JP2010057448A - Movable cultivation apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cultivation apparatus intended for performing vertical movement by a simple mechanism with a comb-like rod. <P>SOLUTION: The cultivation apparatus is such that a first vertical transport mechanism 40A transports all cultivation beds 10A put on one cultivation bed putting mechanism 20A, and cultivation beds 10A put on a second horizontal transport mechanism 30B and located on the other end of the one cultivation bed putting mechanism 20A, until the cultivations beds 10A put on the one end of the one cultivation bed putting mechanism 20A are put on a first horizontal transport mechanism 30A. Furthermore, a second vertical transport mechanism 40B transports all cultivation beds 10B put on the other cultivation bed putting mechanism 20B, and cultivation beds 10B put on the first horizontal transport mechanism 30A and located on one end of the other cultivation bed putting mechanism 20B, until the cultivations beds 10B put on the other end of the other cultivation bed putting mechanism 20B are put on the second horizontal transport mechanism 30B. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  TECHNICAL FIELD The present invention relates to a mobile cultivation apparatus that realizes high-density planting cultivation by moving a cultivation bed for cultivating vegetables and flowers horizontally, and can perform operations at a fixed place.

An apparatus (Patent Document 1) that circulates a pool bench-shaped cultivation bed in the vertical and horizontal directions and an apparatus (Patent Document 2) that tilts the cultivation bed in which pots are arranged in moving circulation have been proposed.
Moreover, in order to cultivate vegetables and flower buds by high-density planting and to secure a working path, methods for operating the cultivation bed left and right or up and down (Patent Documents 3, 4, and 5) have been proposed.
JP-A-11-298771 JP 2007-282589 A JP 2003-52252 A Japanese Patent Laid-Open No. 2004-21 JP 2003-245016 A

  In the method of Patent Document 1, it is possible to move a specific bed to a specific position such as a work place. However, since it has an elevating mechanism, the operation time is long and it is not suitable for continuous work. In addition, it is difficult to manage fine water with a pool bench-shaped cultivation bed, and tomatoes and strawberries cannot be cultivated.

  Therefore, the present invention performs a vertical movement with a comb-like rod with a simple mechanism, and the horizontal transfer mechanism and the vertical transfer mechanism operate in synchronization, thereby reducing the turnaround time of the cultivation bed and enabling efficient work. Become. In addition, it is possible to automatically perform irrigation methods (overhead irrigation, bottom irrigation) and chemical solution spraying suitable for crops during the bed rotation.

The mobile cultivation apparatus of the present invention according to claim 1 is provided on at least two rows of cultivation bed placement mechanisms for arranging a plurality of cultivation beds for growing vegetables and flowers, and on one end side of the cultivation bed placement mechanism, A first lateral transfer mechanism for transferring the cultivation bed from one end side of the cultivation bed placement mechanism to one end side of the other cultivation bed placement mechanism, and a second lateral side of the cultivation bed placement mechanism. The second lateral transfer mechanism for transferring the cultivation bed from the other end side of the other cultivation bed placement mechanism to the other end side of the one cultivation bed placement mechanism, and the one cultivation bed placement mechanism. The first vertical transfer mechanism that transfers the placed cultivation bed in the direction of the first horizontal transfer mechanism, and the second cultivation bed that is placed on the other cultivation bed placement mechanism. Second transfer in the direction of the lateral transfer mechanism It is a mobile cultivation apparatus provided with a transfer mechanism, and in the first vertical transfer mechanism, all the cultivation beds placed in one of the cultivation bed placement mechanisms and the second horizontal transfer mechanism The cultivation bed placed on one end side of the one cultivation bed placement mechanism and the cultivation bed located on the other end side of the one cultivation bed placement mechanism Transfer until it is placed in the first horizontal transfer mechanism, and in the second vertical transfer mechanism, all the cultivation beds placed in the other cultivation bed placement mechanism, and the first The cultivation bed placed on one end side of the other cultivation bed placement mechanism and placed on the other end side of the other cultivation bed placement mechanism while being placed on the lateral transfer mechanism A cultivation bed is placed in the second lateral transfer mechanism In the first lateral transfer mechanism, the cultivation bed is placed on one side of the cultivation bed placement mechanism, and the cultivation bed is not placed on the other side of the cultivation bed placement mechanism. In the state, the cultivation bed placed on the one cultivation bed placement mechanism side is transferred to the other cultivation bed placement mechanism side, and the second lateral transfer mechanism is used to move the other cultivation bed placement mechanism side. The cultivation bed is placed on the placement mechanism side, and in the state where the cultivation bed is not placed on one of the cultivation bed placement mechanisms, the cultivation bed is placed on the other cultivation bed placement mechanism side The cultivation bed is transferred to one of the cultivation bed placement mechanisms.
The present invention according to claim 2 is the mobile cultivation apparatus according to claim 1, wherein the cultivation bed placement mechanism is configured by a pair of rails, and the cultivation bed is placed on the rails via a sliding body. The first vertical transfer mechanism and the second vertical transfer mechanism include a comb rod having contact rods provided at predetermined intervals, a rotation drive mechanism for rotating the comb rod, and the comb rod. It is characterized by comprising a sliding drive mechanism that moves the lens in the longitudinal direction.
According to a third aspect of the present invention, in the mobile cultivation apparatus according to the first aspect, an upper water supply mechanism is provided in the first horizontal transfer mechanism or the second horizontal transfer mechanism.
According to a fourth aspect of the present invention, in the mobile cultivation apparatus according to the first aspect, the end of the bottom water supply ridge protrudes from one end of the cultivation bed, and the bottom water supply is provided at one end of the cultivation bed placement mechanism. The unit is arranged.
According to a fifth aspect of the present invention, in the mobile cultivation apparatus according to the first aspect, the first horizontal transfer mechanism or the second horizontal transfer mechanism is provided with a control device for spraying a chemical solution. To do.

According to the present invention, the cultivation bed is moved and circulated in order by the first vertical transfer means, the first horizontal transfer means, the second vertical transfer means, and the second horizontal transfer means. In addition to making it possible, operations such as planting, foliage, fruit picking, and harvesting can be performed efficiently at a certain place.
Moreover, according to this invention, while being able to perform a 1st vertical transfer mechanism and a 2nd vertical transfer mechanism with a simpler mechanism, it is easy to synchronize movement circulation, shortening the circulation time of a cultivation bed, and efficiency. Work can be made possible.

In the mobile cultivation apparatus according to the first embodiment of the present invention, in the first vertical transfer mechanism, all the cultivation beds placed in one of the cultivation bed placement mechanisms and the second horizontal transfer mechanism are cut. The cultivation bed placed on the other end side of the one cultivation bed placement mechanism and the cultivation bed placed on one end side of the one cultivation bed placement mechanism is a first lateral transfer mechanism In the second vertical transfer mechanism, all the cultivation beds placed in the other cultivation bed placement mechanism and the first lateral transfer mechanism are placed in the other side. Until the cultivation bed placed on the other end side of the other cultivation bed placement mechanism is placed on the second lateral transfer mechanism with the cultivation bed located on one end side of the cultivation bed placement mechanism In the first lateral transfer mechanism, the cultivation bed is placed on one cultivation bed placement mechanism side. The cultivation bed placed on the one cultivation bed placement mechanism side in the state where the cultivation bed placed on the other cultivation bed placement mechanism side is not placed on the other cultivation bed placement mechanism side. In the second lateral transfer mechanism, the cultivation bed is placed on the other cultivation bed placement mechanism side, and the cultivation bed is not placed on the other cultivation bed placement mechanism side. The cultivation bed placed on the cultivation bed placement mechanism side is transferred to one cultivation bed placement mechanism side. According to this embodiment, the cultivation bed is moved and circulated in order by the first vertical transfer means, the first horizontal transfer means, the second vertical transfer means, and the second horizontal transfer means, so that it is highly densely planted. In addition to enabling cultivation, operations such as planting, foliage, fruit picking, and harvesting can be performed efficiently at a certain place.
According to a second embodiment of the present invention, in the mobile cultivation apparatus according to the first embodiment, the cultivation bed placement mechanism is configured by a pair of rails, and the cultivation bed is placed on the rail via a sliding body. The first vertical transfer mechanism and the second vertical transfer mechanism, a comb-shaped rod provided with contact bars at predetermined intervals;
The rotary drive mechanism is configured to rotate the comb-shaped rod, and the sliding drive mechanism is configured to move the comb-shaped rod in the longitudinal direction. According to the present embodiment, the first vertical transfer mechanism and the second vertical transfer mechanism can be performed by a simpler mechanism, and it is easy to synchronize the moving circulation and shorten the circulation time of the cultivation bed. Efficient work can be made possible.
The third embodiment of the present invention is the mobile cultivation apparatus according to the first embodiment, in which an upper water supply mechanism is provided in the first horizontal transfer mechanism or the second horizontal transfer mechanism. According to this Embodiment, an upper water supply can be performed during the operation | movement of a moving circulation, without providing an upper water supply mechanism for every cultivation bed.
In the mobile cultivation apparatus according to the first embodiment, the fourth embodiment of the present invention is such that the end of the bottom water supply ridge protrudes from one end of the cultivation bed and the bottom surface at one end of the cultivation bed placement mechanism. A water supply unit is arranged. According to this Embodiment, bottom surface water supply can be performed, without affecting the movement circulation operation | movement of a cultivation bed.
In the mobile cultivation apparatus according to the first embodiment, the fifth embodiment of the present invention is provided with a control device for spraying a chemical solution on the first horizontal transfer mechanism or the second horizontal transfer mechanism. . According to this Embodiment, without providing a control apparatus for every cultivation bed, a chemical | medical solution dispersion | spreading can be performed during the operation | movement of moving circulation using conveyance operation | movement.

Embodiments of the present invention will be described below in detail with reference to the drawings.
FIG. 1 is a perspective view showing a main configuration of a mobile cultivation apparatus in one embodiment of the present invention, FIG. 2 is a top view of the mobile cultivation apparatus, FIG. 3 is a perspective view of a cultivation bed used in the mobile cultivation apparatus, and FIG. Is a perspective view of a vertical transfer mechanism used in the mobile cultivation apparatus, FIG. 5 is a perspective view of a water supply mechanism used in the mobile cultivation apparatus, and FIG. 6 is a perspective view of a control apparatus used in the mobile cultivation apparatus.

As shown in FIG.1 and FIG.2, the mobile cultivation apparatus by a present Example is provided with the cultivation bed arrangement | positioning mechanism 20A, 20B of at least 2 rows which arranges the some cultivation bed 10 which grows vegetables and a flower. A first lateral transfer mechanism 30A is provided on one end side of the cultivation bed placement mechanisms 20A, 20B, and a second lateral transfer mechanism 30B is provided on the other end side of the cultivation bed placement mechanisms 20A, 20B. It has been.
The cultivation bed placement mechanisms 20A and 20B are each composed of a pair of rails held at a predetermined height. The cultivation bed 10 is placed on a rail through a sliding body. As the sliding body, a roller, a caster, or a roller can be used.
The first horizontal transfer mechanism 30A transfers the cultivation bed 10 from one end side of one cultivation bed placement mechanism 20A to one end side of the other cultivation bed placement mechanism 20B, and uses, for example, a belt conveyor. The second lateral transfer mechanism 30B transfers the cultivation bed 10 from the other end side of the other cultivation bed placement mechanism 20B to the other end side of the other cultivation bed placement mechanism 20A. For example, a belt conveyor is used.
The first vertical transfer mechanism 40A transfers the cultivation bed 10 placed on one of the cultivation bed placement mechanisms 20A in the direction of the first lateral transfer mechanism 30A. The second vertical transfer mechanism 40B transfers the cultivation bed 10 placed on the other cultivation bed placement mechanism 20B in the direction of the second lateral transfer mechanism 30B.
An upper water supply mechanism 50 is provided in the first lateral transfer mechanism 30A. The upper water supply mechanism 50 is disposed between one cultivation bed placement mechanism 20A and the other cultivation bed placement mechanism 20B. Further, the second lateral transfer mechanism 30B is provided with a control device 60 for spraying a chemical solution. The control device 60 is disposed in a gate shape between one cultivation bed placement mechanism 20A and the other cultivation bed placement mechanism 20B. As described above, the upper water supply mechanism 50 and the control device 60 are provided in the first horizontal transfer mechanism 30A and the second horizontal transfer mechanism 30B, respectively, so that the upper water supply can be performed during the movement and circulation operation using the transfer operation. And chemical spraying. Moreover, the upper water supply mechanism 50 and the control apparatus 60 are arrange | positioned between one cultivation bed arrangement | positioning mechanism 20A and the other cultivation bed arrangement mechanism 20B, and the upper water supply mechanism 50 and the prevention apparatus 60 become a cultivation bed. 10 transports, planting, leaf cutting, fruit picking, harvesting, etc. are not hindered.
The bottom surface water supply unit 70 is arrange | positioned at the one end side of the cultivation bed arrangement | positioning mechanisms 20A and 20B, respectively. It is preferable that at least one of the bottom surface water supply units 70 is disposed between one cultivation bed placement mechanism 20A and the other cultivation bed placement mechanism 20B. Any one of the bottom surface water supply units 70 is disposed between the one cultivation bed placement mechanism 20A and the other cultivation bed placement mechanism 20B, whereby the water piping to the upper water supply mechanism 50 and the bottom water supply unit 70 are connected. Water piping can be shared, and installation and maintenance can be improved.

The cultivation bed 10 is shown in FIG.
On the frame of the cultivation bed 10, a V-type planter is loaded. Under the frame of the cultivation bed 10, a rail moving roller 11 is provided as a sliding body in accordance with the rail width. The sliding body may be provided on the rail side, or may be a sliding member such as a slider. Moreover, the bottom surface of the cultivation bed 10 is provided with a bottom water supply paddle 12 in the longitudinal direction. At least one end of the bottom surface water supply ridge 12 protrudes from the cultivation planter, making it easy to receive water from the bottom surface water supply unit 70.

FIG. 4 shows the first vertical transport mechanism 40A and the second vertical transport mechanism 40B.
The first vertical transport mechanism 40A and the second vertical transport mechanism 40B include a pair of comb-shaped rods 42 having contact bars 41 provided at predetermined intervals, a rotation drive mechanism 43 that rotates the comb-shaped rods 42, The sliding drive mechanism 44 is configured to move the comb-shaped rod 42 in the longitudinal direction. The spacing between the cultivation beds 10 is determined by the distance between the contact bars 41. When the contact bar 41 is in the vertical direction as shown in the drawing, it comes into contact with the cultivation bed 10. By rotating the comb-shaped rod 42 by the rotation drive mechanism 43, the contact bar 41 can be prevented from contacting the cultivation bed 10. Accordingly, the comb-shaped rod 42 is rotated about 90 degrees so that the contact bar 41 changes from the vertical direction to the horizontal direction. A rotation motor is used for the rotation drive mechanism 43, and the rotation motor is provided on each of the pair of comb-shaped rods 42. In addition, the rotation drive mechanism 43 may be installed between the pair of comb-shaped rods 42, and the pair of comb-shaped rods 42 may be rotated by the link mechanism. The rotation operation of one comb-shaped rod 42 by the rotary motor is transmitted to the other comb-shaped rod 42. The sliding drive mechanism 44 is provided with a rotary motor 46, a sliding shaft 47 that moves in the longitudinal direction of the comb-shaped rod 42 by driving the rotary motor 46, and one end of the sliding shaft 47. The connecting rod 48 is connected to the rod 42. The rotation motor 46 is a motor that can be driven forward and backward to reciprocate the sliding shaft 47. In addition, the structure by gear switching may be sufficient instead of the motor which can drive forward / reverse.

FIG. 5 shows the upper water supply mechanism 50.
The upper water supply mechanism 50 includes an overhead irrigation nozzle 51 and a lower leaf lifting plate 52 provided on the upstream side of the first lateral transfer mechanism 30 </ b> A with respect to the overhead irrigation nozzle 51. The overhead irrigation nozzle 51 is provided on the side of the first lateral transfer mechanism 30A, and the nozzle port of the overhead irrigation nozzle 51 is directed to the conveyor center of the first lateral transfer mechanism 30A. The lower leaf lifting plate 52 has a transfer upstream end positioned lower than a transfer downstream end. Moreover, the upper water supply mechanism 50 is provided with the limit switch 53, contacts the limit switch 53 when the cultivation bed 10 passes, and when the limit switch 53 is turned ON, the nutrient solution is supplied from the irrigation nozzle and finishes passing. And the nutrient solution stops. In this embodiment, a contact-type switch is used as the limit switch 53, but a photoelectric sensor (proximity sensor) is more suitable in view of stability. Moreover, the height of the irrigation nozzle 51 and the lower leaf lifting plate 52 can be adjusted according to the cultivation bed 10, and the whole attachment position can be slid. By providing the lower leaf lifting plate 52 on the upstream side of the transfer from the overhead irrigation nozzle 51 as in the present embodiment, the upper water supply can be efficiently performed using the transport operation. However, the lower leaf lifting plate 52 may not be provided.

FIG. 6 shows the control device 60.
The control device 60 includes a portal frame 61 and a water spray nozzle 62 attached to the portal frame 61, and the portal frame 61 is disposed so as to straddle the second lateral transfer mechanism 30B. The watering nozzle 62 is provided with a nozzle port at a plurality of positions of both pillars and beams constituting the portal frame 61 so as to face the lateral transport mechanism 30B. Thus, the portal frame 61 is disposed so as to straddle the second lateral transfer mechanism 30B, and the nozzle port of the watering nozzle 62 is provided toward the lateral transport mechanism 30B, so that the lateral transport mechanism 30B is moved. Drugs can be sprayed from the entire periphery of crops such as vegetables and flowers.

Below, operation | movement of the mobile cultivation apparatus by a present Example is demonstrated.
In addition, although a present Example demonstrates the circulation direction of the cultivation bed 10 as clockwise, counterclockwise rotation is also possible by changing arrangement | positioning on either side.
First, the operation of the first vertical transfer mechanism 40A will be described.
In the first vertical transfer mechanism 40A, all the cultivation beds 10A placed on one cultivation bed placement mechanism 20A and the second lateral transfer mechanism 30B are placed and one cultivation bed placement mechanism. Until the cultivation bed 10A placed on one end of the cultivation bed placement mechanism 20A is placed on the first lateral transfer mechanism 30A with the cultivation bed 10A located on the other end side of 20A Transport.
The transfer operation of the first vertical transfer mechanism 40A is performed as follows.
In the initial state, both ends of the comb-shaped rod 42 are in positions where they do not protrude from the first lateral transfer mechanism 30A and the second lateral transfer mechanism 30B, and the comb-shaped rod 42 is stopped.
Then, the pair of comb-shaped rods 42 is moved to the second lateral transfer mechanism 30B side by the sliding drive mechanism 44. In this moving operation, the contact bar 41 is not brought into contact with the cultivation bed 10A. The contact rod 41 formed on the pair of comb-shaped rods 42 is moved until it exceeds the cultivation bed 10A placed on the second lateral transfer mechanism 30B.
Then, the comb rod 42 is rotated by the rotation drive mechanism 43 to position the contact rod 41 in the vertical direction.
After the contact rod 41 is positioned in the vertical direction, the pair of comb-shaped rods 42 are moved to the first lateral transfer mechanism 30A side by the sliding drive mechanism 44. By this movement, each contact bar 41 contacts all the cultivation beds 10A, and the cultivation bed 10A is pushed by the contact bars 41 and moves to the first lateral transfer mechanism 30A side. The movement of the comb-shaped rod 42 is performed until the cultivation bed 10A placed on one end side of the one cultivation bed placement mechanism 20A is placed on the first lateral transfer mechanism 30A. In a state where the cultivation bed 10A placed on one end side of one cultivation bed placement mechanism 20A is placed on the first lateral transfer mechanism 30A, the cultivation placed on the second lateral transfer mechanism 30B. The bed 10A has moved to one cultivation bed placement mechanism 20A.
The cultivation bed 10A placed on the second lateral transfer mechanism 30B is placed on one cultivation bed placement mechanism 20A, and the cultivation bed 10A placed on the other cultivation bed placement mechanism 20A When placed on the first lateral transfer mechanism 30A, the comb-shaped rod 42 is rotated by the rotation drive mechanism 43, and the contact bar 41 is not brought into contact with the cultivation bed 10A. In this state, the pair of comb-shaped rods 42 are moved to the second lateral transfer mechanism 30B side by the sliding drive mechanism 44. In addition, the movement of the comb-shaped rod 42 by the sliding drive mechanism 44 is stopped at a position where both ends of the comb-shaped rod 42 do not protrude from the first lateral transport mechanism 30A and the second lateral transport mechanism 30B.

Next, the operation of the second vertical transfer mechanism 40B will be described.
In the second vertical transfer mechanism 40B, all the cultivation beds 10B placed in the other cultivation bed placement mechanism 20B and the first lateral transfer mechanism 30A are placed and the other cultivation bed placement mechanism. Until the cultivation bed 10B placed on the other end side of the other cultivation bed placement mechanism 20B is placed on the second lateral transfer mechanism 30B with the cultivation bed 10B located on one end side of 20B Transport.
The transfer operation of the second vertical transfer mechanism 40B is performed as follows.
In the initial state, both ends of the comb-shaped rod 42 are in positions where they do not protrude from the first lateral transfer mechanism 30A and the second lateral transfer mechanism 30B, and the comb-shaped rod 42 is stopped.
Then, the pair of comb-shaped rods 42 is moved to the first lateral transfer mechanism 30 </ b> A side by the sliding drive mechanism 44. In this moving operation, the contact bar 41 is not brought into contact with the cultivation bed 10A. The contact rod 41 formed on the pair of comb-shaped rods 42 is moved until it exceeds the cultivation bed 10B placed on the first lateral transfer mechanism 30A.
Then, the comb rod 42 is rotated by the rotation drive mechanism 43 to position the contact rod 41 in the vertical direction.
After the contact rod 41 is positioned in the vertical direction, the pair of comb-shaped rods 42 are moved to the second lateral transfer mechanism 30B side by the sliding drive mechanism 44. By this movement, each contact bar 41 comes into contact with all the cultivation beds 10B, and the cultivation bed 10B is pushed by the contact bars 41 and moves to the second lateral transfer mechanism 30B side. The comb-shaped rod 42 is moved until the cultivation bed 10B placed on the other end side of the other cultivation bed placement mechanism 20B is placed on the second lateral transfer mechanism 30B. In the state where the cultivation bed 10B placed on one end side of the other cultivation bed placement mechanism 20B is placed on the second lateral transfer mechanism 30B, the cultivation placed on the first lateral transfer mechanism 30A. The bed 10B has moved to the other cultivation bed placement mechanism 20B.
The cultivation bed 10B placed on the first lateral transfer mechanism 30A is placed on the other cultivation bed placement mechanism 20B, and the cultivation bed 10B placed on the other cultivation bed placement mechanism 20B When placed on the second lateral transfer mechanism 30B, the comb-like rod 42 is rotated by the rotation drive mechanism 43, and the contact bar 41 is not brought into contact with the cultivation bed 10B. In this state, the sliding drive mechanism 44 moves the pair of comb-shaped rods 42 toward the first lateral transfer mechanism 30A. In addition, the movement of the comb-shaped rod 42 by the sliding drive mechanism 44 is stopped at a position where both ends of the comb-shaped rod 42 do not protrude from the first lateral transport mechanism 30A and the second lateral transport mechanism 30B.
The operation of the first vertical transfer mechanism 40A and the operation of the second vertical transfer mechanism 40B are preferably operated at the same timing.

Next, the operation of the first lateral transfer mechanism 30A will be described.
The operation of the first horizontal transfer mechanism 30A is performed after the operation of the first vertical transfer mechanism 40A and the operation of the second vertical transfer mechanism 40B are completed.
After the operation of the first vertical transfer mechanism 40A and the operation of the second vertical transfer mechanism 40B are finished, in the first horizontal transfer mechanism 30A, the cultivation bed 10A is placed on the one cultivation bed placement mechanism 20A side. The cultivation bed 10B is not placed on the other cultivation bed placement mechanism 20B side. In the first lateral transfer mechanism 30A, the cultivation bed 10A placed on the one cultivation bed placement mechanism 20A side is transferred to the other cultivation bed placement mechanism 20B side. This transfer is performed by operating the belt conveyor of the first lateral transfer mechanism 30A for a predetermined time. In addition, it is preferable to provide a stopper at the end of the first lateral transfer mechanism 30A.

Next, the operation of the second lateral transfer mechanism 30B will be described.
The operation of the second horizontal transfer mechanism 30B is performed after the operation of the first vertical transfer mechanism 40A and the operation of the second vertical transfer mechanism 40B are completed.
After the operation of the first vertical transfer mechanism 40A and the operation of the second vertical transfer mechanism 40B, in the second horizontal transfer mechanism 30B, the cultivation bed 10B is placed on the other cultivation bed placement mechanism 20B side. The cultivation bed 10A is not placed on the one cultivation bed placement mechanism 20A side. In the second horizontal transfer mechanism 30B, the cultivation bed 10B placed on the other cultivation bed placement mechanism 20B side is transferred to the one cultivation bed placement mechanism 20A side. This transfer is performed by operating the belt conveyor of the second lateral transfer mechanism 30B for a predetermined time. In addition, it is preferable to provide a stopper at the end of the second lateral transfer mechanism 30B.
The operation of the first horizontal transfer mechanism 30A and the operation of the second horizontal transfer mechanism 30B are preferably operated at the same timing.

As described above, according to the present embodiment, the cultivation bed 10 is composed of the first vertical transfer unit 40A, the first horizontal transfer unit 30A, the second vertical transfer unit 40B, and the second horizontal transfer unit 30B. Since it moves and circulates in order, high-density planting is possible, and operations such as planting, leaf cutting, fruit picking, and harvesting can be performed efficiently at a certain place.
Moreover, according to a present Example, while being able to perform the 1st vertical transfer mechanism 40A and the 2nd vertical transfer mechanism 40B with a simpler mechanism, it is easy to synchronize movement circulation and the circulation time of the cultivation bed 10 It is possible to shorten the time and enable efficient work.
In addition, according to the present invention, the first vertical transfer mechanism 40A and the second vertical transfer mechanism 40B are operated in synchronization, and the first horizontal transfer mechanism 30A and the second horizontal transfer mechanism 30B are synchronized. The operation time of the cultivation bed 10 can be shortened.

  The mobile cultivation apparatus according to the present invention can be applied to fruits such as strawberries, and other plants such as vegetables and flowers.

The perspective view which shows the main structures of the mobile cultivation apparatus in one Example of this invention. Top view of the mobile cultivation device Perspective view of cultivation bed used in the mobile cultivation device Perspective view of the vertical transfer mechanism used for the mobile cultivation device Perspective view of water supply mechanism used in the mobile cultivation device Perspective view of a control device used for the mobile cultivation device

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Cultivation bed 20A, 20B Cultivation bed placement mechanism 30A 1st horizontal transfer mechanism 30B 2nd horizontal transfer mechanism 40A 1st vertical conveyance mechanism 40B 2nd vertical conveyance mechanism 50 Upper water supply mechanism 60 Control apparatus 70 Bottom surface water supply unit

Claims (5)

At least two rows of cultivation bed arrangement mechanisms for arranging a plurality of cultivation beds for cultivating vegetables and flowers;
A first lateral transfer mechanism that is provided on one end side of the cultivation bed placement mechanism and that transfers the cultivation bed from one end side of the one cultivation bed placement mechanism to one end side of the other cultivation bed placement mechanism; ,
2nd side which is provided in the other end side of the cultivation bed placement mechanism, and transfers the cultivation bed from the other end side of the other cultivation bed placement mechanism to the other end side of one cultivation bed placement mechanism. A transfer mechanism;
A first vertical transfer mechanism for transferring the cultivation bed placed in one of the cultivation bed placement mechanisms in the direction of the first horizontal transfer mechanism;
A mobile cultivation apparatus comprising a second vertical transfer mechanism for transferring the cultivation bed placed in the other cultivation bed placement mechanism in the direction of the second horizontal transfer mechanism;
In the first vertical transfer mechanism, all the cultivation beds placed in one of the cultivation bed placement mechanisms, and placed in the second lateral transfer mechanism and one of the cultivation bed placements Until the cultivation bed placed on one end side of one of the cultivation bed placement mechanisms is placed on the first lateral transfer mechanism with the cultivation bed located on the other end side of the mechanism Transport,
In the second vertical transfer mechanism, all the cultivation beds placed in the other cultivation bed placement mechanism, and placed in the first lateral transfer mechanism and the other cultivation bed placement Until the cultivation bed placed on the other end side of the other cultivation bed placement mechanism is placed on the second lateral transfer mechanism with the cultivation bed located on one end side of the mechanism Transport,
In the first lateral transfer mechanism, the cultivation bed is placed on one of the cultivation bed placement mechanisms, and the cultivation bed is not placed on the other cultivation bed placement mechanism. The cultivation bed placed on the cultivation bed placement mechanism side is transferred to the other cultivation bed placement mechanism side,
In the second lateral transfer mechanism, the cultivation bed is placed on the other cultivation bed placement mechanism side, and the cultivation bed is not placed on the other cultivation bed placement mechanism side. A mobile cultivation apparatus, wherein the cultivation bed placed on the cultivation bed placement mechanism side is transferred to one of the cultivation bed placement mechanisms. The cultivation bed placement mechanism is composed of a pair of rails,
The cultivation bed is placed on the rail via a sliding body,
The first vertical transfer mechanism and the second vertical transfer mechanism;
A comb-like rod provided with contact rods at predetermined intervals;
A rotation drive mechanism for rotating the comb-shaped rod;
The mobile cultivation apparatus according to claim 1, comprising a sliding drive mechanism for moving the comb-shaped rod in a longitudinal direction.   The mobile cultivation apparatus according to claim 1, wherein an upper water supply mechanism is provided in the first horizontal transfer mechanism or the second horizontal transfer mechanism.   2. The mobile cultivation apparatus according to claim 1, wherein an end portion of the bottom water supply ridge is protruded from one end of the cultivation bed, and a bottom water supply unit is disposed at one end side of the cultivation bed placing mechanism.   The mobile cultivation apparatus according to claim 1, wherein a control device for spraying a chemical solution is provided in the first horizontal transfer mechanism or the second horizontal transfer mechanism.