JP2015130843A - Movable cultivation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide movable cultivation system having closed-loop structure, which circularly conveys a plurality of cultivation benches, and to which a work device for elevated type cultivation can be easily incorporated.SOLUTION: The movable cultivation system 1 includes a work device 3 for elevated type cultivation composed of: a conveyance carriage 5 mounting a work machine 4 that works onto a cultivation bench 10 on a transfer conveyor 40A; and carriage guide rails 6 which, at lateral side of the transfer conveyor 40A, guides and moves the conveyance carriage 5. The conveyance carriage 5 is holding the work machine 4 so that the machine offsets from the carriage guide rails 6. By moving the conveyance carriage 5 along the carriage guide rails 6, the work machine 4 slides right above the cultivation bench 10.

Description

  The present invention relates to a mobile cultivation apparatus capable of cultivating fruits and vegetables such as vegetables and flower buds in a densely planted state, and more particularly to a mobile cultivation apparatus capable of executing various operations such as cultivation on an apparatus planter.

  Conventionally, techniques for cultivating fruit vegetables and the like using a plurality of horizontally long cultivation benches are well known. For example, Patent Document 1 discloses a closed-loop mobile cultivation apparatus that circulates and conveys a plurality of cultivation benches. This mobile cultivation apparatus employs a tall cultivation floor, and a cultivation bench moves on a high place such as on a guide rail or a conveyor belt.

  Moreover, in the mobile cultivation device, after harvesting the fruit vegetables grown on the planter in the cultivation bench, cultivation of the cultivation soil in the planter is carried out in order to transplant new seedlings to the cultivation bench. There were many. However, since the planting work of this planter was heavy labor, mechanization has been promoted in recent years. And the cultivation apparatus which cultivates the cultivation soil of the planter in the mobile cultivation apparatus which employ | adopted the high-arrangement type cultivation floor corresponding to recent mechanization promotion is disclosed (refer patent document 2).

JP 2010-57448 A JP 2001-352801 A

  By the way, the tilling device of the elevated cultivation floor disclosed in Patent Document 2 is configured such that the tilling device is mounted on a movable carriage that is movably framed across the cultivation bench. Therefore, when the mobile cultivation apparatus which assembles the cultivation apparatus disclosed in Patent Document 2 has a closed loop configuration disclosed in Patent Document 1, it is necessary to install the cultivation apparatus so as to straddle the transport conveyor that conveys the cultivation bench. There is. Therefore, when assembling the above cultivation device to a mobile cultivation device having a closed loop configuration, it is necessary to disassemble and assemble either the cultivation device or the movable cultivation device, and the assembling work is complicated.

  Moreover, since the assembly of such a cultivation device is necessary only for the cultivation after harvesting fruit vegetables and the like, it is desirable to remove the cultivation device during cultivation in the mobile cultivation device. However, as described above, for a mobile cultivation apparatus having a closed loop configuration, as well as difficulty in assembling the cultivation apparatus, the removal of the cultivation apparatus becomes complicated. Furthermore, a complicated mechanism is required for a work carriage such as a tillage device to move in a stable posture when performing work on a planter on a tall cultivation floor.

  This invention is made | formed as a technical subject to provide the mobile cultivation apparatus which examined the present conditions as mentioned above and aimed at the improvement.

  The invention of claim 1 is a pair of benches connecting a pair of transport conveyors arranged in parallel with the transport directions opposite to each other, and a transport downstream side of the one transport conveyor and a transport upstream side of the other transport conveyor. A closed-loop mobile cultivation apparatus that circulates and conveys a plurality of cultivation benches for cultivating fruit vegetables and the like, including a guide rail, and a carriage that carries a working machine that operates on the cultivation bench on the conveyance conveyor; , And a work device for raising cultivation constructed by a carriage guide rail that guides and moves the conveyance carriage on the side of the conveyance conveyor, and the conveyance carriage offsets the working machine from the carriage guide rail. The work machine is slid just above the cultivation bench by moving the transport carriage along the carriage guide rail.

  The invention according to claim 2 is the mobile cultivation apparatus according to claim 1, wherein the upright cultivation work device has a plurality of rail support portions that support the carriage guide rail, and the rail support portion. Is detachably connected to a connecting member provided on the conveyor frame of the conveyor.

  According to a third aspect of the present invention, in the mobile cultivation apparatus according to the first aspect, the elevated cultivation work apparatus supports the carriage guide rail with a plurality of support frames standing upright from the ground, and the support pillars The frame is configured to be adjustable in height, and a connecting member for positioning the support frame is provided on the conveyor frame of the transport conveyor.

  According to the present invention, the pair of bench guide rails connecting the pair of transport conveyors arranged in parallel with the transport directions opposite to each other, and the transport downstream side of the one transport conveyor and the transport upstream side of the other transport conveyor. A closed-loop mobile cultivation device that circulates and conveys a plurality of cultivation benches for cultivating fruit vegetables, etc., and a carriage that carries a working machine that operates on the cultivation bench on the conveyance conveyor, It has a working device for upright cultivation composed of a cart guide rail that guides and moves the transport cart on the side of the transport conveyor, so that the transport cart offsets the working machine from the cart guide rail. Gripping and moving the transport carriage along the carriage guide rail to slide the work implement directly above the cultivation bench. In order to have a configuration in which the work implement is gripped outside the cart guide rail and the cart guide rail is laid along the cultivation bench, the transport cart is installed so as to straddle the cultivation bench. There is no. Therefore, even with a closed-loop mobile cultivation apparatus, it is possible to easily assemble the high-arrangement cultivation apparatus using the carriage guide rail and the transport carriage.

  In addition, the high-arrangement cultivation working device has a plurality of rail support portions that support the carriage guide rails, and the rail support portions are attached to and detached from a connection member provided on a conveyor frame of the conveyor. Since it connects so that it is possible, the installation position with respect to the said conveyance conveyor of the said rail support part of the said working apparatus for cultivation can be fixed. Therefore, since the height position and the longitudinal direction position of the carriage guide rail with respect to the conveyor are fixed, it is possible to suppress complication of setting the relative position of the conveyor carriage with respect to the cultivation bench on the conveyor. Moreover, the said upright type cultivation working apparatus can be comprised detachably with respect to the said conveyor frame.

  In addition, the working device for upright cultivation supports the carriage guide rail with a plurality of support frames standing upright from the ground, and the support frames are configured to be height-adjustable. Since a connecting member for positioning the support frame is provided on the conveyor frame, the support frame that supports the carriage guide rail is configured to be height-adjustable, so the height position of the carriage guide rail can be adjusted. It can be set optimally according to the height position of the conveyor. Moreover, the relative position of the carriage guide rail along the longitudinal direction of the conveyor is determined by positioning the support frame by the connecting member of the conveyor frame. Therefore, the above-mentioned cultivating work device can be configured to be detachable from the mobile cultivation device, and the cultivating work device can always be installed at a fixed position.

It is a schematic perspective view of the working device for upright cultivation in an embodiment of the present invention. It is an enlarged view of the working apparatus for upright cultivation of FIG. It is a top view of the conveyance trolley in the working device for high-arrangement cultivation of FIG. It is a front view of the conveyance cart. It is a bottom view of the conveyance cart. It is a side view of the conveyance cart. It is a front view which shows the structure of the working machine mounted in the same conveyance trolley. It is a side view which shows the structure of the working machine. It is a perspective view of the working machine. It is a disassembled perspective view of the working machine. It is a figure which shows the gear structure inside the housing | casing of the working machine. It is a side view of the working device for high-arrangement cultivation when the working machine is lowered. It is a schematic plan view of the mobile cultivation apparatus incorporating the working apparatus for upright cultivation. It is a partially expanded plan view of the mobile cultivation apparatus. It is a side view of the mobile cultivation apparatus. It is a perspective view of the mobile cultivation apparatus. It is a partially expanded perspective view of the mobile cultivation apparatus. It is a side view which shows the structure of a connection part periphery with the working apparatus for tall installation cultivations in the said mobile cultivation apparatus. It is a perspective view of a cultivation bench. It is a top view of a drawing-in apparatus. It is a perspective view of a drawing-in apparatus. It is a partially cutaway perspective view of an engaging claw body and an engagement / disengagement actuator. It is a side view which shows the state before the engagement by a drawing-in apparatus. It is a side view which shows the engagement state of a drawing-in apparatus. It is a side view which shows the drawing completion state of a drawing-in apparatus. It is a side view which shows the engagement cancellation | release state of a drawing-in apparatus. It is a functional block diagram of a pneumatic circuit and a controller. It is a perspective view of the mobile cultivation apparatus used as another embodiment. It is a partially expanded perspective view of the mobile cultivation apparatus. It is a side view which shows the structure of a connection part periphery with the working apparatus for tall installation cultivations in the said mobile cultivation apparatus.

  Hereinafter, an embodiment (first embodiment) embodying the present invention will be described with reference to the drawings.

  First, the structure of the working device 3 for upright cultivation will be described with reference to FIGS. In the following description, when using terms indicating specific directions and positions as necessary (for example, “left and right”, “up and down”, etc.), the direction perpendicular to the paper surface in FIGS. Is the front-rear direction or the vertical direction (may be referred to as the column direction), and the left-right direction on the paper is the left-right direction or the horizontal direction (may be referred to as the row direction). These terms are used for convenience of explanation, and do not limit the technical scope of the present invention.

  As shown in FIG.1 and FIG.2, the working apparatus 3 for an upright type cultivation is arrange | positioned above the cultivation bench 10 mentioned later, the work machine 4 which works, the conveyance trolley 5 which mounts the work machine 4, and conveyance A plurality of (two in this embodiment) carriage guide rails 6 for moving the carriage 5 along the longitudinal direction (left and right direction) of the cultivation bench 10 are provided. A cart standby unit 7 for waiting for a transport cart (work cart) 5 is provided on one end side of the cart guide rail 6 in the tall cultivation work device 3.

  The plurality of carriage guide rails 6 have a V-shaped cross section and are connected to a later-described mobile cultivation apparatus 1 (see FIG. 13) via a rail fixing bracket 25 so as to extend in parallel with each other. It is supported from below by the support stay 8. The rail support stays 8 are installed at a plurality of locations (five locations in the present embodiment) at equal intervals from one end of the carriage guide rail 6 toward the other end. The rail support stay 8 includes a column frame 26 configured to extend in the vertical direction, a beam frame 27 configured to extend in the front-rear direction connected to the upper end of the column frame 26, and one end connected to the column frame 26 and a beam frame. 27 and an oblique frame 28 having the other end connected thereto.

  Each of the plurality of carriage guide rails 6 is connected to a rail support stay (rail support portion) 8 via rail fixing brackets 25 at the lower ends of both ends thereof. A beam frame 27 of the rail support stay 8 that supports both ends of the carriage guide rail 6 is connected to a carriage regulating member 29 on its side surface. The carriage restricting member 29 has a configuration extending upward from below the carriage guide rail 6 so as to block both ends of the carriage guide rail 6 so that the transport carriage 5 moves within the range of the carriage guide rail 6. To regulate. That is, since the transport carriage 5 comes into contact with the carriage restriction member 29 at both end positions of the carriage guide rail 6, it is possible to prevent the transport carriage 5 from falling off the carriage guide rail 6.

  When the tall cultivation work device 3 is fixed to the mobile cultivation device 1 described later (see FIG. 12), the support frame 26 of the rail support stay 8 is connected to the movable cultivation device 1. The support frame 26 of the rail support stay 8 has connection brackets 49 a to 49 d fixed to three side surfaces (left and right side surfaces and front side surface) other than the side surfaces connected to the oblique frame 28. That is, the connection brackets 49a and 49b are disposed at the same height on the left and right side surfaces of the support frame 26, respectively. Further, on the front side surface of the support frame 26, the connecting bracket 49c is arranged at a position above the connecting brackets 49a and 49b, and the connecting bracket 49d is below the connecting brackets 49a and 49b. It is arranged at the position.

  The work device 3 for high-arrangement cultivation has a plurality of rail support portions 8 that support the carriage guide rail 6, and the rail support portion 8 is a conveyor frame 47 (see FIG. 13) of a transfer conveyor 40A (see FIG. 13) described later. It connects so that attachment or detachment is possible with respect to the positioning frame 48 (refer FIG. 15) used as the connection member provided in FIG. That is, when the connection brackets 49a to 49d in the rail support portion 8 are fastened to the positioning frame 48, the high-arrangement cultivation work device 3 is attached to the mobile cultivation device 1 (see FIG. 12). Further, the connecting brackets 49a to 49d are detachable from the positioning frame 48, and the height-cultivating working device 3 is movable cultivation device 1 only when a cultivation work or the like by the working machine 4 is required. It can be connected to.

  The cart standby portion 7 provided on one end side of the cart guide rail 6 includes a plurality of column frames 36 extending in parallel with the column frame 26 of the rail support stay 8 and a plurality of bridge frames that bridge the upper ends of the column frames 26 and 36. The beam frame 37 and a plurality of carriage standby rails 38 that bridge the upper surface of the beam frame 37 that are in parallel with each other. And the beam frame 37 connected with the support | pillar frame 26 has connected the trolley | bogie control member 39 to the side surface. The cart standby unit 7 is composed of a part on one end (left end) side of the cart guide rail 6 and a cart standby rail 38, and the transport cart 5 evacuated from the mobile cultivation apparatus 1 (see FIG. 13), It is supported by a carriage guide rail 6 and a carriage standby rail 38.

  In the example of the present embodiment, there are three support frame 36, and one support frame 36 is arranged apart from the support frame 26 on the right side of the carriage guide rail 6, and the remaining two support frames 36. Are arranged apart from the front side of the support frame 26, 36 installed along the carriage guide rail 6 (the side away from the carriage guide rail 6). In addition, one of the two beam frames 37 is installed at the upper ends of the two column frames 26 and 36 arranged in the front and rear, and the remaining one beam frame 37 is arranged in the two columns arranged in the front and rear. It is installed at the upper end of the frame 36. Further, the two carriage standby rails 38 are installed on the upper side of the two beam frames 37 so as to extend in parallel with the carriage guide rail 6. It has the groove part 38a of the same length. The carriage standby rail 38 is disposed above the carriage guide rail 6.

  Further, like the carriage restriction member 29 connected to the rail support stay 8, the carriage restriction member 39 has a configuration extending upward from below the carriage standby rail 38, so that one end of the carriage standby rail 38 is provided. (Left end) is closed and the carriage 5 is regulated so as to move within the range of the carriage guide rail 6. That is, since the transport cart 5 abuts on the cart regulating members 29 and 39 at one end (left end) position of the cart guide rail 6, the transport cart 5 is prevented from falling off the cart guide rail 6 and the cart standby rail 38. it can.

  As shown in FIGS. 3 to 8, the transport carriage 5 moves on the outer frame of the planter 2, and the moving frame 76 having a moving wheel (first wheel) 77 moving on the carriage guide rail 6 at the bottom. A holding stand 78 having a support wheel (second wheel) 79 at the bottom and holding the work machine 4 so as to be movable up and down is provided side by side. At this time, the lowest point of the moving wheel 77 in the moving frame 76 is lower than the lowest point of the supporting wheel 79 in the holding frame 78 according to the vertical position relationship between the carriage guide rail 6 and the carriage standby rail 38. To position. As a result, as shown in FIG. 3, when the transport carriage 5 is placed on the cart standby section 7, the rear moving carriage 76 of the transport carriage 5 engages the carriage guide rail 6 with the moving wheel 77. Then, while being supported on the cart guide rail 6, the gripping stand 78 on the front side of the transport cart 5 is supported on the cart standby rail 38 by fitting the support wheels 79 to the cart standby rail 38. The

  In addition, each of the moving gantry 76 and the gripping gantry 78 has the grip handles 80a and 80b in the horizontal direction on the lower side (side closer to the bottom surface) of both side surfaces (left and right side surfaces) perpendicular to the moving direction of the transport carriage. It is extended. Accordingly, since the two workers can lift the transport cart 5 with the handle portions 80a and 80b, the transport cart 5 can be easily lifted and lowered with respect to the cart standby unit 7. In addition, since the cart standby unit 7 is disposed at a position where the transport cart 5 is retracted from the mobile cultivation device 1 (see FIG. 13), after the high-cultivation working device 3 is incorporated into the mobile cultivation device 1. Even if it exists, the operator can easily place the transport cart 5 on the cart standby section 7.

  The moving pedestal 76 has a conveyance handle 80c extending in the vertical direction below the side surface (the back surface of the conveyance carriage 5) that is parallel to the conveyance carriage movement direction. The transport handle portions 80c are provided at the left and right ends of the side surface of the movable mount 76, and one operator holds the two handle portions 80c with both hands, and moves the transport cart 5 along the cart guide rail 6. To move. In addition, as shown in FIG. 4, the handle portion 80 c has a portion that is gripped by the operator on the left and right outer sides of the transport carriage 5, and a position where the operator can easily apply force when transporting the transport carriage 5. It can be gripped with. Therefore, during work by the work machine 4 such as tillage work, it is possible to reduce the load on the worker due to the transport of the transport cart 5.

  As shown in FIG. 5, the transport carriage 5 has two wheel support brackets 92 for the moving mount 76 and two wheel support brackets 93 for the holding mount 78 fastened to the lower surface of the bottom frame 91. Yes. The wheel support bracket 92 for the moving gantry 76 has a shape extending in the moving direction of the transport carriage 5, and a plurality of (two in the present embodiment) casters are fixed to the bottom surface as the moving wheels 77. Yes. The wheel support bracket 93 for the gripping gantry 78 has a shape extending in the moving direction of the transport carriage 5, and a plurality of (four in the present embodiment) support wheels 79 are rotated on one side surface of the support carriage 79. A pulley is constructed by pivoting as much as possible.

  In the present embodiment, the supporting wheel 79 configured by a single collar wheel is installed such that the collar portion is located outside the outer frame of the planter 2. Therefore, as long as the supporting wheels 79 on both the front and rear sides are in contact with both upper ends of the outer frame of the planter 2, the holding frame 78 is not limited to the size of the front and rear width of the planter 2, and the posture of the holding stand 78 does not collapse on the planter 2. The transport cart 5 can be moved. In addition, it is good also as what is installed so that a collar part may be located in the outer frame outer side of the planter 2, and it is good also considering the support wheel 79 as a both collar wheel.

  As shown in FIGS. 7 and 8, the gripping platform 78 grips both sides of the work machine 4 (in this embodiment, the left and right sides) so that the work machine 4 is sandwiched between the two air cylinders 94. The work machine 4 is arranged so as to be movable up and down within the gripping frame 78. The gripping stand 78 has an air cylinder 94 fixed to each of two side plates 95 provided so as to face each other through upper and lower cylinder support brackets 96a and 96b. That is, the cylinder support bracket 96 a having an L-shaped cross section is coupled to the upper end of the air cylinder 94 and is fastened to the upper side of the side plate 95. Further, a cylinder support bracket 96b having an L-shaped cross section holds the lower side of the air cylinder 94 and is fastened to the lower side of the side plate 95.

  The air cylinder 94 has a piston rod 97 inserted from the lower end side thereof, and a connecting portion 97 a at the lower end of the piston rod 97 is fastened to the connecting member 98 of the work machine 4. As a result, the piston rod 97 expands and contracts up and down with respect to the fixed air cylinder 94 to move the working machine 4 up and down. A coil spring 99 into which the piston rod 97 is inserted connects the lower portion of the air cylinder 94 and the upper portion of the connecting portion 97a of the piston rod 97. Accordingly, since the elastic force of the coil spring 99 works to position the working machine 4 upward, the working machine 4 applied to the air cylinder 94 when the working machine 4 is positioned upward with the piston rod 97 contracted. The weight burden can be reduced.

  The holding base 78 has a guide bar (guide bar) 111 extending in the vertical direction on each of two opposing side surfaces that are different from the installation side surface of the air cylinder 94 (front and rear side surfaces in this embodiment). The guide bar 111 is erected vertically from the upper surface of the wheel support bracket 93 provided at the bottom of the gripping gantry 78, and is connected to the lower surface of the horizontal beam frame 112 in the central region of the gripping gantry 78. In other words, the guide frame 111 is installed between the wheel support bracket 93 and the crosspiece frame 112 in the gripping stand 78. The two guide rods 111 fixed to the housing frame of the gripping gantry 78 are respectively inserted into cylindrical guide members 110 provided on both sides of the work machine 4. Therefore, when the piston rod 97 is expanded and contracted, the position of the guide member 110 is regulated by the guide rod 111, so that the work implement 4 moves up and down without shifting back and forth and from side to side.

  As shown in FIGS. 7 to 11, the working machine 4 is a soil reclaiming device, which is connected to the tips of the piston rods 97 of the two air cylinders 94 and is supported by the holding frame 78 in a suspended manner. A drive motor (stirring drive source) 114 and two stirring screws 115 and 116 are arranged above and below. The work machine 4 has a connecting member 98 outside the two side plates 113a and 113b facing each other of the housing 113, and the connecting member 98 is fastened to a connecting portion 97a at the tip of the piston rod 97. Cylindrical guide members 110 are installed outside the two opposite side plates 113c and 113d of the housing 113, and are fixed to the holding frame 78 in through holes in the guide member 110 in the vertical direction. The guide rod 111 is inserted. That is, the connection member 98 connected to the piston rod 97 and the guide member 110 fitted to the guide rod 111 are alternately arranged on the outer peripheral surface of the housing 113.

  The housing 113 has a drive motor 114 mounted on the upper surface of the lid plate 113e. The motor rotation shaft 114a of the drive motor 114 is inserted into the housing 113 through the through hole 113g of the lid plate 113e. Inside the housing 113, the motor rotation shaft 114 a of the drive motor 114 is connected to the motor side hub 117 a of the shaft coupling (coupling) 117. In the coupling 117, a gear-shaped spacer 117c is sandwiched between a motor-side hub 117a having a protrusion on the lower surface and a screw-side hub 117b having a protrusion on the upper surface. The coupling 117 meshes the protrusions of the hubs 117a and 117b with the gears of the spacer 117c.

  In the housing 113, the screw shafts 115a and 116a of the two stirring screws 115 and 116 are inserted through the two through holes 113h of the bottom plate 113f. The upper end side of the screw shaft 115 a of the stirring screw 115 is connected to the screw side hub 117 b of the coupling 117. That is, the screw shaft 115 a of the stirring screw 115 is connected to the motor rotating shaft 114 a of the drive motor 114 via the coupling 117. In the housing 113, a gear box 118 is placed on the upper surface of the bottom plate 113f, and the two through holes 113h of the bottom plate 113f are covered by the gear box 118.

  The gear box 118 has two through holes 118a on the upper surface, and two bearings 119 are fixed on the upper surface of the gear box 118 so as to cover the two through holes 118a. Each of the two bearings 119 is configured by a ball bearing or the like, and supports the screw shafts 115a and 116a of the stirring screws 115 and 116 that pass through the through hole 118a of the gear box 118. Further, on the lower side of the upper surface of the gear box 118, screw shafts 115a and 116a of the stirring screws 115 and 116 are inserted into two gears 120 to be engaged with each other. That is, a gear mechanism including two gears 120 into which the screw shafts 115a and 116a are inserted is installed in a space formed by the bottom plate 113f of the housing 113 and the gear box 118.

  The casing 113 has a mudguard sheet 121 suspended from the lower surface of the bottom plate 113f. A part of the sheet 121 can be bolted to the gear box 118 with the bottom plate 113f interposed therebetween, thereby reducing the number of parts. The agitation screws 115 and 116 each have two screw blades 122 at the lower ends of the screw shafts 115a and 116a. By rotating the screw blades 122, the soil in the planter 2 is agitated and cultivated. .

  The work machine 4 configured in this manner rotates the drive motor 114, thereby rotating the stirring screw 115 coaxial with the motor shaft 114a, and simultaneously rotating the stirring screw 116 via the gear 120 in the gear box 118. Rotate at the same time. Further, since the work implement 4 moves up and down with respect to the gripping gantry 78 by expansion and contraction of the piston rod 97, when the work rod 4 is lowered by extending the piston rod 97, as shown in FIG. Rotate the stirring screws 115 and 116 to cultivate the cultivated soil in the planter 2.

  Therefore, as shown in FIG. 5, the agitation screws 115 and 116 are arranged at positions where the rotation trajectory of the screw blade 122 is drawn in an area surrounded by the bottom frame 91 and the wheel support bracket 93. Further, the sheet 121 that surrounds the outside of the screw blade 122 of the stirring screws 115 and 116 is also disposed in a region surrounded by the bottom frame 91 and the wheel support bracket 93. The height width (vertical length) of the sheet 121 is set so that the lower end of the sheet 121 is positioned in the vicinity of the upper end of the planter 2 when the work implement 4 is lowered. Thereby, as shown in FIG. 12, when the working machine 4 is lowered and the cultivation culture of the soil by rotating the stirring screws 115 and 116 is performed, the sheet 121 and the planter 2 surrounding the outside of the stirring screws 115 and 116, It can prevent scattering of the agitated soil.

  The transport carriage 5 has a moving stand 76 that moves to the side of the planter 2 with the first wheels 77 at the bottom, and has a second wheel 79 that engages with the outer frame of the planter 2 at the bottom and the work implement 4. A gripping gantry 78 that grips up and down is also provided. Since each of the moving frame 76 and the holding frame 77 of the transport cart 5 is supported by the side of the outer frame of the planter 2 and on the outer frame, the transport cart 5 can be moved without breaking the balance. When work by the work machine 4 is continuously performed on a plurality of planters 2 arranged adjacent to each other in the longitudinal direction, the work machine 4 is moved up and down to prevent interference with the outer frame of the planter 2 and smooth Can perform work on

  Two cylinders 94 are fixed to the gripping stand 78, and piston rods 97 that extend and contract with respect to the two cylinders 94 are connected to both sides of the work implement 4, and the work stand 4 is held by the expansion and contraction of the piston rod 94. Raise and lower with respect to 78. Since the work implement 4 is sandwiched by the two cylinders 94 with respect to the gripping stand 78, the work implement 4 can be raised and lowered without breaking the balance.

  The work machine 4 includes a guide member 110 provided with vertical holes on two side surfaces orthogonal to the two side surfaces connected to the piston rod 97, and the guide rod 111 inserted into the vertical hole of the guide member 110 is attached to the gripping stand 78. It is fixed. Since the two cylinders 94 are connected to the two side surfaces of the work machine 4, and the two guide bars 111 support the remaining two side surfaces of the work machine 4, the gripping stand 78 is provided with the cylinder 94 and the guide bar. The four side surfaces of the work machine 4 are supported via 111. Therefore, the working machine 4 can not only move up and down without losing the balance, but also can suppress displacement of the relative position of the working machine 4 with respect to the planter 2 at the time of raising and lowering.

  The movable gantry 76 includes two handle portions 80 c on both edges of the side surface opposite to the gripping gantry 78, and the first wheel 77 of the movable gantry 76 is located on the side of the planter 2 in the longitudinal direction of the planter 2. It travels on a cart guide rail 6 extending in the direction. The transport cart 5 is supported on the cart guide rail 6 and the planter 2 respectively, and the operator can move the transport cart 5 without breaking the balance. By providing the handle 80c on the grip pedestal 76, the operator can easily confirm the positional relationship between the planter 2 and the work machine 4 when holding the handle 80c and moving the transport carriage. 4 can be optimally controlled.

  Next, with reference to FIGS. 13 to 15, the schematic structure of the mobile cultivation apparatus 1 in which the above-described elevated cultivation work apparatus 3 is incorporated will be described. In the following description, when using a term indicating a specific direction or position as necessary (for example, “left / right”, “up / down”, etc.), the direction perpendicular to the paper surface in FIG. Alternatively, the vertical direction (may be referred to as the column direction), and the left-right direction on the paper is the left-right direction or the horizontal direction (may be referred to as the row direction). These terms are used for convenience of explanation, and do not limit the technical scope of the present invention.

  In the embodiment, the vertical direction and the horizontal direction are both parallel to the horizontal plane (ground) (perpendicular to the gravitational direction), but the present invention is not limited to this, such as strawberry and spinach. The vertical direction and the horizontal direction may be slightly inclined with respect to the horizontal plane so long as they do not hinder the cultivation of fruit vegetables and the like.

  As shown in FIGS. 13 to 15, the mobile cultivation apparatus 1 according to the embodiment has a closed loop shape that circulates and conveys a plurality of cultivation benches 10 for growing fruit vegetables such as strawberries and spinach. In this case, the mobile cultivation apparatus 1 has a pair of transport conveyors 40A and 40B arranged in parallel with the transport directions opposite to each other, and the other transport conveyor 40B (40A) from the transport downstream side of one transport conveyor 40A (40B). ) And a pair of guide devices 20A (20B) for guiding each cultivation bench 10 to the transport upstream side, and a pair of moving the cultivation bench 10 on the transport conveyors 40A and 40B toward the guide devices 20A and 20B on the transport downstream side. Retracting devices 21A and 21B are provided. A pair of conveyance conveyors 40A and 40B and a pair of guide devices 20A and 20B are configured in a closed loop shape for circulating and conveying the plurality of cultivation benches 10.

  The pair of transport conveyors 40A and 40B are arranged in parallel with a space in the front-rear direction (vertical direction). Each of the cultivation benches 10 is configured to be conveyed in opposite conveyance directions (lateral directions). The pair of guide devices 20A and 20B are arranged in parallel with a space in the left-right direction (lateral direction), and are configured to guide the cultivation bench 10 in directions opposite to each other (vertical direction). Has been.

  The left half of the front conveyor 40A is positioned on the front side of the first guide device 20A, and the right half of the front conveyor 40A is positioned on the front side of the second guide device 20B. The left half of the back side conveyor 40B is located on the back side of the first guide device 20A, and the right half of the back side conveyor 40B is located on the back side of the second guide device 20B. Each of the conveyors 40A and 40B is configured to be able to deliver the cultivation bench 10 to and from the guide devices 20A and 20B. Each cultivation bench 10 is circulated and conveyed clockwise in a plan view of FIG. 13 in the order of the front side transfer conveyor 40A → the first guide device 20A → the back side transfer conveyor 40B → the second guide device 20B → the front side transfer conveyor 40A. . Needless to say, the circulating conveyance direction may be counterclockwise in a plan view of FIG.

  As shown in FIGS. 13 and 14, the tall cultivation work device 3 is installed on the left side on the near side of the near-side conveyance conveyor 40 </ b> A. In other words, the height-cultivating working device 3 has the cart guide rail 6 disposed on the front side of the near-side transport conveyor 40A and the cart standby section 7 on the left side of the left end of the labor-side transport conveyor 40A. ing. At this time, the elevating cultivation work device 3 is supported by the conveyor frame 47 by connecting the rail support stay 8 to the front side of the conveyor frame 47 in the front side conveyor 40A. Accordingly, the work device 3 for the upright cultivation grows the carriage guide rail 6 so as to be parallel to the front-side transport conveyor 40A, and extends the longitudinal direction of the cultivation bench 10 on the front-side transport conveyor 40A. At this position, the carriage standby rail 38 of the carriage standby section 7 is arranged.

  As shown in FIG. 15, the tall cultivation work device 3 fastens the support frame 26 of the rail support stay 8 to the conveyor frame 47 and arranges the carriage guide rail 6 on the upper side of the stopper member 23. At this time, the upper end of the cart standby rail 38 in the cart standby unit 7 becomes the same height as the upper end of the planter 2 in the cultivation bench 10. Accordingly, since the carriage standby rail 38 is connected to the outer frame of the planter 2, when the transport carriage 5 is transported along the front-side transport conveyor 40 </ b> A, the supporting wheels 79 of the gripping rack 78 are supported by the planter 2. Drive on the outer frame of the car.

  As shown in FIGS. 16 to 18, the tall cultivation work device 3 includes a plurality of rail support portions 8 that support the carriage guide rail 6, and the connection brackets 49 a to 49 d of the rail support portion 8. Is detachably connected to a positioning frame 48 provided on the conveyor frame 47 of the conveyor 40A. The positioning frame 48 is composed of two bar frames arranged vertically at each position facing the rail support portion 8, and the longitudinal direction of the positioning frame 48 on the side surface of the conveyor frame 47 is the transport direction of the transport conveyor 40 </ b> A. It is attached to be parallel. When the working device 3 for upright cultivation is attached to the conveyor frame 47, the upper positioning frame 48 is fastened with the connection brackets 49a to 49c of the rail support portion 8, and the lower positioning frame 48 is the rail. Fastened to the connecting brackets 49a, 49b, 49d of the support portion 8.

  In this way, the connection brackets 49a to 49d of the rail support portion 8 are connected to the positioning frame 48 of the conveyor frame 47, whereby the relative position of the carriage guide rail 6 with respect to the transport conveyor 40A can be determined. Therefore, by connecting the connecting brackets 49a to 49d to the positioning frame 48, the work machine 4 mounted on the transport cart 5 traveling on the cart guide rail 6 is disposed immediately above the cultivation bench 10 on the transport conveyor 40A. Is done. In other words, depending on the arrangement position of the positioning frame 48, the tall cultivation work device 3 is attached to the mobile cultivation device 1 so as to be in an optimum position where the planter 2 can work.

  As described above, when the tall cultivation work device 3 is installed in the mobile cultivation device 1, the worker holds the conveyance handle 80 c and moves along the longitudinal direction of the carriage guide rail 6. 5 is conveyed. At this time, when the work implement 4 of the gripping pedestal 76 passes the left side surface of the planter 2, the operator operates the work implement switch (not shown) and lowers the work implement 4 by the air cylinder 94 and is driven at the same time. The motor 114 is rotated. Thereby, the working machine 4 stirs the cultivation soil in the planter 2 with the screw blade 122. When the work machine 4 of the gripping gantry 76 reaches the vicinity of the right side surface of the planter 2, the work machine switch (not shown) is operated to raise the work machine 4 by the air cylinder 94 and simultaneously stop the drive motor 114. .

  In this manner, the transport cart 5 is moved, and at the same time, the working machine 4 is moved up and down and the drive motor 114 is turned on / off in accordance with the positions of the left and right side surfaces of the planter 2 arranged side by side on the cultivation bench 10. Synchronize. As a result, the work implement 4 moves in the longitudinal direction of the planter 2 and continuously cultivates the soil in the planter 2 arranged side by side as shown in FIG. 5 and breaks the outer frame of the planter 2. Can be prevented.

  The working device 3 for the upright cultivation is configured such that the end of the carriage guide rail 6 is arranged outside the end of the front-side transport conveyor 40A, and constitutes a carriage standby section 7 that waits for the carriage 5 to be guided. By moving the carriage 5 on the rail 6 so as to slide on the side of the cultivation bench 10, the work machine 4 is slid directly on the cultivation bench 10. Since the carriage 5 is configured to hold the work machine 4 outside the carriage guide rail 6 and the carriage guide rail 6 is also provided on the conveyor 40A, the carriage 5 is installed so as to straddle the cultivation bench 10. It will not be done. Accordingly, the cart guide rail 6 and the transport cart 5 can be assembled not only to the closed loop mobile cultivation apparatus 1 but also to be detachable. Moreover, by arranging the cart standby unit 7 outside the end of the cart guide rail 6, when the cultivation bench 10 is circulated and conveyed, the conveyance cart 5 does not interfere with the conveyance of the cultivation bench 10. be able to.

  The cart standby unit 7 includes an end of the cart guide rail 6 outside the end of the conveyor 40A, and a cart standby rail 38 that is provided adjacent to the cart guide rail 6 at a position adjacent to the end of the conveyor 40A. Has been. A carriage standby rail 38 is installed at the upper end position of the planter 2 mounted with the cultivation bench 10. By arranging the carriage standby rail 38 at the end of the conveyor 40 </ b> A, the carriage 5 waiting on the carriage waiting section 7 can be smoothly guided directly above the cultivation bench 10.

  The carriage guide rail 6 is supported by a plurality of rail support sections 8, and the carriage guide rail 6 is supported along the transfer conveyor 40A by connecting the rail support section 8 to the outside of the conveyor frame 47 of the transfer conveyor 40A. ing. Thereby, the relative position of the cart guide rail 6 with the transport conveyor 40A can always be fixed, and the transport cart 5 can pass over the cultivation bench 10 reliably. Accordingly, even when the high-arrangement cultivation work device 3 is configured to be detachable from the mobile cultivation device 1, by connecting the rail support portion 8 to the conveyor frame 47, the transport conveyor 40 </ b> A of the carriage guide rail 6 and The relative position can always be a fixed position, and the assembling work of the high-arrangement cultivation working device 3 can be simplified.

  In addition, a carriage regulating member 29 that protrudes above the carriage guide rail 6 is installed at both ends of the carriage guide rail 6, and is regulated by the carriage regulating member 29 so that the transport carriage 5 is moved within the range of the carriage guide rail 6. doing. Accordingly, the transport cart 5 comes into contact with the cart restricting member 29 at both end positions of the cart guide rail 6, and the transport cart 5 is regulated so as to move within the range of the cart guide rail 6, and is separated from the cart guide rail 6. It can prevent falling.

  As above-mentioned, the mobile cultivation apparatus 1 guides and moves the conveyance trolley 5 which mounts the working machine 4 which works with respect to the cultivation bench 10 on the conveyance conveyor 40A, and the conveyance trolley 5 by the conveyance conveyor 40A side. It has an upright cultivation work device 3 composed of a carriage guide rail 6. And the conveyance trolley 5 is holding | griping the working machine 4 so that it may offset from the trolley | bogie guide rail 6, and by moving the conveyance trolley 5 along the trolley | bogie guide rail 6, the working machine 4 slides on the cultivation bench 10 directly. Let

  The detailed structure of the cultivation bench 10 will be described with reference to FIG. The cultivation bench 10 includes a planter 2 that is an upward-opening horizontally-long box-like container, and a horizontally-long box-frame-like frame frame 11 in which the planter 2 is accommodated. The planter 2 accommodates soil for cultivation, and a drain hole (not shown) for discharging excess water and chemicals to the outside is formed on the bottom surface thereof. At the front and rear edges of the upper surface of the planter 2, there are formed locking pieces 2 a that engage with the horizontally long upper frame 12 that constitutes the upper surface of the frame 11. The planter 2 is supported by the cultivation bench 10 by hooking and engaging the locking piece 2a with the upper frame 12.

  On the left and right horizontally long lower frame 18 constituting the lower surface side of the frame 11, a total of four sets of wheels 13 as a sliding body for sliding the cultivation bench 10 on the respective guide devices 20 </ b> A and 20 </ b> B are attached. ing. A total of four sets of wheels 13 are arranged side by side in the lateral direction of the cultivation bench 10 at intervals according to the arrangement width of the guide rails 35 (details will be described later) of each guide device 20A (20B). In addition, you may provide a sliding body in each guide apparatus 20A (20B) side. Further, the sliding body is not limited to the wheel 13 but may be another structure such as a roller, a slider, or a roller. On the upper surface side of the lower frame 18, a receiving rod 14 for collecting excess water and chemicals discharged from the discharge holes on the lower surface of the planter 2 is attached. The water and the chemicals collected in the receiving basket 14 of each cultivation bench 10 are collected and collected in the collection baskets 30A and 30B (see FIG. 13) extending along the longitudinal direction (vertical direction) of the guide devices 20A and 20B. The

  A pair of wire rod fixing arms 15 is detachably attached to both longitudinal ends of one upper frame 12 in each cultivation bench 10. In 1st Embodiment, the cultivation bench 10 is mounted on the mobile cultivation apparatus 1 so that both the wire fixed arms 15 may protrude toward 40 A of front side conveyors. A plurality of support arms 16 projecting in the same direction as the two wire rod fixing arms 15 are provided between the two wire rod fixing arms 15 in the one upper frame 12. Although not shown in detail, the wire rod is tied to the fixing hole formed in the both wire rod fixing arms 15, and the middle portion of the wire rod is hooked from above onto the guide groove formed on the upper surface of each support arm 16. For example, cover the net. The portion of the net is supported from below by the two wire rod fixing arms 15, the plurality of support arms 16, and the wire rod, and protects the portion that extends to the outside of the planter 2 in the fruit vegetables or the like during cultivation.

  An IC tag (not shown) that stores various information such as fruit vegetables grown on the cultivation bench 10 is provided on the lower center side of the frame 11. The use of IC tags can improve the traceability of fruits and vegetables.

  In each cultivation bench 10, an abutting frame 19 formed in a U-shape in plan view is provided in the longitudinal middle portion of the lower frame 18 on the same side as the wire fixing arm 15 and the support arm 16. The left and right vertical pipe portions 19b of the contact frame 19 are fixed to the lower frame 18 by welding. The horizontal pipe portion 19a of the contact frame 19 can be brought into contact with the lower frame 18 of the cultivation bench 10 on either one of the front and rear sides in the transport direction on each guide device 20A, 20B. In a state where the horizontal pipe portion 19a of the contact frame 19 is in contact with the adjacent cultivation bench 10, an appropriate interval (in the longitudinal direction) between the adjacent cultivation benches 10 along the longitudinal direction (vertical direction) of each guide device 20A, 20B ( In the embodiment, about 500 mm) is opened.

  In addition, if the contact frame 19 is configured to be detachable (changeable) or adjustable in length, the arrangement interval between the adjacent cultivation benches 10 may be changed to increase or reduce the cultivation benches 10. It is convenient to increase or decrease the cultivation bench 10 depending on the type and variety of fruits and vegetables. The contact frame 19 is not limited to the illustrated structure. It protrudes from each cultivation bench 10 so that it can open a space | interval suitably along the longitudinal direction (vertical direction) of each guide apparatus 20A, 20B between the adjacent cultivation bench 10 in the state contact | abutted to the adjacent cultivation bench 10. FIG. Any structure can be used.

  Next, the detailed structures of the transport conveyors 40A and 40B and the guide devices 20A and 20B will be described with reference to FIGS. 13 to 15 and FIGS. As described above, the pair of transport conveyors 40A and 40B and the pair of guide devices 20A and 20B are configured in a closed loop to circulate and transport the plurality of cultivation benches 10.

  The basic structure of both conveyors 40A and 40B is the same. Each conveyor 40A (40B) is provided with two horizontally long conveyor frames 47 supported by a plurality of legs. A pair of drive sprockets 42 and a pair of driven sprockets 43 are rotatably supported between the left and right ends of both conveyor frames 47. Between the two conveyor frames 47, two substantially parallel conveyor chains 41 are arranged via drive and driven sprockets 42 and 43. The conveyor chain 41 is wound around driving and driven sprockets 42 and 43. A conveyor motor 45A (45B) is connected to the drive shaft of the drive sprocket 42 via a chain and a sprocket transmission system so that power can be transmitted, and the two substantially parallel conveyor chains 41 are synchronized by the conveyor motor 45A (45B). Are configured to rotate in the same direction.

  On both conveyor chains 41, mounting plates 46 on which the wheels 13 of the cultivation bench 10 delivered from each guide device 20A (20B) are placed are attached at appropriate intervals. In a state where each wheel 13 of the cultivation bench 10 is placed on the corresponding placement plate 46, the conveyance motor 45 rotates the pair of conveyor chains 41 so that each conveyance conveyor 40A (40B) moves the cultivation bench 10 sideways. Transport in the direction.

  A space on the near side of the transport conveyor 40A on the near side (especially, a space on the near side near the second guide device 20B) is set as a work space for the operator. The worker can perform various operations (for example, harvesting operation, weeding operation, pruning operation, planter 2 replacement operation, etc.) in the operation space. Moreover, the irrigation apparatus 31 which spreads water toward the cultivation bench 10 conveyed by the horizontal direction by each conveyance conveyor 40A (40B) is arrange | positioned in the longitudinal middle part of both conveyance conveyors 40A and 40B.

  Furthermore, the control apparatus 32 (chemical solution spraying apparatus) is arrange | positioned in the position which is the furthest away from the work space in the mobile cultivation apparatus 1, ie, the back side conveyor 40B side. The control device 32 is for spraying a control agent or a chemical solution toward the cultivation bench 10 that is transported in the lateral direction by the back-side transport conveyor 40B. The control apparatus 32 of 1st Embodiment is arrange | positioned in the longitudinal middle part of the back | side conveyance conveyor 40B. Therefore, it is excellent at the point which can prevent reliably that a control agent and a chemical | medical solution adhere to the worker in a work space.

  On the other hand, the basic structure of both guide devices 20A and 20B is the same. Each of the guide devices 20A and 20B includes a plurality of guide rails 35 (four in the embodiment) on which the frame 13 of the cultivation bench 10 travels. The guide rail 35 group is arranged at intervals in the left-right direction (lateral direction), and is supported by a framework composed of a large number of columns and horizontal frames. Each guide rail 35 is formed in a V-shape that is bent upward in the front-rear direction (longitudinal direction) and opened upward as viewed from the longitudinal direction. Such a guide rail 35 having a V-shaped cross section can easily guide the plurality of cultivation benches 10 to the respective conveyors 40A (40B) without removing the wheels 13.

  In the lower part of the transport upstream side of each guide device 20A (20B), the cultivation bench 10 moved to the transport downstream side of each transport conveyor 40A (40B) is directed vertically toward the guide device 20A (20B) facing it. As a means for carrying, a retracting device 21A (21B) is provided. In the first embodiment, in order to circulate and convey the cultivation bench 10 in a plan view clockwise in FIG. 1, the feeding side pull-in device 21 </ b> A is provided at the lower side on the near side of the first guide device 20 </ b> A, and Return-side retracting devices 21B are arranged at the bottom. Then, the return-side retracting device 21B is sent to the lower portion on the back side of the first guiding device 20A and the lower portion on the near side of the second guiding device 20B so as to cope with the counter-clockwise circulating conveyance in FIG. A side pull-in device 21A is arranged. That is, the drawing-in devices 21A and 21B that are in a positional relationship on a diagonal line in the plan view of FIG.

  Hereinafter, for convenience of explanation, each drawing-in device 21B (21A) corresponding to the circular conveyance in a plan view in FIG. 13 will be described as an example. The basic structure of each drawing-in device 21B (21A) is the same. As shown in FIG.20 and FIG.21, each drawing-in apparatus 21B (21A) has a pair of engaging claw bodies 51 that can be engaged and disengaged from below to the cultivation bench 10 on the corresponding conveyor 40B (40A), and each engagement. As a lifting / lowering electromagnetic solenoid 52 as an engagement / disengagement actuator for engaging / disengaging the joint claw body 51 to / from the cultivation bench 10, and a reciprocating actuator for reciprocating both engagement claw bodies 51 in the vertical direction along the guide device 20B (20A). The air cylinder 53 is provided.

  A pair of front and rear beam frames 55 extending in the lateral direction are bolted to the upstream side of conveyance of the pair of horizontal frames 54 that are the framework of each guide device 20B (20A). A cylinder mount 56 is fixed to both beam frames 55 by welding or the like. On the cylinder mount 56, an air cylinder 53 is provided in a state where the piston rod 57 is positioned away from the transport downstream side of each transport conveyor 40B (40A). Each horizontal frame 54 is positioned below the inner two of the four guide rails 35.

  Round bar-like slide bars 58 extending in the vertical direction are arranged on both the left and right sides of the air cylinder 53. In this case, the base end sides of the horizontal beam brackets 59 (four in this embodiment) projecting outward in the left-right direction are fixed to the front and rear side ends of the cylinder mount 56. A bar support plate 60 is erected on the front end side of each horizontal rail bracket 59. Front and rear end portions of one of the left and right slide bars 58 are fixed to a pair of bar support plates 60 on one side of the left and right sides of the air cylinder 53, and a pair of bar support plates 60 on the other side of the left and right sides The front and rear ends of the slide bar 58 are fixed. Both slide bars 58 are arranged in parallel in the vertical direction.

  A slider 61 (see FIGS. 23 to 26) is slidably fitted to each slide bar 58. A flat plate-shaped moving plate 62 is attached to the upper surface side of both sliders 61. A portion between the sliders 61 on the lower surface side of the moving plate 62 is connected to the distal end side of the piston rod 57 in the air cylinder 53 via a connecting rod 63. Accordingly, the moving plate 62 is configured to reciprocate in the vertical direction along the slide bars 58 by the expansion and contraction of the piston rod 57 in the air cylinder 53.

  Engaging claw bodies 51 are arranged on the left and right ends of the upper surface of the moving plate 62 so as to be vertically rotatable. A shaft support 64 is erected on the left and right corner portions of the upper surface of the moving plate 62 that are far from the downstream side of conveyance of each conveyance conveyor 40B (40A). The base end side of the main body arm 65 in the engaging claw body 51 is pivotally supported by the pivotal support member 64 via the pivotal support pin shaft 66. The main body arm 65 of the engaging claw body 51 extends so as to approach the downstream conveyance side of each conveyance conveyor 40B (40A). A claw portion 67 detachably attached to the lower frame 18 of the cultivation bench 10 on each conveyor 40B (40A) is provided on the front end side of the main body arm 65.

  The claw portions 67 of the both engaging claw bodies 51 are positioned above the conveyance downstream side of each conveyance conveyor 40B (40A) with the piston rod 57 of the air cylinder 53 shortened, and each conveyance conveyor 40B (40A). And the lower frame 18 of the cultivation bench 10. In a state where the piston rod 57 of the air cylinder 53 is extended, the claw portions 67 of the both engaging claw bodies 51 are moved away from the conveyance downstream side of each conveyance conveyor 40B (40A). Each drawing-in device 21 </ b> B (21 </ b> A) holds the cultivation rod 10 in the extended state in which the piston rod 57 of the air cylinder 53 is extended in a standby state in which the cultivation bench 10 is not conveyed in the vertical direction (may be referred to as an initial state). This is because the claw portions 67 of the both engaging claw bodies 51 do not interfere with the cultivation bench 10 that is in the middle of conveyance on each conveyance conveyor 40B (40A) (does not get caught) of each conveyance conveyor 40B (40A). This is to keep away from the downstream side of the conveyance.

  As shown in FIG. 22, lift electromagnetic solenoids 52 are provided at the left and right corner portions of the lower surface of the moving plate 62 that are closer to the transport downstream side of each transport conveyor 40B (40A). The lifting rod 68 of each lifting electromagnetic solenoid 52 protrudes upward and passes through the moving plate 62. The tip end side of each lifting rod 68 is connected to the midway portion of the main body arm 65 in the corresponding engaging claw body 51. Each engagement claw body 51 is configured to rotate up and down around the pivot pin shaft 66 by the up and down movement of the up and down rod 68 in the corresponding up and down electromagnetic solenoid 52. That is, by engaging the claw bodies 51 in the vertical direction, the claw portion 67 is engaged with the lower frame 18 of the cultivation bench 10 on each conveyor 40B (40A), or the lower frame 18 and the claw portion 67 are engaged with each other. Release the engagement.

  When passing the cultivation bench 10 moved to the conveyance downstream side of one conveyance conveyor 40B (40A) to the guide device 20B (20A) facing it, the piston rod of the air cylinder 53 in one drawing-in device 21B (21A) 57 is shortened and the nail | claw part 67 of both the engagement nail | claw bodies 51 is inserted between each conveyance conveyor 40B (40A) and the lower frame 18 of the cultivation bench 10 (refer FIG. 23). Next, the lifting rods 68 of both lifting electromagnetic solenoids 52 are moved up to rotate both engaging claws 51 upward, and the claw portions 67 of both engaging claws 51 are placed on one lower frame 18 of the cultivation bench 10. Engage from below (see FIG. 24).

  Then, with the engagement between the lower frame 18 and both claws maintained, the piston rod 57 of each air cylinder 53 is extended, and the cultivation bench 10 on one transport conveyor 40B (40A) is guided to the guide device 20B ( 20A), the lower frame 18 of the cultivation bench 10 on the side of one of the conveyors 40B (40A) is brought into contact with the contact frame 19 (lateral pipe portion) of the cultivation bench 10 on the guide device 20B (20A) side. 19a) (see FIG. 25). As a result, the plurality of cultivation benches 10 on the guide device 20B (20A) collide one after another in a ball shape, and the cultivation bench 10 on the most downstream side of the guidance device 20B (20A) becomes the other transport conveyor 40A (40B). ) To the upstream side of conveyance. That is, after both the engaging claw bodies 51 are engaged with the cultivation bench 10 by driving both the lifting electromagnetic solenoids 52, the both engaging claw bodies 51 are conveyed downstream by the guide device 20B (20A) by driving the air cylinder 53. The plurality of cultivation benches 10 on the guide device 20B (20A) are conveyed in a ball shape by being moved toward the direction.

  Thereafter, the lifting rods 68 of both lifting electromagnetic solenoids 52 are moved downward to rotate the both engaging claws 51 downward, so that one lower frame 18 of the cultivation bench 10 and the claws 67 of the both engaging claws 51 are connected. The engagement is released (see FIG. 26). In addition, in this embodiment, when the adjacent cultivation bench 10 is conveyed in a ball shape, the contact frame 19 (lateral pipe part 19a) of the cultivation bench 10 on the conveyance upstream side is conveyed downstream on the first guide device 20A. It contacts the lower side of the lower frame 18 of the cultivation bench 10 on the side. On the 2nd guide apparatus 20B, the lower frame 18 back side surface of the cultivation bench 10 of the conveyance upstream contact | abuts to the contact frame 19 (lateral pipe part 19a) of the cultivation bench 10 of conveyance downstream.

  A stopper member 23 that regulates the vertical conveyance (collision conveyance) of the cultivation bench 10 delivered from the most downstream side of each guide device 20A (20B) is detachable on the conveyance upstream side of each conveyance conveyor 40A (40B). It is attached.

  Each cultivation bench 10 is placed on the mobile cultivation device 1 (each conveyance conveyor 40A (40B) and each guide device 20A (20B)) in a posture in which the contact frame 19 faces the back conveyance conveyor 40B. For this reason, the stopper member 23 of the back-side transport conveyor 40B is attached in a posture that protrudes to the front side in a plan view because of contact with the contact frame 19. The stopper member 23 of the front-side transport conveyor 40A is attached in a posture that overlaps with the back-side transport conveyor 40B in a plan view because of contact with the lower frame 18 of the cultivation bench 10 instead of the contact frame 19.

  Further, for the purpose of corresponding to both the clockwise and counterclockwise circulating conveyances in the plan view of FIG. 13, the stopper member 23 is disposed not only on the conveyance upstream side but also on the conveyance downstream side of each conveyance conveyor 40A (40B). ing. In the first embodiment, a total of four stopper members 23 are arranged, two on the conveyance upstream side of each conveyance conveyor 40A (40B) and two on the conveyance downstream side.

  When the cultivation bench 10 on the most downstream side of each guide device 20A (20B) is transferred to the other conveyance conveyor 40B (40A) by ball crush conveyance, the lower frame 18 rear side surface or the contact frame of the cultivation bench 10 on the most downstream side is used. 19 (horizontal pipe portion 19a) abuts on the stopper member, and the wheel 13 of the most downstream cultivation bench 10 is placed on the mounting plate 46, and on the upstream side of conveyance of the other conveyance conveyor 40B (40A). Stop. That is, it can be surely transferred to a fixed position on each conveyor 40B (40A).

  Thereafter, the cultivation bench 10 is moved to the conveyance downstream side by driving each conveyance conveyor 40B (40A). At this time, each conveyance is performed in the cultivation bench 40 due to the presence of the stopper members 23 on the conveyance upstream side and the conveyance downstream side. The cultivation bench 10 is guided to the conveyance downstream side along the stopper member 23 while preventing the positional deviation in the vertical direction orthogonal to the conveyor 40B (40A). Therefore, the cultivation bench 10 can be smoothly conveyed in the horizontal direction in a suitable posture on each conveyance conveyor 40B (40A).

  Next, the pneumatic circuit 70 structure of the mobile cultivation apparatus 1 will be described with reference to FIG. The pneumatic circuit 70 of the mobile cultivation apparatus 1 includes a compressor 71 that supplies high-pressure air to the air cylinder 53 and the air cylinders 53 of the respective retractors 21A (21B). In FIG. 27, illustration of the air cylinder 53 of each drawing-in device 21A (21B) for the counter-clockwise circulation conveyance in the plan view of FIG. 13 is omitted.

  The compressor 71 and each air cylinder 53 are connected via a 5-port 3-position switching type direction switching electromagnetic valve 72. The direction switching electromagnetic valve 72 has a pair of electromagnetic solenoids 73 electrically connected to a controller 75 as control means. The direction switching electromagnetic valve 73 includes an extension position for extending the piston rod 57 of the air cylinder 53 by an excitation of each electromagnetic solenoid 73 based on a command from the controller 75, a stop position for stopping the operation of the piston rod 57, and a piston. The rod 57 is configured to be switched to a shortened position where the rod 57 is shortened.

  The controller 75 as a control means performs drive control of each conveyance conveyor 40A (40B) and each drawing-in apparatus 21A (21B) regarding the circulation conveyance of the cultivation bench 10 group. The controller 75 includes a pair of left and right electromagnetic solenoids 52 as engaging / disengaging actuators, a first motor driver 74A for the first transport motor 45A of the front transport conveyor 40A, and a second transport motor 45B for the rear transport conveyor 40B. The two-motor driver 74B and the pair of electromagnetic solenoids 73 of each direction switching electromagnetic valve 72 described above are connected.

  As is clear from the above description, the mobile cultivation apparatus 1 of the present embodiment has a closed-loop configuration that circulates a plurality of cultivation benches 10 for cultivating fruit vegetables and the like, and the transport directions are opposite to each other. Each of the cultivation benches 10 is guided from the transport downstream side of the pair of transport conveyors 40A and 40B and the one transport conveyor 40A (40B) to the transport upstream side of the other transport conveyor 40B (40A). A pair of guide devices 20A and 20B, and a pair of drawing-in devices 21A and 21B that move the cultivation bench 10 on the transport conveyors 40A (40B) toward the guide device 20A (20B) on the downstream side of the transport are provided. The plurality of cultivation benches 10 on the respective guide devices 20A (20B) are driven by driving the respective drawing devices 21A (21B). Since each said drawing-in apparatus 21A (21B) is arrange | positioned in the lower part of the conveyance upstream of the said guidance apparatus 20A (20B) corresponding to this, it is the closed loop which circulates the some cultivation bench 10 Although it is the mobile cultivation apparatus 1 of a structure, it is not necessary to employ | adopt a complicated drive mechanism like patent document 3. FIG. That is, it is not necessary to provide a spline power shaft and a separate belt transmission system for each frame in the row direction and for each frame in the column direction. Therefore, significant cost reduction is possible. Moreover, since each said pulling-in apparatus 21A (21B) for ball crush conveyance will be accommodated in the inside of the mobile cultivation apparatus 1, the said respective drawing-in apparatus 21A (21B) does not protrude from the said mobile cultivation apparatus 1. . Therefore, the said mobile cultivation apparatus 1 can be comprised compactly.

  Moreover, each said drawing-in apparatus 21A (21B) has the engaging claw body 51 and the said engaging claw body 51 which can be engaged / disengaged from the bottom to the said cultivation bench 10 on the said conveyance conveyor 40A (40B) corresponding to this. An engagement / disengagement actuator 52 that engages / disengages with the cultivation bench 10 and a reciprocation actuator 53 that reciprocates the engagement claw body 51 along the guide device 20A (20B) on the downstream side of the conveyance. After the engaging claw body 51 is engaged with the cultivation bench 10 from below by driving the actuator 52, the engaging claw body 51 is driven downstream by the guide device 20A on the downstream side by driving the reciprocating actuator 53. 20B), the cultivation bench 10 on each of the conveyors 40A (40B) is moved downstream of the guide device 2 on the downstream side. When moving to A (20B), the pulling device 21A (21B) pulls toward the guiding device 20A (20B) on the downstream side of the conveyance to a position that is the same as or lower than the center of gravity of the cultivation bench 10. Power will act. Therefore, generation | occurrence | production of the rotation moment resulting from the drawing force with respect to the said cultivation bench 10 can be prevented or suppressed, and the possibility of the fall of the said cultivation bench 10 can be suppressed reliably.

  Furthermore, each said cultivation bench 10 is equipped with the contact frame 19 contact | abutted to any one cultivation bench 10 before and behind the conveyance direction on each said guide apparatus 20A (20B), The said contact frame 19 and said one Since the plurality of cultivation benches 10 on the guide devices 20A (20B) can be conveyed in a ball shape by contact with the cultivation bench 10, the circulation of the cultivation benches 10 is determined. In addition, there is no risk of pinching a peduncle or fruit such as fruit vegetables between the adjacent cultivation benches 10. Therefore, each cultivation bench 10 can be safely conveyed and circulated without damaging the inflorescences or fruits grown on the cultivation bench 10.

  In addition, since each contact frame 19 sets an arrangement interval of the group of the cultivation benches 10 arranged in the longitudinal direction of the guide devices 20A (20B), the cultivation bench 10 according to the fruit and vegetables to be cultivated is set. It is possible to adjust the arrangement interval of the groups by the contact frames 19. Therefore, the application range of the mobile cultivation apparatus 1 is expanded, and the versatility of the mobile cultivation apparatus 1 can be improved.

  In addition, a stopper member 23 for restricting the ball-carrying conveyance of the cultivation bench 10 delivered from the most downstream side of the one guide device 20A (20B) is arranged on the conveyance upstream side of each conveyance conveyor 40A (40B), and Since it comprises so that the movement of the said cultivation bench 10 by the conveyance conveyor 40A (40B) may be guided by the said stopper member 23, at the time of ball crush conveyance, the said cultivation bench 10 to which it passes is moved until it hits the said stopper member 23, It can be reliably conveyed to a fixed position on each of the conveyors 40A (40B). Thereafter, the cultivation bench 10 is moved along the stopper member 23 by the conveyance conveyor 40A (40B), and the cultivation bench 10 is smoothly conveyed in a suitable posture on the conveyance conveyor 40A (40B). it can.

  Hereinafter, another embodiment (second embodiment) of the present invention will be described with reference to FIGS. 28 to 30. While the mobile cultivation apparatus 1 in this embodiment becomes the structure similar to 1st Embodiment, the rail support stay 8 in the working apparatus 3 for high-arrangement cultivation attached to the mobile cultivation apparatus 1 by the rail support leg 8a. Configure. Since the other configuration is the same as that of the first embodiment, detailed description thereof will be omitted, and the configuration around the rail support leg 8a in the high-arrangement cultivation work device 3 will be described below.

  The working device for upright cultivation 3 supports the carriage guide rail 6 with a plurality of support frames 26, 33, and 36 erected from the ground, and the support frames 26, 33, and 36 are height adjustment members (adjusters). ) 50 so that the height can be adjusted. At this time, each of the plurality of rail support legs (rail support portions) 8a for supporting the carriage guide rail 6 includes two support frames 26 and 33 and a beam frame 27 that bridges the upper ends of the support frames 26 and 33. ing. Moreover, the rail support leg 8a has an oblique frame 28 connected from the middle part of the support frame 26 toward the upper end of the support frame 33 as a reinforcing member.

  Further, the conveyor frame 47 in the transport conveyor 40A to which the working device 3 for erecting cultivation is attached has a positioning frame 48, and is configured to be connectable to connection brackets 49a to 49d fixed to the support frame 26. Has been. Therefore, when assembling the upright cultivation work device 3 into the mobile cultivation device 1, the relative position of the carriage guide rail 6 with respect to the transport conveyor 40 </ b> A is determined by connecting the connection brackets 49 a to 49 d to the positioning frame 48. And the height of the support | pillar frame 26,33,36 is adjusted with the height adjustment member (adjuster) 50 provided in the lower end side of the support | pillar frame 26,33,36, and the working apparatus 3 for an erecting cultivation system Is supported in a stable posture with respect to the ground. Further, even when the elevated cultivation work device 3 is detached from the mobile cultivation device 1, the elevated cultivation work device 3 can be erected on the ground by the support frames 26, 33, 36.

  The present invention is not limited to the above-described embodiment, and can be embodied in various forms. The configuration of each other part is not limited to the illustrated embodiment, and various modifications can be made without departing from the spirit of the present invention. In addition, the term “fruit vegetables etc.” used in the present specification is used as a concept including fruit vegetables such as strawberries and leaf vegetables such as spinach.

DESCRIPTION OF SYMBOLS 1 Mobile cultivation apparatus 3 Working apparatus for upright cultivation 4 Work machine 5 Carriage carriage 6 Carriage guide rail 7 Carriage stand-by part 8 Rail support stay 10 Cultivation bench 19 Contact frame 20A, 20B Guide apparatus 21A, 21B Pull-in apparatus 23 Stopper member 40A, 40B Conveyor 76 Moving platform 77 Moving wheel (first wheel)
78 Grip stand 79 Supporting wheel (second wheel)
80a-80c Handle part 94 Air cylinder 97 Piston rod 99 Coil spring 110 Guide member 111 Guide rod

Claims (3)

Fruit juice A closed-loop mobile cultivation device that circulates and conveys a plurality of cultivation benches for cultivating etc.
For upright cultivation, comprising a transport carriage carrying a work machine that operates on the cultivation bench on the transport conveyor, and a carriage guide rail that guides and moves the transport carriage on the side of the transport conveyor Have working equipment,
The transport cart holds the work machine so as to be offset from the cart guide rail, and the work cart is slid directly on the cultivation bench by moving the transport cart along the cart guide rail. A mobile cultivation apparatus characterized by   The elevated cultivation work device has a plurality of rail support portions that support the carriage guide rail, and the rail support portions can be attached to and detached from a connecting member provided on a conveyor frame of the conveyor. The mobile cultivation apparatus according to claim 1, wherein the cultivation apparatus is connected. The upright cultivation work device is configured to support the carriage guide rail with a plurality of support frames standing upright from the ground, and the support frames can be adjusted in height.
The mobile cultivation apparatus according to claim 1, wherein a connecting member for positioning the support frame is provided on a conveyor frame of the transport conveyor.

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