coaxially and integrally attached to the left side of the right side supply operation shaft 83, and the input side which protruded from the said gear case 90 to the front. It is formed of the connecting shaft 91 and the large-diameter input gear 92 attached to the front end of the same input side connecting shaft 91.

6 and 8 to 12, the output side connecting portion 89 is a transmission case 95 attached to the middle portion of the front side of the lower frame forming body 93 on the right side via a bracket 94; The output side connecting shaft 96 which protruded back from the said transmission case 95, and the small diameter output gear 97 attached to the rear end of the said output side connecting shaft 96 are formed. In addition, the transmission case 95 incorporates a friction drive mechanism.

And also, as shown in FIG. 13, the input gear 92 is meshed with the output gear 97 from upper direction in the supply position a of the right movable side fertilizing part 79 arrange | positioned substantially horizontally, and is connected. On the other hand, the input gear 92 is spaced apart from the output gear 97 in the discharge posture b of the right movable side fertilizing section 79 that has protruded substantially vertically so that the transmission of power is cut off. The input gear 92 and the output gear 97 are molded of synthetic resin in order to ensure a smooth engagement with each other. 98 is a small diameter gear for shift replacement that is detachably attached to the upper frame forming body 99. 100 is a large diameter gear for shift replacement that is detachably attached to the lower frame forming body 93.

In this way, the discharge posture (b) from the supply posture (a) in which the right movable side fertilizing portion 79 is connected by being engaged with the input gear 92 of the input side connecting portion 88 and the output gear 97 of the output side connecting portion 89. Since the input gear 92 is separated from the output gear 97 and the engagement state is released only by changing the posture, it is necessary to perform the connection / cutting operation of the input side connecting portion 88 and the output side connecting portion 89 in order. none. Therefore, the problem that an operator forgets to perform connection / cutting operation of the input side connection part 88 and the output side connection part 89 is eliminated, and operability improves. At this time, the left side supply operation shaft 82 and the right side supply operation shaft 83 are previously disconnected via the clutch portions 84 and 84 to be in a cut state.

6-9, the 1st power take-out which protruded upward from the input shaft 102 which protruded below from the bottom of the transmission case 95, and the upper surface rear part of the said power take-out case 33 mentioned above is shown. Between the shafts 36, the electrically-driven longitudinal shaft 101 extended in the up-down direction is detachably opened. And the input shaft 102 of the transmission case 95 is arrange | positioned in the substantially vertical upper direction of the 1st power take-out shaft 36 of the power take-out case 33, and is opened by shortening the transmission longitudinal shaft 101 in the substantially perpendicular direction. Doing. Therefore, the transmission longitudinal shaft 101 can be made compact and the transmission efficiency can be improved.

As described above, the fertilizer M according to the present invention is a fixed side fertilizer 77 fixed on a pair of left and right fertilizer attachment sheets 48 and 48 provided at the rear of the traveling device 1. And a left movable side fertilizing portion 78 and a right movable side fertilizing portion 79 attached to the fixed side fertilizing portion 77 so that the posture can be changed. And the fertilizer M is detachable to the traveling apparatus 1 as a unit. At this time, by attaching and detaching the lower end of the electric longitudinal shaft 101 to the first power take-off shaft 36 of the power take-out case 33, the fertilizer M is installed on the fixed side fertilizer 77. ) And the electric longitudinal shaft 101 can be attached to and detached from the traveling device 1 integrally as a unit. Therefore, the attachment / detachment workability which attaches and detaches as the unit containing the fertilizer M in the traveling apparatus 1 as the unit containing the transmission case 95 and the electric longitudinal shaft 101 can be improved.

Below, the said support frame part 70, the hopper part 73, the supply part 72, and the fertilizing hose part 74 are demonstrated concretely.

[Support Frame Part 70]

As shown in FIGS. 6-10, the support frame part 70 forms the base part of the said fixed side fertilizing part 77. As shown in FIG. That is, on both the left and right pairs of attachment bodies 110 and 110 formed in an elongated shape in the front-rear direction, the two front and rear pairs of lower frame members 93 and 93 are stretched in a straight line in the left-right direction, both sides. It is attached to the lower frame forming bodies 93 and 93 in the shape provided across the lower surface part of the pair of plate-shaped frame forming bodies 111 and 111, and it is set as an upright shape, and both plate-shaped frame forming bodies 111 and 111 The upper frame forming body 99 which extends linearly in the left-right direction between the front upper side surface parts of () is formed in a three-dimensional frame shape horizontally.

And left and right side parts of the upper and lower frame forming bodies 93, 93, and 98 are provided with a pair of left and right plate-shaped reinforcements 112 and 112 in an upright shape as shown in FIG. Here, the upper frame forming body 99 is formed in rod shape (tubular shape of cross section circular shape). In addition, the lower frame forming bodies 93 and 93 are formed in the shape of a tubular cross section. The plate-shaped reinforcement 112 forms a concave portion 113 that is curved in a concave shape to the rear edge portion at the front end portion, and interferes with the air-pressure duct 114 described later through the concave portion 113. It is provided over each of three frame formation bodies 93, 93, and 98 in the state to avoid.

As shown in FIGS. 10-15, between the lower frame forming bodies 93 and 93, the pair of left and right plate-shaped frame forming bodies are carried out by the circular-shaped pressure-feeding duct 114 extended linearly in the left-right direction. 111 and 111 are installed horizontally. Here, the left end of the pressure blowing duct 114 passes through the plate-shaped frame forming body 111 on the left side, as shown in FIGS. 14 and 15, and on the outer side surface of the plate-shaped frame forming body 111 on the left side. Communication is carried out to the open end 124 of the attached connector 129. On the other hand, the right end of the pressure blowing duct 114 is closed by the plate-shaped frame forming body 111 on the right side.

And as shown in FIG. 15, the left end of the compressed air duct 114 can be connected and cut | disconnected with the compressed air supply part 115, such as a blower. Moreover, the said supply part 72 is connected to the intermediate part of the pressure blowing duct 114, and is communicated. In this way, the fertilizer feeding wind is supplied to each supply part 72 from the pressurized air supply part 115 through the pressurized air duct 114, and the fertilizer supplied from each supply part 72 passes through each fertilizing hose part 74. FIG. It is intermittently condensed and fertilized in the vicinity of the seedlings planted in each seedling planting.

15 and 16, the air blowing supply unit 115 is provided with an inlet port 117 and an outlet port 118 in the main body 116, and the outside air intaken from the inlet port 117 is discharge port part ( 118). Such a pressure blowing air supply part 115 is attached to the supply part attachment body 128 which protruded to the plate-shaped frame formation 111 of the left side through the attachment bracket 119. As shown in FIG. The supply part attachment body 128 is formed in plate shape, and is protruded toward the front in the upright part of the plate-shaped frame formation 111 of the left side in the standing state. And the upper and lower edge parts of the supply part attachment body 128 protrude outward, respectively, and the upper and lower pair of flange pieces 120 and 120 extended in the front-back direction are formed.

The attachment bracket 119 is formed of a bracket body 121 attached to the main body 116 of the press air blowing supply 115 and a pair of upper and lower attachment arms 122 and 122 protruding from the bracket body 121. have. Then, the front end portions of the upper and lower pairs of upper and lower pairs of flange pieces 120 and 120 are pivoted through the pivot shafts 123 and 123 facing the axis in the vertical direction. have. Both pivot axes 123 and 123 are disposed on the same axis extending in the substantially vertical direction. 173 is a connection and fixing tool such as a clamp, and the copper connection and fixing tool 173 is a locking hook 174 installed in the bracket body 121 and a connection operation piece 175 provided in the plate-shaped frame forming member 111. ) And a locking piece 176 are provided. 177 is a space | interval maintenance protrusion provided in the bracket main body 121, and contacts the plate-shaped frame formation 111. As shown in FIG.

In this way, when the pressure blowing air supply part 115 rotates toward the pressure blowing duct 114 centering around the pivot shafts 123 and 123 via the attachment bracket 119, as shown in FIG. The discharge port portion 118 coincides with the opening end 124 of the connecting body 129 which communicates with each other so as to communicate with each other in a communication state (hereinafter, the posture of the pressure-feeding air supply 115 is referred to as the connection posture c ). At this time, the bracket main body 121 of the pressure-feed air supply part 115 is connected and fixed to the plate-shaped frame forming body 111 of the support frame part 70 by the connection / fixing fixture 173.

In addition, when the compressed air supply part 115 rotates in the direction spaced apart from the compressed air duct 114 about the pivot shafts 123 and 123 via the attachment bracket 119, as shown in FIG. The discharge port portion 118 is spaced apart from the opening end portion 124 of the 114 so that both of them can be disconnected (hereinafter, the posture of the pressure-feeding air supply 115 is referred to as a disconnection posture). At this time, the connection and fixation of the plate-shaped frame forming body 111 and the bracket body 121 by the connection and fixing tool 173 are released beforehand. Here, when the pressure blowing air supply unit 115 adopts a disconnection posture, the operation of the pressure blowing air supply unit 115 is forcibly stopped to ensure safety.

In addition, the pressure-feeding air supply part 115 is an interference avoidance attitude d which does not interfere with the left movable side fertilizing part 78 which adopts the disconnection attitude | position which rotated to the maximum, ie, the discharge | emission attitude b, as shown in FIG. It is possible to change the posture. Specifically, when the post blowing air supply unit 115 is changed to the interference avoidance posture d, the upper and lower pair of flange pieces 120 and 120 and the upper and lower pairs of attachment arm pieces 122 and 122 are pivot axes 123. , 123 to form a constant obtuse angle (for example, 135 degrees). In this way, the pressure blowing air supply unit 115 and the left movable body are moved by changing the attitude to an interference avoiding position d disposed outside the rotational trajectory of the left movable side fertilizing unit 78 adopting the discharge attitude b. Interference from the side fertilizing unit 78 is avoided.

Therefore, when changing the posture of the left movable side fertilizer 78 to the discharge posture b, the left movable side fertilization adopting the discharge posture b by changing the posture blowing supply 115 to the interference avoidance posture d in advance. It is possible not to interfere with the unit 78.

The compressed air supply part 115 is made to hold | maintain in the interference avoidance attitude d by the attitude | position holding means 125. As shown in FIG. That is, the attitude | position holding means 125 has the plate-shaped attitude holding body 126 shape | molded by the spring steel in the front part of the flange part 120 of the upper side horizontally and shape (facing the surface to an up-down direction) toward the outer front. The convex convex part 127 which protrudes upward and protrudes upwards at the front-end | tip part of the said posture holding body 126 is formed in the shape which hits from the downward upward.

In this way, in the case of changing the posture blowing supply section 115 to the interference avoidance posture d, the attachment arm piece 122 is rotated forward by resisting the elasticity of the convex portion 127 about the pivot shaft 123. It moves to the position immediately ahead of the convex part 127. In addition, the attachment arm piece 122 is regulated so as not to rotate further forward. Therefore, the compressed air supply unit 115 is maintained in the interference avoidance posture d. When changing the posture of the press air blowing supply 115 into the connection posture c, the convex portion (by rotating the attachment arm piece 122 around the pivot shaft 123 backwards against the elasticity of the convex portion 127). The interference avoidance posture d is canceled by moving to the rear position of 127.

As described above, since the pressure-feeding air supply unit 115 can be held in the interference avoidance posture d by the attitude maintaining means 125, the application device M itself is inclined due to the unevenness of the pavement surface or the like. Even when it blows, the press air supply supply 115 can be kept in the interference avoidance posture d and the interference of the left movable side fertilizing section 78 adopting the discharge posture b can be reliably avoided. In addition, by changing the posture of the pressure blowing air supply unit 115, it is possible to prevent an accident from occurring.

[Hopper section 73]

As shown in FIG. 6, FIG. 18, and FIG. 19, the hopper part 73 is lowered from the lower edge part of the upper formation body 130 formed in the rectangular cylindrical shape which upper and lower surfaces open, and the upper formation body 130. FIG. The lower body 131 is formed to have a funnel shape by gradually reducing the diameter thereof. Then, the upper forming bodies 130, 130, 130 of the three hopper portions 73, 73, 73 are addressed in the adjoining state in the left and right width directions to form a part of the left movable side fertilizing portion 78 described above. The upper forming bodies 130, 130, 130 of the three hopper portions 73, 73, 73 are extended in the adjoining state in the left and right width directions to form a part of the right movable side fertilizing portion 79 described above. The right movable side fertilizer 79 is basically configured similarly to the left movable side fertilizer 78. Therefore, the structure of the left movable side fertilization part 78 is demonstrated concretely below, and about the structure of the right movable side fertilization part 79 of the structural member corresponding to the structural member of the left movable side fertilization part 78 The same code | symbol is abbreviate | omitted and the detailed description is abbreviate | omitted.

The hopper portion 73 is formed of a lightweight, hard material and high rigid synthetic resin (for example, polypropylene), whereby the three hopper portions 73, 73, and 73 that are integrally addressed are left movable side fertilization portions 78 Function as a strength member. That is, the rigidity of the left movable side fertilizing part 78 which made the posture changeable by the supply posture (a) and the discharge posture (b) can be ensured by the three hopper parts 73, 73, 73 as strength members. Doing. Therefore, the left movable side fertilization part 78 can be lightened, and the posture changing operation of the left movable side fertilization part 78 can be performed easily.

As shown in FIG. 19, the sidewalls 132 of the adjacent upper forming bodies 130 and 130 are largely cut out to form a communication port 133 communicating with the sidewall 132 in the left-right direction. 134 is a lid for closing and opening the top openings of the three upper forming bodies 130, 130, 130. In addition, in each upper formation body 130, a sieve network (not shown) is arrange | positioned so that only the fertilizer of a predetermined size or less may be supplied to the supply part 72. FIG.

In this way, the upper forming bodies 130, 130, 130 of the three hopper parts 73, 73, 73 which form a part of the left movable side fertilizing part 78 comrades through the communication port 133,133. Communicating with. And when the left movable side fertilizing part 78 jumped substantially vertically from the horizontal and shape supply attitude (a), and set it as the discharge attitude (b) which directed the said discharge parts 80 and 80 downward, the left movable The fertilizer remaining in the upper part and the intermediate part of the side fertilizing part 78 can flow down to the lower part through the communication ports 133 and 133, and all the fertilizer remaining in the left movable side fertilizing part 78 is discharged | released ( 80) can be reliably discharged.

Moreover, the discharge part 80 for discharging the fertilizer which remains inside is provided in the outer edge part (left edge part) of the left movable side fertilizing part 78. As shown in FIG. That is, the discharge part 80 is the discharge port part 136 formed in the opening shape in the outer side wall (left side wall) 135 of the hopper part 73 arrange | positioned at the outer side end (left side end), as shown in FIG. The storage frame body 137, which is oriented along the circumferential edge of the outlet port 136, the discharge guide body 138 attached to the storage frame body 137 so as to be retractable, and the discharge guide body 138 In order to open and close it, it is comprised by the inner and outer opening / closing cover bodies 139 and 140 which open and close the storage frame body 137.

The inner opening / closing cover body 139 and the outer opening / closing cover body 140 are positioned outside the proximal opening edge portion 141 of the discharge guide body 138 to be attached to the storage frame body 137 so that the cover can be opened and closed. It is. In addition, the guide body accommodating space 142 is formed between the inner opening / closing cover body 139 and the outer opening / closing cover body 140 with the cover closed in the storage frame body 137. In the guide body accommodating space 142, the remaining part except the base opening edge part 141 of the discharge guide body 138 can be accommodated in a folded state.

As shown in FIG. 18, the discharge port part 136 is formed by opening in large rectangle so that the peripheral edge part of the outer side wall (left side wall) 135 of the hopper part 73 may be left a little. The accommodating frame body 137 is formed in a rectangular frame shape along the circumferential edge portion of the outlet port part 136 and is formed in left and right widths to secure the space for accommodating the guide body accommodating space 142, that is, the discharge guide body 138. It is.

The discharge guide body 138 is formed in a tubular shape by a flexible material (for example, nylon), and as shown in FIG. 20, the inner circumference of the storage frame body 137 formed along the circumferential edge of the discharge port part 136. The outer circumferential edge portion of the base end opening edge portion 141 is extended to the edge portion. Therefore, the hopper part 73 which formed the discharge port part 136, and the discharge guide body 138 are communicated through the accommodating frame body 137. As shown in FIG. And the discharge guide body 138 is expandable and contractible, and can be accommodated in the guide body accommodating space 142 formed in the discharge guide body 138 in the short-circuit state by folding | folding in a zigzag shape in this embodiment. In addition, it is possible to ensure the degree of freedom of the installation position of the tip opening portion 144 of the discharge guide body 138 in the extended state by expanding the expanded shape.

That is, in the use posture (i) (see Figs. 27 and 28) in which the discharge guide 138 is vertically lowered in the extended state and in the unused posture (j) (see Figs. 24 and 25) accommodated in the folded state. Posture change is possible. Therefore, in the discharge operation of the residual fertilizer H, the residual fertilizer H is returned to the recovery container K by setting the discharge guide 138 in the use posture i vertically lowered toward the inside of the recovery container K in an extended state. It can recover solidly). In addition, after the discharging operation is completed, the discharging guide 138 is folded into the unused posture j in a shortened state so that the discharging guide 138 does not interfere with subsequent work. Therefore, the freedom of the discharge position of the residual fertilizer H discharged | emitted from the discharge port part 136, the simplicity and robustness of discharge operation improve, and discharge operation performance improves.

As shown in FIGS. 18-20, the inner opening / closing cover body 139 is formed in the shape of a square plate along the inner circumferential surface of the storage frame body 137, and pivots across the lower part of the storage frame body 137 horizontally. The lower edge portion is addressed to the shaft 123. As shown in FIG. 15, the pivot shaft 123 is extended in the front-rear direction and pivoted horizontally in the protruding shape from the storage frame body 137 back and forth. The protruding one end of the pivot shaft 123 is formed with an operating body 145 that is elongated in a shape that is raised upward. The locking piece 146 which protrudes to the side wall side of the storage frame 137 in the upper end of the operation body 145, and the locking receiving piece which provided the locking piece 146 in the side wall of the storage frame 137 ( It is possible to lock / unlock at 47). On the circumferential surface of the protruding other end of the pivot shaft 123, a spring 148 (see FIG. 18) as an elastic biasing body is wound, and the locking piece 146 is attached to the locking receiving piece 147 by the spring 148. Elastic biasing is performed in the locking direction.

In this way, the inner opening / closing cover body 139 is a cover closing posture e for covering and closing the inside of the storage frame body 137 in an upright position, and a cover for opening the inside of the storage frame body 137 in the horizontal and postures. It is possible to change the posture in the open position f. Then, in the lid closing position (e), the locking piece 146 of the operating body 145 is locked to the locking receiving piece 147 provided on the storage frame body 137, and the locking state of the locking member 147 is spring 148. The inner opening / closing lid 139 can be held in the lid closing posture e by elastic biasing. In addition, when it is set as the cover opening position f, from the locking accommodating piece 147 which provided the locking piece 146 of the operating body 145 to the accommodating frame body 137, the elastic biasing force of the spring 148 is carried out. In addition to resisting and detaching (retracting and pulling out), the inner opening / closing cover member 139 is moved in the horizontal and posture of the cover opening posture f by rotating the operating body 145 outward about the axis of the pivot shaft 123. can do.

As shown in FIG. 15 and FIG. 20, the outer opening / closing cover body 140 is provided along the outer circumferential surface of the storage frame body 137 and along the circumference of the main body 171 and the main body 171. The edge portion 149 is formed. The upper edge portion of the main body 171 is pivotally connected to the upper edge portion of the storage frame body 137. In this way, the outer opening / closing lid 140 covers the lid closing posture g for closing and closing the outer side of the storage frame 137 in a vertically lowering position, and the outer side of the housing frame 137 in a upwardly upward position. It is possible to change the posture in the lid opening posture h to open the lid. Here, in the lid closing posture g, the lower edge portion 150 of the outer opening / closing lid 140 is engaged with the locking piece 172 provided on the lower surface portion 151 of the housing frame 137.

The guide receiving space 142 is formed between the inner opening / closing cover body 139 and the outer opening / closing cover body 140 configured as described above, and the discharge guide body 138 is disposed in the guide receiving space 142. I can receive it in a folded state. That is, by making the inner opening / closing cover member 139 in the cover closing position (e), the outlet 136 can be closed and the inside of the storage frame body 137 can be closed. At this time, the remaining portion of the discharge guide body 138 except for the proximal opening edge portion 141 may be disposed on the guide receiving space 142 side. Then, the discharge guide 138 in the extended state is stored in the guide body accommodating space 142 in a folded state. Subsequently, the outer opening / closing lid 140 is placed in the lid closing position g. In this way, the discharge guide body 138 can be made simple in structure in the guide body accommodation space 142, and it can be stored compactly and simply, and can be made into the unused state. When the discharge guide member 138 is drawn out from within the guide body receiving space 142, the user can simply take it out and put it into a use state by following the reverse order of the above-described storage order. In addition, since the inner and outer opening and closing cover bodies 139 and 140 are provided in the discharge part 80, the cover closure property of each discharge part can be ensured favorably.

Moreover, the left movable side fertilization part 78 is pivotally connected to the left end of the said support frame part 70 via the rotation support arm 81 as shown in FIG. The pivotal support arm 81 is provided with a front and rear pair of pivotal support arms 103 and 103 extending in the vertical direction, and a speech piece 152 provided between the tip portions of both pivotal support arms 103 and 103, and both sides. It is formed in the shape of a square frame when viewed from the side with the reinforcing piece 153 provided between the base parts of the rotation support arms 103 and 103. As shown in FIG. 154 is a hopper connecting bracket. Moreover, the pivot connecting part 155 is provided in the upper part of the outer side of the plate-shaped frame formation 111 of the left side which forms a part of the support frame part 70, and the said pivot connecting part 155 is a pair of front and back. The pivotal shaft 157 extending in the front-rear direction through the pivot brackets 156, 156 is provided so that the front-rear ends 158, 159 have a protruding shape. The proximal end portions 158 and 159 are rotatably fitted with the proximal ends of the above-described forward and backward pairs of the pivotal support arms 81 and 81 via the boss portions 160 and 161. In this way, the rotation support arm 81 is pivotally connected to the rotation axis 157 so that rotation is possible.

6, the left edge part of the left movable side fertilizing part 78 is made to speak to the speech piece 152 of the rotation support arm 81. As shown in FIG. That is, the upper edge part of the lower formation 131 of the hopper part 73 located in the left end part of the left movable side fertilizing part 78 is made to the speech piece 152 of the rotation support arm 81. Moreover, the lower edge part of the lower formation body 131 of the hopper part 73 is connected to the hopper part connection bracket 154 of the rotation support arm 81. In this way, the left movable side fertilizer 78 is pivotally connected to the left end of the support frame 70 through the pivoting support arm 81 so that the pivot axis 157 of the pivot connecting portion 155 is centered. It is possible to rotate the posture by rotating the supply posture (a) in the transverse and state and the discharge posture (b) in the jumping state.

6 and 8, contact surfaces 162 and 162 are formed at the proximal end portions of the pair of forward and backward rotation support arms 103 and 103, respectively. Then, when the left movable side fertilizing portion 78 is rotated in a shape of jumping through the pivotal support arm 81, the contact surfaces 162 and 162 formed on the proximal edges of the pivotal support arms 103 and 103 are formed on the left side plate. The rotation of the left movable side fertilizing section 78 in the direction of jumping in contact with the outer surface of the shape frame forming member 111 is regulated at a constant rotational angle θ (for example, 115 degrees). In other words, the left movable side fertilizing section 78 adopts the discharge posture b at such a constant rotational angle θ. Here, the rotational angle θ is an obtuse angle, whereby the center of gravity position G of the left movable side fertilizing unit 78 in the discharge posture b is outside the rotational axis 157 of the pivot connecting portion 155. It is located in the room.

Therefore, the left movable side fertilizer 78 is pivotally regulated to the discharge posture b in the standing position, which is substantially vertical, and is kept stable. Therefore, there is no necessity to provide a means for fixing the left movable side fertilizing section 78 in such a discharge posture b, and no effort is required to release the fixed state and change the posture to the supply posture a. As a result, the operation | work which discharges residual fertilizer from the discharge part 80 can be performed efficiently.

In addition, as shown in FIG. 15, the support arm 163 protrudes toward the rear side downward from the middle part of the rotation support arm 103 of the rear side. The left end of the cylindrical auxiliary frame 164 extending in the left-right direction is spoken to the front end of the support arm 163. 165 is a reinforcing piece which is extended in the polymerization state on the lower surface of the left end of the auxiliary frame 164. In addition, the auxiliary frame 164 connects the intermediate portion through the three supply portions 72 and the connecting pieces 166 to be horizontally behind the three supply portions 72, and the right end of the left movable side fertilization portion 78 It is located in the inner side of the). The auxiliary frame container 167 protrudes toward the rear side upper part in the upper part of the rear end of the plate-shaped frame formation 111 of the left side. At the distal end of the auxiliary frame container 167, an accommodating recess 168 for accommodating the auxiliary frame 164 is formed.

In this way, when making the left movable side fertilization part 78 into a supplying posture a, the left end part (base end part) of the auxiliary frame 164 is engaged with the receiving recess 168 from upper direction, and the left movable side fertilization part 78 The proximal end of can be positioned at an appropriate supply position (a). And the left movable side fertilization part 78 is engaged by the engagement recessed part 170 of the support leg 169 which is the front end side of the left movable side fertilization part 78 mentioned later firmly to the upper frame forming body 99. The leading end side of can also be positioned in the appropriate feeding position (a) position.

As shown in FIG. 11 and FIG. 12, the operation | movement holding body 180 is provided in the left movable side fertilizing part 78 as a holding body at the time of performing a posture change operation by supplying posture a and discharge posture b. have. That is, among the three hopper parts 73 provided in the left movable side fertilizing part 78, the lower part of the front part of the lower formation body 131 of the hopper part 73 of the center part, and the lower part of the hopper part 73 of the inner part part are formed. The operation holding body 180 is laterally interposed between the outer surface portions of the sieve 131 via the first supporting arm body and the second supporting arm bodies 181 and 182. Here, the operation holding body 180 is the second right from the right end of the left and right stretching portion 183 and the same left and right stretching portion 183 extending along the front surface of the hopper portion 73 in the center and the inner portion. It is formed in the shape of a hook when viewed in plan from the front and rear stretching portion 185 extending in the front-rear direction toward the distal end of the support arm 182.

As shown in FIG. 12, the pivot body 186 protrudes inward to the distal end of the second support arm 182, and the pivot body 186 pivots the intermediate portion of the operating lever body 187. The operation lever body 187 connects and cuts the clutch portion 84 provided at the inner end of the left supply operation shaft 82. That is, when the operation lever body 187 is planarly viewed by the front-back stretching piece 188 extended in the front-back direction, and the outer side drawing piece 189 extended outward from the front end of the front-back stretching piece 188. It is formed in a hook shape. In addition, the front and rear stretching pieces 188 are pivoted by the pivot pin 190 facing the axis in the up and down direction to the pivot body 186, and engaged with the sliding body 85 of the clutch portion 84. The rear end 192 can be engaged with the flange piece 191 for the purpose. 193 also shown in FIG. 6 is a regulation pin, The regulation pin 193 is provided in line with the front end of the front-back stretched piece 188, and rotates to the outer side stretched piece 189 side of the front-back stretched piece 188. As shown in FIG. It is regulated through the operation holding body 180.

Here, in the state which the control pin 193 contacts the operation holding body 180, and restrict | limits rotation to the outer side extending | stretching piece 189 side of the front-back stretching piece 188, the operation holding body 180 The outer side extending | stretching piece 189 of the operation lever body 187 with respect to the left-right extending | stretching part 183 of this is adopted so that the free end side may be gradually spaced apart. And when the outer side extending | stretching piece 189 of the operating lever body 187 of this state is gripped with the left-right extending part 183 of the operation holding body 180, the operating lever body 187 will pivot pivot 190. ), The rear end 192 is engaged with the engagement flange piece 191 formed on the sliding body 85 of the clutch unit 84, and the sliding unit 85 is slid to the right clutch unit ( 84 can be disconnected, i.e. disconnected. Therefore, the left movable side fertilizer 78 is held without returning the hand while holding the outer side extension piece 189 of the operation lever body 187 and the left and right extension parts 183 of the operation holding body 180. The following operation of changing the posture from the supplying posture (a) to the discharge posture (b) can be continuously and smoothly performed.

6 and 18, the rear end portion (base end) of the front and rear stretching portion 185 of the operation holding body 180 and the second support arm body (as shown in FIGS. 6 and 18) are provided at the inner end of the left movable side fertilizing portion 78. The support leg 169 hangs down from the speech part of 182, and is installed. The lower end of the support leg 169 is engaged with the support frame 70 in the supply posture a so as to position the left movable side fertilizer 78.

That is, the support leg 169 is formed in cross-section L shape from the plate-shaped left-right side surface 194 and the front-back surface part 195 extended in the up-down direction. The left and right side surface portions 194 gradually form a front and rear width in a wide width from the upper end to the lower end, and form an engagement recess 170 (see FIG. 10) having a semicircular concave shape upwards at the lower end. The support frame 169 is formed of the upper frame member 99 formed in a tubular shape having a circular cross section from the rear end (base end) of the front and rear extension part 185 and the protruding part of the second support arm 182. It is provided so that it may be arranged in a straight line shape, and the said engagement recessed part 170 may be engaged and disengaged to upper frame forming body 99 in substantially orthogonal state from upper direction. Here, in the state in which the engagement recessed portion 170 is engaged with the upper frame forming body 99, the movement in the front-rear direction and the downward direction of the left movable side fertilizing portion 78 is restricted, and the left movable side fertilizing portion 78 ) Positioning in the forward and backward directions and in the downward direction. Further, the engaging recess 170 is provided with a buffer such as a rubber material along the inner edge thereof, and the engaging recess 170 can be engaged with the upper frame member 99 through the buffer. It may be.

Thus, from the inner end of the left movable side fertilizing part 78, ie, the rear end (base end) of the front-rear stretching part 185 of the operation holding body 180 mentioned above, and the extending part of the 2nd support arm 182. The upper frame forming body 99 of the support frame part 70 is provided with the engagement recessed part 170 formed in the lower end part of the said support leg body 169 in a supplying posture a by arranging and supporting the support leg 169. ) Is engaged. At this time, since the support leg 169 is attached to the proximal end side of the gripper 180 for operation, the gripper 180 is gripped and the support leg 169 is attached to the upper frame forming body 99. The handle operation for engaging the engagement recess 170 can be performed simply and reliably. As a result, the left movable side fertilization part 78 can be firmly positioned in the supplying posture a. Therefore, the posture change from the positioned supply posture a to the discharge posture b can also be performed smoothly, and the ejection work can be efficiently performed.

And the engagement recessed part 170 formed in the lower end part of the support leg 169 by holding the operation holding body 180 in the rod-shaped upper frame forming body 99 provided in the support frame part 70 is carried out. Since it can be engaged in a substantially orthogonal state from above, the left movable side fertilizing part 78 can be made simple by structurally simplifying to a supply posture a, and it can position reliably. In addition, when the engagement recessed part 170 can be engaged with the upper frame forming body 99 via the buffer body, the upper frame forming body 99 and the upper frame forming body 99 are operated in accordance with the posture changing operation of the left movable side fertilizing unit 78. When the engagement recesses 170 are engaged, damage or the like can be prevented from occurring.

The left movable side fertilization part 78 was seen from the front by the support frame part 70, the said rotation support arm 81, and the said support leg 169 in the supply posture a of substantially horizontal transverse direction. The frame-shaped positioning body F which is formed in a frame shape when viewed from the time or the rear side is formed (see FIG. 13; 13 is an explanatory view of the attitude change of the right movable side fertilizing unit 79, but the frame-like positioning body F is similarly formed for the left movable side fertilizing unit 78].

That is, in the supply posture (a), the operation holding body 180 is attached to the inner end of the left movable side fertilizing unit 78 via the first supporting arm body and the second supporting arm bodies 181 and 182, and is tuned. The support leg 169 is lined up from the rear end (base end) of the front-back stretched part 185 of the working holding body 180, and is provided. And the upper frame formation of the support frame part 70 is made by engaging the engagement recessed part 170 formed in the lower end part of the support leg 169 with the upper frame forming body 99 of the said support frame part 70. Sieve 99, pivot support arm 81, left movable side fertilizer 78, first support arm and second support arm 181, 182, operation gripping member 180 and support leg 169. The frame shape positioning body F is formed by this. By forming such a frame-shaped positioning body F, the left movable side fertilizer 78 is simply and reliably positioned when changing the posture of the left movable side fertilizer 78 from the discharge pose b to the supply attitude a. You can decide.

Here, in the case of the right movable side fertilizer 79 described above, when the posture is changed from the discharge posture b to the supply posture a, the input gear 92 is connected to the output gear 97 by being engaged from above. Since the feed posture a is reliably positioned by the formation of the frame-shaped positioning body F, the engagement and connection of the input gear 92 and the output gear 97 can be smoothly and reliably performed. And the position shift of the upper side supply body 76 provided in the left movable side fertilizing part 78 and the lower side supply body 75 provided in the support frame part 70 can be prevented, and both side supply bodies 75 are provided. , 76) can be satisfactorily secured. In addition, the fertilizer M may have a frame structure and its rigidity can be increased.

As shown in FIG. 6, FIG. 8, FIG. 13, and FIG. 18, it connects between the lower end part of the pivot body 186 and the upper end part of the plate-shaped connection support body 197 formed and formed from the said upper frame formation body 99. As shown in FIG. Fixing tool (so-called clasp in this embodiment) 198 is established. That is, the connecting and fixing tool 198 is formed by bending the locking hook 199 to the lower end of the pivot body 186 in a concave shape downward, as shown in FIGS. 13 and 18, while the connecting support 197 is formed. The locking piece 201 formed in the door shape through the connection operation piece 200 is attached to the upper end of the structure. Compression springs 202 and 202 are provided in the left and right intermediate parts of the locking piece 201 to elastically bias the intermediate part of the locking piece 201 in the contracting direction in a stretchable manner.

In this way, the locking piece 201 is locked to the locking hook 199 through the connection operation piece 200, and the locking piece 201 is pressed through the connection operation piece 200 in the same state as the compression springs 202 and 202. The inner end portion of the left movable side fertilizing portion 78 can be connected and fixed to the support frame portion 70 in a pressing biasing state by tensioning downward to resist elastic biasing. Therefore, when carrying out a fertilizing operation with the left movable side fertilizing part 78 in the supply posture a, as described above, the locking piece 201 is locked to the locking hook 199 through the connection operation piece 200. The rigid frame-like positioning body F is formed by connecting and fixing the inner end portion of the left movable side fertilizing portion 78 to the supporting frame portion 70. In addition, when performing the operation | movement of residual fertilizer with the left movable side fertilizing part 78 as the discharge | emission attitude b, the locking piece 201 is previously removed from the locking hook 199 via the connection operation piece 200 mentioned above. It unlocks and releases connection and fixation of the inner edge part of the left movable side fertilization part 78 and the support frame part 70. As shown in FIG.

As described above, the pivotal support arm 81 is attached to the left end of the support frame portion 70. That is, the pivot support arm 81 is a pair of front and rear pivot support arms 103 opposed to the axis direction through the pivot axis 157 facing the axis in the direction orthogonal to the stretching direction of the support frame part 70. The base end of 103 is being pivoted. Then, the outer surface portion of the hopper portion 73 formed in a box shape is extended to the speech piece 152 provided between the tip ends of both side pivot support arms 103 and 103 to form a rectangular frame shape when viewed from the side. A three-dimensional frame-shaped positioning body F having a depth in the axial direction of the pivot axis 157 is formed.

Therefore, the rigidity of the frame-shaped positioning structure can be further increased. As a result, the positioning at the time of changing the left movable side fertilizing section 78 from the discharge posture b to the supply posture a is robust. And since the supplying posture a is positioned steadily, the smoothness and robustness of the engagement and connection of the input gear 92 and the output gear 97 can be improved.

In addition, the rigidity of the fertilizing device M having a frame structure can be further increased. As a result, the support structure of the left movable side fertilization section 78 can also be made firm, and the posture changing operation of the left movable side fertilization section 78 can be secured satisfactorily.

[Supply section 72]

As shown in FIGS. 8-10, each supply part 72 is formed so that the said upper side supply body 76 and the lower side supply body 75 can be isolate | separated and joined. Here, the upper side supply body 76 communicates with the hopper part 73 provided directly upward, and forms a part of above-mentioned left side or right side movable side fertilizing parts 78 and 79. As shown in FIG. On the other hand, the lower side supply body 75 forms the fixed side fertilizing part 77 by the support frame part 70 mentioned above and the fertilizing hose part mentioned later.

As shown in FIG. 19, the upper side supply body 76 is formed by connecting and carrying in the carrying case 210, the mechanism case 211, and the supply case 212 in the up-down direction sequentially.

Carrying case 210 is a case formed in a funnel shape by stretching the upper connecting piece 213 formed in a rectangular frame shape with the upper and lower surfaces opened in a axial diameter gradually from the lower peripheral edge of the upper connecting piece 213 toward the rear side downward. It is formed by the main body 214. And the upper end piece 213 is inserted in the lower end opening part 215 of the lower formation body 131 of the hopper part 73, and is connected. In addition, the left and right side surface parts 216 and 216 of the case main body 214 become substantially vertical surface, as shown in FIG. 12, and have a horizontal cross-sectional square shape. In the carry-in case 210, the carry-in path 217 which naturally throws fertilizer into its own weight from the hopper part 73 to the supply part 72 is formed. After fertilization, fertilizer may remain in the carrying-in path 217 of this carrying case 210, and the residual fertilizer remaining in this carrying-in 217 is easily and steadily from the said discharge part 80, It also allows for quick discharge.

That is, as shown in FIG. 8, the axis P of the carry-in case 210 of the upper side supply body 76 is set so that the hopper part 73 side may be inclined downward in the discharge attitude | position b, and an upper side supply body is shown. Fertilizer remaining in the carrying case 210 of 76 passes through the hopper part 73, and is discharged | emitted from the discharge part 80. FIG. In this way, the fertilizer remaining in the carrying case 210 can also be discharged | emitted from the discharge part 80 steadily only by making the left movable side fertilization part 78 into the discharge | emission attitude b. Therefore, the discharge work efficiency of residual fertilizer can be improved.

In the discharge posture b, the lower main wall surface, that is, the left movable side fertilizing portion 78, is formed such that the left surface portion 216 is inclined downward toward the hopper portion 73 side. In the present embodiment, the left wall portion 135 is rotated by rotating the left movable side fertilizing portion 78 in a bouncing shape until the rotational angle θ of the left movable side fertilizing portion 78 forms an obtuse angle of 115 degrees, for example. ) Is inclined downward toward the hopper portion 73 side. In this way, the fertilizer remaining in the carry-in case 210 can flow down along the left wall part 135 only by making the left movable side fertilization part 78 into discharge | emission attitude b, and is firm through the hopper part 73. Can be discharged from the discharge unit (80). Therefore, also from this point, the discharge work efficiency of residual fertilizer can be improved.

As shown in FIG. 19, the mechanism case 211 drives a grating accommodating case piece 221 accommodating grating 220 and a drive mechanism 222 for supplying and driving the grating 220. The case piece 223 is provided. The grating accommodating case piece 221 communicates the front part at the lower end of the carrying case 210. 224 is a bottom opening. The drive case piece 223 is formed in the shape projecting upward from the center part of the grating accommodating case piece 221, and is arrange | positioned behind the carrying case 210. As shown in FIG. The drive mechanism 222 accommodated in the drive case piece 223 is provided so that the supply shaft 225 which faces an axis line in the up-down direction can be rotated about the axis line in the inclined attitude | position of the front and rear. The intermediate part of the left or right supply operation shafts 82 and 83 is interlocked with the upper end of the supply shaft 225 through the bevel gears 226 and 226. In addition, the rotation center of the grating 220 is attached to the middle part of the supply shaft 225.

The supply case 212 connects the upper end opening 230 to the lower end opening 215 of the grating accommodating case piece 221 in a detachable manner. The supply case 212 is gradually formed downward from the upper end opening 230 in the shape of a circular funnel having an axial diameter, and forms a circular supply opening 231 as an opening edge at the lower end. As shown in FIG. 21, the upper flange piece 232 of a flange shape is formed in the lower edge opening edge part 254 of the supply port part 231. As shown in FIG. 233 is a scraping piece attached to the lower end of the supply shaft 225.

As shown in FIG. 18 and FIG. 19, the lower side supply body 75 connects the tubular body 240 extended in the front-back direction, and the connection body 241 which communicated and communicated with the upper peripheral surface middle part of the tubular body 240. As shown in FIG. It is formed. In addition, the tubular body 240 connects the front end portion to the rear circumferential middle portion of the pressure blowing duct 114. In addition, the tubular body 240 is provided with the attachment piece 242 lined up in the lower peripheral surface middle part, and the tubular body 240 is connected to the lower frame forming body 93 of the back side through the said attachment piece 242. The middle part is attached.

As shown also in FIG. 21, the connecting body 241 is formed in the short width cylinder shape which an upper and lower surface opens, and communicates the lower opening edge part with the upper peripheral surface middle part of the tubular body 240. And the connecting body 241 is connected to the supply case 212 of the upper side supply body 76 coaxially with the upper opening edge part 255 in the supply position (a) of the left movable side fertilization part 78. Is opening. 243 is a lower flange piece formed on the outer circumferential surface of the upper opening edge portion 254 of the connecting body 241.

In this way, when it is set as the supply attitude (a) of the left movable side fertilizing part 78, the lower opening edge part of the upper side supply body 76 and the upper opening edge part of the lower side supply body 75 will be matched up-down direction, The upper flange piece 232 of the upper side supply body 76 and the lower side flange piece 243 of the lower side supply body 76 face each other in the up-down direction through a gasket body 245 described later to communicate with each other. To be connected. At this time, each lower side supply body 76 supports each upper side supply body 76 from below.

The gasket body 245 as a sealing material attached to the supply port part 231 of the said upper side supply body 76 is demonstrated. That is, the gasket body 245 is the ring-shaped mounting body 246 attached to the upper flange piece 232 formed in the lower opening edge part of the upper side supply body 76, as shown to FIG. 21 and FIG. And a ring-shaped container 247 for accommodating the lower flange piece 243 formed in the upper opening edge portion 254 of the lower supply body 75 so as to be spaced apart from each other and to be in close contact with each other. On the receiving surface side of the container 247, concentric short-width cylindrical inner and outer contact pieces 248 and 249 are protruded in a radial direction so as to bend and deform.

More specifically, in this embodiment, the mounting body 246 and the receptor 247 can be integrally molded from a rubber material (for example, EPDM which is a terpolymer of ethylene, propylene, and a diene monomer for crosslinking). That is, in the inner circumferential surface of the main body 250 which is gradually enlarged from the upper end to the lower end and formed into a skirt shape, the locking piece 251 by integrally attaching the outer peripheral edge of the ring-shaped locking piece 251 to the upper peripheral part. To form the mounting body 246 which protrudes inwardly of the main body 250, and attaches the outer peripheral edge of the ring-shaped container 247 integrally to the periphery of the middle part, and the said container 247 The upper peripheral edge portions of the inner and outer contact pieces 248 and 249 in the concentric short width cylindrical shape are integrally attached to the receiving surface side (lower surface) of the inner surface. The inner and outer adhesion pieces 248 and 249 are each formed in a skirt shape gradually expanding from the upper end to the lower end, disposed in the main body 250, and are substantially parallel to the main body 250.

In this way, when the left movable side fertilizing part 78 is made into the supplying posture a, the main body 250 of the gasket body 245 attached to the upper side supply body 76 is the opening of the lower side supply body 75. The edge portion is covered from above. Then, the inner and outer contact pieces 248 and 249 are urged from below by the opening edge portion of the lower side supply body 75. At this time, the inner and outer contact pieces 248 and 249 are bent and deformed to the outside, respectively, so that the inner circumferential surfaces 252 and 253 of each inner and outer contact pieces 248 and 249 are the upper end faces 256 of the lower side supply body 75. ) Is in surface contact.

Therefore, the gasket body 245 can ensure the sealing property of the connection part of the upper and lower side supply bodies 76 and 75 which communicate with the supply posture a. In addition, the upper and lower opening edges 255 of the upper and lower side supply bodies 76 and 75 repeating the separation and joining at the time of changing the posture of the feeding posture (a) and the discharge posture (b) of the left movable side fertilizing section. 254) can be protected and good sealing can be ensured.

Here, as described above, when the posture is changed from the discharge posture (b) to the supply posture (a), the engaging recess 170 of the support leg 169 is engaged with the upper frame forming body 99 so that the frame-shaped positioning body (F) is formed. Therefore, the movement in the front-rear direction and the downward direction of the left movable side fertilization section 78 is restricted, and the positioning in the front-rear direction and the downward direction of the left movable side fertilization section 78 is achieved. Then, by positioning the supply posture (a), the position shift between the upper side supply body 76 provided on the left movable side fertilizing section 78 and the lower side supply body 75 provided on the support frame portion 70 is eliminated. It can prevent, and the suitability and connection property of both supply bodies 75 and 76 can be ensured favorably.

As a result, the wear and the like of the gasket body 245 provided between the both side feed bodies 75 and 76 can be reduced, and the life span can be extended as much as possible. In addition, the left movable side fertilizing portion whose posture is changed into the discharge posture b and the supply posture a by firmly supporting the upper feeder 76 through the gasket body 245. The supplying posture a of 78) can be satisfactorily secured. As a result, the supply performance of the supply part 72 can be kept favorable.

Moreover, when the left movable side fertilization part 78 adopts the discharge | emission attitude b, the container 247 of the gasket body 245 attached to the lower opening edge part 254 of the said upper side supply body 76 was carried out. Can be easily spaced apart from the upper opening edge of the lower side supply body 75, and the left movable side fertilizing part 78 can be made into the discharge | emission attitude b smoothly.

When attaching the gasket body 245 to the upper side supply body 76, the mounting body 246 is attached to the flange side upper side flange piece 232 formed in the lower peripheral edge part of the supply port part 231. . At this time, the ring-shaped locking piece 251 of the mounting body 246 is locked to the upper circumferential surface of the upper flange piece 232, the lower circumferential surface of the locking piece 251 and the upper circumferential surface of the receiver 247 Thus, the upper and lower circumferential surfaces of the flange piece 232 are firmly clamped. Therefore, even when the left movable side fertilizer 78 is frequently changed in posture from the supply posture (a) to the discharge posture (b), the gasket body 245 is easy from the flange piece 232 of the upper side supply body 76. There is no deviation.

In addition, although the gasket body 245 was attached to the lower opening edge part 255 of the upper side supply body 76 as mentioned above in this embodiment, the upper opening edge part 254 of the lower side supply body 75 is carried out. Can also be mounted on. In this case, the gasket body 245 can be used upside down.

As described above, in the supply portion 72 of the left movable side fertilizing portion 78 in the feeding posture (a), the upper side supply body 76 supplies the fertilizer supplied from the hopper portion 73 by a predetermined amount to the lower side supply body ( 75 is intermittently supplied to the tubular body 240. In addition, pressurized wind is supplied to the tubular body 240 through the pressurized air duct 114. Therefore, the fertilizer supplied to the tubular body 240 is fertilized by the fertilizing hose part 74 mentioned later by a pressurized wind.

[Fertilizing hose part 74]

As shown in FIG. 1, FIG. 2, and FIG. 5, the fertilizing hose part 74 has the base end side fertilizing hose body 260 which has flexibility, the intermediate fertilizing hose body 261 which has rigidity, and And the tip side fertilizing hose body 262 having elasticity. And the fertilizing hose part 74 is connected to the rear end of the tubular body 240 of each supply part 72, and each fertilizing operation can be carried out through each fertilization hose part 74 through each fertilizing hose part 74. FIG.

The intermediate fertilizing hose body 261 is a hard material (for example, polypropylene), as shown in FIG. 23 and FIG. 24, and is formed in the length extended in the up-down direction from the center part of the seedling stand 58 to the lower end part. . The intermediate fertilization hose body 261 is provided between the seedling stand 58 and the lateral transfer mechanism 59. In the intermediate portion of the intermediate fertilizing hose body 261, a avoiding concave portion 263 is formed in the middle portion of the intermediate fertilizing hose body 261 in order to avoid interference with other objects and the lateral transfer mechanism 59. In addition, the internal flow path cross sectional area of the avoidance recess 263 is substantially the same as the other internal flow path cross sectional area of the intermediate fertilization hose body 261.

In this way, the intermediate portion of the intermediate fertilization hose body 261 is formed with a avoidance recess 263 for avoiding interference with the lateral transfer mechanism 59, and the internal flow path cross-sectional area of the avoidance recess 263 is Since it becomes substantially the same as another internal flow path cross section area, the conveyance of a fertilizer can be ensured favorably, avoiding interference with the lateral feed mechanism 59. FIG.

Moreover, the base end side fertilizing hose body 260 detachably connects the base end to the tubular body 240, and connects the front end to the base end (upper end) of the intermediate fertilizing hose body 261. As shown in FIG. The intermediate fertilization hose body 261 is provided as mentioned above, and the front end (lower end) is connected to the base end of the front end side fertilizing hose body 262. The tip side fertilizing hose body 262 is connected to the porter 264 which attached the front end to each float 61 and 62. As shown in FIG. In this way, the fertilizer intermittently conveyed from the tubular body 240 was constructed by the proximal fertilization hose body 260 → the intermediate fertilization hose body 261 → the distal fertilizing hose body 262 → the grinder 264. It is to be fertilized in the groove.

[Sequence to discharge residual fertilizer]

Next, an example of the operation | movement of the residual amount fertilizer is shown.

(1) As shown in FIG. 25, in the left movable side fertilizing part 78 made into the supply posture (a), as shown in FIG. 26, the outer opening / closing cover body 140 of the discharge part 80 is a lid opening position. (h) Then, the compressed air supply unit 115 is set as the interference avoidance posture d from the connection posture c. Specifically, the attachment arm piece 122 is rotated forward with respect to the elasticity of the convex portion 127 about the pivot shaft 123 to move to the position immediately forward of the convex portion 127.

(2) As shown in FIG. 27, the tip opening part of the discharge guide body 138 in the collection container K which draws out the discharge guide body 138 accommodated in the guide body accommodation space 142, and arrange | positions it directly underneath. Is inserted (the discharge guide 138 is in the use state (i)).

(3) As shown in FIG. 27, the connection and fixing tool 198 is operated by aboard the traveling device 1 from the ground. That is, the connection and fixation of the inner end portion of the left movable side fertilizing portion 78 and the support frame portion 70 formed by the rigid frame-like positioning body F are disconnected and fixed. Specifically, the locking piece 201 is unlocked from the locking hook 199 via the coupling operation piece 200 of the coupling / fixture tool 198.

(4) As shown in FIG. 27, the outer side extending | stretching piece 189 of the operation lever body 187 is gripped with the left-right extending part 183 of the operation holding body 180. FIG. Then, the operation lever body 187 is rotated about the pivot pin 190, and the clutch part 84 is cut | disconnected.

(5) As shown in FIG. 28, the left side of the operation lever body 187 is held on its left side without returning the hand in the state in which the outer side extension piece 189 and the left and right extension parts 183 of the operation holding body 180 are gripped. The movable side fertilizing section 78 is changed in posture from the supplying posture a to the discharge posture b. At this time, the left movable side fertilizing section 78 is adapted to adopt the discharge posture b at a constant rotational angle θ. Further, the rotational angle θ is an obtuse angle, whereby the center of gravity position G of the left movable side fertilizing unit 78 in the discharge posture b is outward from the pivoting axis 157 of the pivot connecting portion 155. To be located in. Therefore, the left movable side fertilizer 78 is pivotally regulated to the discharge posture b in the standing position, which is substantially vertical, and is kept stable. Further, when the right movable side fertilizing section 79 is in the discharge posture b, the input gear 92 is separated from the output gear 97 to release the engaged state, thereby cutting off the transmission of power.

(6) As shown in FIG. 28 and FIG. 29, by operating the operating body 145 and making the inner opening / closing cover body 139 into the cover opening position f, opening the discharge port part 136, and also a storage frame body The inside of 137 is opened with a lid. In this case, the fertilizer remaining in the carrying case 210 can flow down along the left side surface part 216, and can be discharged | emitted from the discharge part 80 to recovery container K solidly through the hopper part 73. FIG.

(7) After the residual fertilizer H is discharged from the fertilizer M, the fertilizer M can be returned to the original feeding posture a by following the reverse order.

A: passenger electric machine M: fertilizer
1: traveling device 2: lifting device
3: planting device 70: support frame portion
72 supply part 73 hopper part
74: fertilizing hose portion 77: fixed side fertilizing portion
78: left movable side fertilizing unit 79: right movable side fertilizing unit
80 discharge part

Claims (18)

As a fertilizer in which a plurality of supply portions are attached to the support frame portion extending in one direction along the stretching direction, and each of the supply portions communicates with the hopper portion.
Each supply part is formed to be separable and joined to a lower side supply body and an upper side supply body to attach the lower side supply body to the support frame part to form a fixed side fertilization part, while the upper side supply body to each hopper part. Communicating one side to form one movable side fertilizer and the other movable side fertilizer, and the discharge end for discharging the fertilizer which remains inside at the outer end of both movable side fertilizers;
The one movable side fertilizer and the other movable side fertilizer are pivoted and connected to the side end portions of the support frame, respectively, so that the posture can be changed to an ejection posture which is protruded substantially vertically to the horizontally lateral supply posture and directed the outlet downward. Fertilizer device characterized in that. The method of claim 1,
Each discharge portion is connected to the outer end of each movable side fertilizer portion in a cylindrical shape and connects the proximal end portion of the stretchable discharge guide body, where each discharge guide body is vertically lowered in an extended state and stored in a shortened state. Fertilizer device characterized in that the posture can be changed to a posture. The method of claim 2,
Each said discharge part is attached to the outer end of each said movable side fertilization part, and an inner opening and closing cover body and an outer opening and closing cover body are located in the outer side of the proximal edge of the discharge guide body so that a cover can be opened and closed, and an inner opening and closing cover body and an outer opening and closing cover A fertilizer, characterized in that the guide receiving space is formed between the sieves so that the remaining portion except for the proximal edge of the discharge guide can be accommodated in the guide receiving space in a shortened state. The method of claim 1,
The one side operation side fertilizer and the other side operation side fertilizer are arranged coaxially with one side supply operation shaft and the other side supply operation shaft for supplying and operating the upper side supply body, respectively, and connect the opposing inner ends of both side supply operation shafts. Connecting disconnectably;
The one side movable side fertilizer is provided with an input side connection part which is interlocked with one side supply operation shaft, and is connected to an output side connection part where the input side connection part is installed on the supporting frame part in the supply posture of one side movable side fertilization part, and the discharge posture of one side movable side fertilizer part. The fertilizer device, characterized in that the input side connection portion is cut from the output side connection portion. The method of claim 4, wherein
The input side connecting portion is formed by axially supporting the input gear on the inner end of the one side movable side fertilization portion so as to be movable, while the output side connecting portion is formed by axially supporting the output gear provided on the support frame portion. A fertilizer, characterized in that the input gear is engaged with the output gear from above in the feeding posture of the movable side fertilizing section, and the input gear is spaced upwardly away from the output gear in the discharge posture of the one side of the movable fertilization section. The method of claim 1,
A fertilizer, characterized in that a sealing material is provided between an upper end edge portion of the lower side supply body and a lower end edge edge portion of the upper side supply body that can be separated and joined. The method according to claim 6,
The sealing member has a ring-shaped mounting body attached to any one of the upper and lower side supply bodies, and a ring shape for accommodating the opening edges of any one of the upper and lower side supply bodies so as to be spaced apart from each other. A fertilizer, comprising: a receiving device, wherein the receiving surface side of the container has a concentric short-width cylindrical inner and outer contact piece projecting in a radial direction so as to bend and deform. The method according to claim 6 or 7,
A lower end opening of each of the lower side supply bodies communicates with an upper end portion of the fertilizing hose body formed of a hard material, and a avoidance recess is formed in the middle portion of the fertilizing hose body to avoid interference with other objects. An inner flow passage cross-sectional area of the same intermediate portion is substantially the same as the other inner flow passage cross-sectional device. The method of claim 1,
The support leg is provided at the inner end of each of the movable side fertilizers, respectively, and the lower end portion of each of the support legs is engaged with the support frame in the feeding position to position each movable side fertilizer. Fertilizer. The method of claim 9,
Engaging recesses are formed in the lower end of each of the supporting legs, while rod supporting frame members are provided in the supporting frame portion, and the engaging recesses are substantially orthogonal from above. Fertilizer characterized in that the engagement enabled. The method of claim 1,
Each of the movable side fertilizers has an obtuse angle to rotate from the supply posture to the discharge posture around the pivot / connector, and in the discharge posture, the center of gravity of each of the movable side fertilizers is located outside the pivot / connector. Fertilizer device characterized in that. The method of claim 11,
The axis of the upper side feed body communicating with each of the hopper portions is such that the hopper portion side is inclined downward in the discharge position such that the fertilizer remaining in the upper side feed body passes through the hopper portion and is discharged from the discharge portion. Fertilizer The method of claim 12,
Each of the upper side supply body is formed with a funnel shape of the inner circumferential wall to form a shaft shape gradually downward in the supply posture, and the lower main wall surface in the discharge posture to be inclined downward toward the hopper side. The method of claim 1,
The support leg is provided at the inner end of each of the movable side fertilizers, and the support leg is engaged with the support frame in the supply posture, so that the support frame and the pivotal support arm and the movable side fertilizer are And a frame-shaped positioning body formed by the support leg. 15. The method of claim 14,
Pivoting the proximal end of each pair of said pivotal support arms opposite to the axial direction through the pivotal axis facing the axis in a direction orthogonal to the extending direction of the support frame portion at both end portions of the support frame portion, A fertilizer, characterized in that a three-dimensional frame-shaped positioning body having a depth in the axial direction of the pivot axis is formed by connecting a hopper formed in a box shape to the distal end of the pivot support arm. The method of claim 1,
At one end of the support frame portion pivoting and connecting the one side movable side fertilizer, a pressure wind supply unit for supplying fertilizer pressure air to the lower side supply body is provided, and the same pressure wind supply unit supplies a pressure wind for supplying the pressure wind. It is possible to change the posture of the posture and the compressed air into a non-feeding posture which cannot be supplied, and in the non-feeding posture, the interference placed at the non-interfering position outside the posture changing operation plane of the supply posture and the discharge posture of the movable side fertilizer on one side. A fertilizer, characterized in that the avoidance posture is adopted. 17. The method of claim 16,
And the pressurized air supply unit is maintained in an interference avoidance posture by a posture maintaining means. A passenger electric machine equipped with the fertilizing device according to any one of claims 1 to 17.

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