NL1022688C2 - Planting machine has singulating system with two singulators, one singulator for splitting off in rows plants supplied in sheets and other for singulating plants supplied in split up rows by transport system - Google Patents

Abstract

The machine (2) has a system (10) with two singulators and a transport system (4) transfers plants supplied in sheets to a former singulator, which splits off in rows the plants in the sheet. The transport system transfers the split up rows of plants in succession to the latter singulator for singulating the plants, and the singulated plants to deposit locations (30). A system (12) places plants in planting locations. The plants in sheets are accommodated in pots. The transport system is arranged to transfer the sheet with plants to the former singulator.

Description

Title: Planting machine for planting plants, germinated or not, with an automatic feeding system

The invention relates to a planting machine for planting plants, germinated or not, comprising a transport system for transporting plants supplied to the planting plant to planting sites, a planting system 5 for obtaining planted plants from the picking with plants, a planting system for planting the singular plants from the depositing locations in planting locations, and an automatic supply system provided with propelling means for automatically supplying the slice of plants to the transport system through the slice of plants from a container, wherein the slab has been picked up to propel the conveyor system.

Such a planting machine is known and is described in the European patent application EP 0 047 700 A. This known planting machine comprises a holder which is formed by a supporting surface and sliders, from which the slices with the plants to be planted are supplied to the transport system by means of of the sliders. The holder is hereby integrated with the planting machine and, in use, the holder is filled manually by an operator. As a result, the efficiency of the known planting machine leaves something to be desired.

It is an object of the invention to provide a planting machine with which the aforementioned disadvantage of the known planting machine is overcome.

The object according to the invention is achieved with the planting machine characterized in that the holder is designed to be interchangeable, the propelling means comprising a vibrating mechanism for vibrating the holder 1022688-2 so that the vibration in the holder in the holder is vibrated loose and / or so that the slab is pushed to the conveyor system by the vibration.

A planting machine is thus provided to which the slab of plants can be supplied in an efficient manner. For example, it is possible that there is a stack of holders on the planting machine, each holder comprising a slice of plants. An operator can regularly place a container filled with a slab in a feeding position such that the feeding system automatically supplies the slab to the transport system.

By vibrating the holder, a driving effect can be achieved from the slab towards the transport system. Furthermore, with the vibrating it can be achieved that the slice becomes somewhat detached from the holder. When the relevant container is empty, it is removed from the supply position, after which a new slice-filled container is placed in the supply position. An advantage of this way of working is that a relatively high operational reliability with a relatively low chance of failure is achieved.

Preferably, it further holds that the holder is a stackable crate with an open front and possibly an open top. Due to the driving effect, the slab, at least when the crate has been brought into the feeding position, can be pushed through the open front to the conveyor system.

A preferred embodiment is characterized in that the propulsion means also comprise a displaceable slide with which the slab can be pushed from the holder to the transport system. With the slide, the slab can be pushed through the open front to the transport system, at least when the crate has been brought into the feeding position. The slider extends through the open top into the box.

If the supply system is provided with both the movable slide and the vibrating mechanism, a favorable cooperation is realized. By vibrating, the slice is moved in the container or box placed in the feeding position 1022688-3 towards the front thereof. The slider can close the holder or the box at the front during the vibration to prevent the slab from being pushed out of the holder or box prematurely. This creates space between the back and the slab. Subsequently, the movable slider can be brought into this space, whereafter the slider with the slider can be pushed through the open front to the supply system.

According to a favorable embodiment, the supply position of the holder is such that the holder is slightly inclined towards the front. As a result, the slab to be supplied is at least partly brought to the conveyor system by the gravitational force acting on the slab. The feed system of the planting machine is preferably provided with quick-release couplings with which the holder can be fixed or attached in the feed position for a short time.

An advanced embodiment of the planting machine is characterized in that the single-leaf system is provided with a first single-leaf switch and a second single-leaf turner for single-leafed slab with plants for obtaining single-leafed plants, wherein the transport system is adapted to transport the leaf with plants to the first single-leaf switch, and wherein the first single-leaf switch is arranged for splitting rows of plants from the slice of plants, the conveying system being further adapted to successively transport the split-off rows of plants to the second single-leaf switch in at least one row the singling of plants from the split rows of plants, and wherein the conveying system is further adapted to transport the singled plants to the planting locations. The spliced rows can be placed one behind the other and then be singled through the second singler, after which the singled plants can be transported to the planting locations.

Because the plants are placed one behind the other, it is possible to adapt the planting machine 1022688-4 easily to changes in the structure or pattern of the planting locations without having to change the dimensions of the plant slice. Paste with various dimensions can also be supplied. A flexible planting machine is thus obtained.

An embodiment of the planting machine is characterized in that the transport system is adapted to form a buffer of plants by placing the split rows upstream of the second spring chaser in the row one behind the other. By thus forming a buffer, a continuous supply to the leg system can be guaranteed. This makes it possible to achieve a relatively high planting speed. A high planting density can then also be achieved in which the plants are planted in a flexible manner with a high density and are preferably supplied and planted relatively quickly.

For a preferred embodiment, it holds that the transport system is arranged for transporting the slab to the first spring chuck in a first direction and that the first spring chuck is arranged for splitting the rows of plants transversely to the first direction, the transport system being arranged for transporting the split rows of plants to the second spring chaser in a second direction that is directed transversely to the first direction. The transport system is herein preferably arranged for transporting the singled plants to the planting locations in a third direction. Preferably, it holds that the first direction substantially coincides with a direction of travel of the planting machine and that the third direction is oriented transversely to the direction of travel of the planting machine. With this embodiment a compact planting machine is provided, wherein a buffer is realized in an efficient manner upstream of the second spring switch.

An embodiment of the planting machine according to the invention is characterized in that the transport system is provided with a drop-off board fixed transversely to a direction of travel of the planting machine to a frame of the planting machine, the transport system being adapted to transport the respective single plants. in the third direction to respective marketing positions on the marketing board. If the third direction according to which the singled plants are supplied is also directed perpendicularly to the direction of travel, the singled plants can be efficiently transferred to the relevant depositing locations on the depositing board and regrouped thereon. Because the landing board is oriented substantially perpendicular to the direction of travel of the planting machine, a compact planting machine can also be realized. This is an advantage because it allows the weight of the planting machine to remain limited. In particular when a planting machine movable on a rail connection is used, it is desirable that the planting machine has a relatively low weight. A planting machine with small dimensions according to the invention can be realized by choosing the first direction substantially parallel to the direction of travel, selecting the second direction substantially perpendicular to the direction of travel and selecting the third direction also perpendicular to the direction of travel. A relatively compact planting machine with a relatively low weight can thus be realized with which an arrangement or regrouping of plants to be planted at the respective depositing locations on the depositing board can be achieved in a flexible manner.

According to a planting machine according to the invention, it holds that the planting system comprises a plurality of grippers attached to the frame, wherein the planting machine is adapted to control the grippers, wherein, in use, a controlled gripper of said plurality of grippers comprises a substantially performs vertical movement in which a plant is grabbed from one of the outlet locations of the outlet board and is planted in a leg location. This embodiment is particularly suitable for planting plants in a fine-meshed (leg) grid arranged on the bottom. Because the plants are planted vertically in the grating, a high planting speed is possible without the grippers getting entangled in the grating. The said (planting) grid is widely used by growers for growing the plants with a high density. One of the tasks of the grid is to provide support for the plants during and after planting. A relatively high degree of meshing is required here, which in practice means that grid dimensions of 10 to 15 cm are used. Thanks to the vertical planting, the planting machine can have a relatively high travel speed, whereby a relatively high planting density is achieved in a reliable and efficient manner.

An embodiment of the planting machine according to the invention is characterized in that the depositing board is movable relative to the frame, and that the planting machine is adapted to control the depositing board, wherein, in use, after plants from depositing locations of the depositing board have been gripped by the controlled grippers, the controlled outlet shelf is moved to release space for the vertical movements of the controlled grippers. This further elaborated embodiment results in a particularly efficient planting machine in which the throughput speed of the plants to be planted is optimized. After all, during the planting of a first generation of plants by the controlled grippers, a second generation of plants can be supplied from the third direction and be prepared at the depositing locations of the depositing board. Here, the controlled grippers can synchronously, immediately after the first generation of plants have been planted, assume their original starting positions, the depositing board with the second generation of plants being placed under the grippers so that the controlled grippers synchronously plant a new planting cycle with the second generation of plants to be planted can start.

According to an embodiment of the planting machine according to the invention, the transport system is provided with a first conveyor belt for transporting the slice with plants in the first direction and a second conveyor belt for transporting the row of plants in the second direction. Preferably, it holds here that the transport system is also provided with a third conveyor belt for conveying singled plants in the third direction and a shear unit for sliding respective singular plants from the third conveyor belt to respective depositing locations on the depositing board. The planting machine is preferably adapted to provide the third conveyor belt with singled plants via the second spring switch during the vertical movements carried out by the grippers that are driven so that a continuous feed of plants is achieved. In the case where the third direction is perpendicular to the direction of travel of the planting machine, the third conveyor belt can be mounted parallel to and in the vicinity of the landing board, so that the shear unit can slide the plants from the third conveyor belt to the landing locations on the landing board . Preferably the third conveyor belt is a flapper belt wherein the flaps form compartments for receiving plants. However, the third conveyor belt can also be a smooth belt, the speed of rotation of the belt determining the size of the "compartments". By adjusting the rotation speed, a different spacing between the plants can then be realized.

An embodiment of the planting machine according to the invention is characterized in that the transport system is adapted to control the speed of the third conveyor belt, wherein, in use, the third conveyor belt is stopped relative to the frame for the purpose of sliding off the split off planting from the third conveyor belt to the sales locations. The third conveyor belt is hereby stopped in such a way that the compartments of the third conveyor belt filled with plants to be planted are situated opposite the respective depositing locations on the depositing board. Subsequently, the plants can be moved from the compartments through the shear unit to the delivery locations. Preferably, the second spring chuck is here arranged, during the shearing of the plants by the shear unit, to slide through a plant that is pinned by the second spring chuck to a marketing location located at one end of the shelf. A far-reaching optimization of the transit of plants to be planted to the final planting locations is hereby obtained, because the second singler can function virtually continuously. A relatively high planting capacity of the planting machine is thus achieved.

It is noted that the application of the configuration of the landing board and the shear unit can also be applied independently of the other measures of the planting machine according to the invention. This also applies to the second spring chopper which can push through a spring-grown plant to a drop-off location located at the end of the landing board.

An advanced embodiment of the planting machine according to the invention is characterized in that the first spring chuck is provided with a breaking mechanism for splitting off a row of plants from the plant slice with plants by means of breaking. When breaking the row of plants, use is made of dividing lines which have previously been arranged in the slice of plants. The row to be split is split off from the plant slice according to the dividing lines. A first advantage hereof compared to the known cutting or sawing of rows of the slab is that with small positional displacements of the slab, the row is nevertheless split off according to the applied dividing lines. A second advantage of this is that unnecessary crumbling of the slice with plants is prevented.

An embodiment of the planting machine according to the invention is characterized in that the first spring chuck is provided with at least one clamp for clamping the slice with plants for splitting a row of plants from the slice with plants. The slice with plants undergoes a driving force caused by the transport system for transport, for example because the first conveyor belt slips under the slice in question. Because the slab with plants is clamped, the row t022888 “9 with plants can be split off from the slab with plants without the thrust of the remaining slab against the row making it difficult to separate it.

An embodiment of the planting machine according to the invention is characterized in that the second spring chuck is provided with at least one clamp for clamping the split-off row of plants for kinking a plant from the split-off row of plants. By clamping it is achieved that the splitting off is not hampered by a driving effect of the remaining row of plants on the plant to be singled out. The driving action of the remaining row of plants can for instance be caused by a slipping second conveyor belt.

A particularly advanced embodiment of the planting machine according to the invention is characterized in that the planting machine is provided with a central control unit which, directly or indirectly, is connected to the transport system, the single-leaf system and the planting system, wherein the central control unit can be set according to a determined planting program, wherein the planting program determines the pattern of planting locations, and wherein the central control unit is adapted to control the transport system, the single-leaf system and the planting system in accordance with the set planting program. The central control unit provides the planting machine with additional flexibility with which variable planting patterns of planting locations can be set depending on, for example, the season. The central control unit can control the transport system, the single-leaf system and the leg system such that only certain compartments of the third conveyor belt are filled with a plant to be planted. With this, the leg distance between leg locations in a direction perpendicular to the direction of travel can be controlled. Furthermore, it is possible to change this planting distance by providing the planting machine with a different third conveyor belt with different dimensions of the compartments and by adapting the settings of the other systems (transport system, single-leaf system, planting system) of the planting machine.

T022688-10

The leg distances to be handled in the direction perpendicular to the direction of travel are sometimes imposed by a grid size in this direction of a grid arranged on the ground in which the plants are to be planted. The leg distance between leg locations in the driving direction can also be changed by the central control unit. The central control unit can control the systems of the planting machine in dependence on the grid size in the direction of travel and the desired driving speed of the planting machine. Certain grilles may be skipped in the direction of travel.

An embodiment of the planting machine according to the invention is characterized in that the planting machine is provided with a position sensor for determining the position of the planting machine relative to a mesh or planting grid arranged on the ground. The position of the planting machine thus measured by the position sensor can be transmitted to the central control unit, the central control unit depending on the driving speed, the grid size, the position of the planting machine and the set planting program as well as depending on other parameters, such as any correction factors for a slanted grid, control the transport system, the single-leaf system and the leg system 20.

According to an advanced planting machine according to the invention, it holds that the planting machine is provided with a spraying device arranged near the planting system, for example grippers of the planting system, for spraying the plants to be planted by the grabs with a pesticide.

When a plant is grabbed by a gripper from a depositing location of the depositing board, it is possible to spray the underside of the plant, or the (press) pot in which the plant is received, with the spraying device with the pesticide. Because only the underside and optionally a part of the side of the plant, or the (press) pot in which the plant is accommodated, need be treated, the amount of pesticide to be used can be limited with respect to the known situation in which the soil in the grid must be treated with pesticide. The spraying device can be used as an independent measure with various types of planting machines.

A practical embodiment of the planting machine according to the invention is characterized in that the planting machine is provided with a feed system for supplying a planting slab to a planting machine in an box with an open front side and an open top side, wherein the feed system is provided with a plant shaking mechanism for shaking the slab relative to the crate, and wherein the feeding system is provided with a movable slider with two functions, the first function of the slider being closing the open front of the crate during shaking and wherein the second function of the slide is to push the slab of plants through the open front of the box after shaking in the first direction. This type of feed system can be used as an independent measure for various types of planting machines.

The invention will now be further elucidated with reference to the drawing. It shows:

FIG. 1 schematically a perspective view of the planting machine according to the invention;

FIG. 2 schematically shows a perspective view of a part of the planting machine according to FIG. 1, showing a shearing unit of the planting machine, a second spring switch, a third transport, and a landing board of the planting machine; FIG. 3 shows diagrammatically in plan view the principle of the operation of a planting machine according to the invention;

FIG. 4a to 4f show diagrammatically in side view the operation of a first spring switch of a planting machine according to the invention, wherein the first spring switch is shown in six respective phases; 1022688-12

FIG. 5a shows a second spring switch of a planting machine according to the invention, wherein the second spring switch is shown in a first phase;

FIG. 5b schematically shows the operation of the second spring switch according to FIG. 5a, wherein the second spring switch is shown in a second phase; FIG. 6a to 6e show diagrammatically in plan view the (cooperation) action of a second conveyor belt, a third conveyor belt, a movable landing board and a second spring chopper of a planting machine according to the invention in five respective phases;

FIG. 7a to 7e show diagrammatically in side view the (cooperation) action of the second conveyor belt, the third conveyor belt, the movable landing board, the second spring switch and grippers of the planting system of the planting machine according to Figs. 6 in five respective phases corresponding to the five respective phases in FIG. 6a to 6e.

FIG. 8a to 8h show diagrammatically in side view the operation of the feed system of a planting machine according to the invention in eight respective phases.

FIG. 9 shows a controlled gripper which has grasped a plant to be planted, wherein the underside of the plant or the pot of the plant can be sprayed with a pesticide; FIG. 10 a controlled gripper that has grabbed a plant to be planted in a (leg) grid.

In FIG. 1, a planting machine 2 is shown for planting plants or seedlings, germinated or not. The planting machine 2 comprises a transport system 4 for transporting plants supplied to the planting machine 2 in slabs 8.1, 8.2 to planting locations 30. The plants in the slices can be included in (press) pots. The planting machine 2 comprises a single-leaf system 10 with a first single-leaf chuck 10.1 and a second single-leaf chuck 10.2 for leaf-pinning plants in the slabs 8.1, 8.2 with plants. Furthermore, the planting machine 2 comprises a planting system 12 for planting the plants supplied by the transport system 4 into the planting locations 6.

The planting machine 2 is provided with a drive mechanism (not shown in the drawing) for propelling the planting machine 2. Furthermore, the planting machine 2 is provided with wheels which may optionally cooperate with a row of rails arranged on the ground.

The transport system 4 of the planting machine 2 is arranged for transporting the slab (s) 8.1, 8.2 with plants to the first spring chopper 10.1 in a first direction 14. The first spring chopper 10.1 is arranged for splitting perpendicular to the first rows oriented in the direction 14, such as rows 16.1, 16.2 or 16.3, with plants of the slab with plants 8.2. Furthermore, the transport system 4 is adapted for conveying, in a second direction 18 transversely of the first direction 14, split off rows to the second spring switch 10.2.

A buffer of plants upstream of the second singler is hereby realized. The second spring chopper 10.2 is adapted to keel off a plant 20 from the split row supplied from the buffer to the second spring chopper 10.2 and, in the case where the plants are included in (press) pots, to keel off a press pot 20 with a plant 20. Furthermore, the transport system 4 is adapted to transport the spliced plants 20 to the planting locations 6 in a third direction 22.

In the given example of the planting machine 2, it holds that a direction of travel 24 of the planting machine 2 is oppositely directed to the first direction 14. In this specific example, the first direction 14 is perpendicular to the second direction 18 and also perpendicular to the third direction 22 (Of course, other than perpendicular angles where the first direction is transverse to the second direction / third direction are also possible). The second direction 18 and the third direction 22 are oppositely oriented.

1022688-14

The transport system 4 of the planting machine 2 is provided with a depositing board 28 fixed substantially perpendicularly to the direction of travel 24 of the planting machine 2 to a frame 26 of the planting machine 2. The transport system 4 is adapted to transport the respective plants 20 singled in the third direction 22 to the respective outlet locations 30 on the outlet board 28.

The leg system 12 comprises a plurality of grippers 32 attached to the frame 26. The leg machine 2 is adapted to control the grippers 32, wherein a controlled gripper of said plurality of grippers 32 performs a substantially vertical movement, wherein a plant 20 of one of the depositing locations 30 of the depositing board 28 is grasped and planted in a planting location 6. The grippers can be pneumatically or electrically powered, for example. Because the grippers 32 perform substantially vertical planting movements, the planting machine 2 is particularly suitable for planting plants (whether or not included in (press) pots) in grid openings of a planting grid or mesh 34 arranged on the bottom. the plants 20 are planted with a relatively fast vertical movement in the grid 34. As a result, the planting machine 2 can plant the plants 20 in the grid 34 without the grippers 32 getting entangled in the grid 34. Preferably, the planting machine 2 is provided with a position sensor for determining the position of the planting machine 2 relative to the plant. grate 34 arranged on the bottom. By determining the position, the vertical leg movement of the grippers 32 can be controlled in such a way that the plants 20 are planted in the grate 34 in a desired manner while the planting machine 2 is moving.

The depositing board 28 of the planting machine 2 is movably attached to the frame 26 of the planting machine 2. The planting machine 2 is adapted to control the depositing board 28, wherein, after plants from depositing locations 30 of the depositing board 28 have been gripped by grippers 32, 30 controlled landing board 28 is displaced to release space 1022688-15 for the vertical movements of the controlled grippers 32 (for example by a translational movement or by pivoting). It is thus possible for a third conveyor belt 40 to be filled with a new generation of plants to be planted for loading the delivery board 28 while the grippers 32 perform vertical leg movements for planting an earlier generation of plants 20 in the planting locations 6 of the grid 34 After the grippers 32 have returned to their original position, the landing board 28 with the new generation of plants 20 can be moved relative to the frame 26 such that the new generation of plants 20 are located below the respective grippers 32. Subsequently, the respective grippers 32 can start a new planting cycle in which the new generation of plants 20 is grasped, the landing board 28 is again displaced to release space for the vertical movements of the grippers for a new planting cycle. In this way a very efficient throughput of plants 20 and a high planting capacity of the planting machine 2 is achieved.

The transport system 4 of the planting machine 2 is provided with a first conveyor belt 36 for transporting the slices 8.1, 8.2 with plants in the first direction 14 and a second conveyor belt 38 for transporting split rows of plants in the second direction 18. Furthermore, the transport system 4 is provided with the third conveyor belt 40 for transporting singled plants from the split rows in the third direction 22. The transport system 4 is also provided with a shear unit 42 for sliding singular plants 20 from the third conveyor belt 40 to depositing locations 30 on the depositing board 28. The third conveyor belt 40 is preferably a flap belt. The flap band is provided with flaps 44 with which compartments are formed for receiving singular plants 20.

In FIG. 2, the shearing of split plants 20 to 30 drop locations 30 on the drop board 28 is shown in detail. In the example of 1 022688-16

FIG. 2, the third conveyor belt 40 is a flapper belt. Before shearing the split plants 20 takes place, the third conveyor belt 40 is stopped by the transport system 4. At the moment that the third conveyor belt 40 is stationary, the flaps 44 of the third conveyor belt 40 are opposite recesses 46 of the shear unit 42. This makes it possible for the shear unit 42 to move in a direction perpendicular to the third direction 22, the singled plants 20 are slid through the shear unit 42 to the depositing locations 30 of the depositing board 28. The shear unit 42 may, for example, consist of a plate with recesses or be formed by brushes.

In the example of FIG. 2, the delivery board 28 comprises seven delivery locations 30. One of the seven delivery locations 30A is located at an extreme position of the delivery board 28. In this example, when six consecutive compartments of the third conveyor belt 40 are filled with plants 20, the third conveyor belt 40 is stopped.

Subsequently, as described above, the plants 20 are slid through the shear unit 42 from the compartments to the depositing locations 30 on the depositing board 28. At the same time, immediately after splitting, the second spring chopper 10.2 slides a spliced plant 20 through a compartment to the outlet location 30A. The throughput of the plants 20 to be planted is thus further optimized for obtaining a maximum planting capacity of the planting machine 2.

The planting machine 2 is arranged in such a way that the moving third conveyor belt 40 is filled with plants 20 which have been detached from the second spring chuck 10.2 during the planting of plants 20 by the controlled grippers 32. This means that the second spring chuck 10.2 can function virtually continuously for the spring killing of plants 20 from supplied rows 16 with plants (see, inter alia, Figs. 2 and 3). Even after the third conveyor belt 40 has been stopped, the second spring chopper 10.2 also cleaves another plant 20 (the last of the generation concerned hereafter to plant 10 ^ 888 "· 17 plants in synchronism). This results in a very high and efficient throughput of plants for planting. plants 20. Furthermore, the width of the planting machine 2 is relatively small by using the second spring chucker also for shearing the last split-off plant 20. Such a relatively small width is desirable when the planting machine 2 in relatively narrow covered spaces Furthermore, the planting machine 2 also has limited dimensions in the direction of travel 24. These limited dimensions are realized in that the second conveyor belt 38, the third conveyor belt 40 and the landing board 28 are mutually substantially parallel and perpendicular to the direction of travel. is further illustrated in Fig. 3 where a schematic top view of the operation of the planting machine 2 is shown showed.

As is shown schematically in FIG. 3, the first spring changer 10.1 is arranged for splitting rows of plants 16.1, 16.2 or 16.3 oriented perpendicular to the first direction 14. Hereby a slice with plants 8.2 with predetermined dividing lines 48 is introduced at least partially into an open portion of first spring chopper 10.1. The slab with plants 8.2 is then clamped by a pair of clamps 50. The clamps of the pair 50 are located on either side of the slab with plants 8.2. The clamping of the slab with plants 8.2 takes place to prevent the slab with plants 8.2 from hampering the separation of a row by the first spring chuck 10.1 due to the driving action emanating from the slipping first conveyor belt 36. The driving action of the slipping first conveyor belt 36 is normally desirable for obtaining a continuous supply of plants in slab with plants 8.2. Optionally, the first conveyor belt 36 can be controlled on the basis of a detection signal which is supplied by a sensor for measuring the supply or presence of plants on the first conveyor belt 36. Such a sensor can incidentally also be used for the second conveyor belt 38.

1 322688-18

As shown in FIG. 3, a very high planting density of the plants 20 to be planted in planting locations 6 can be achieved according to the principle of the operation of the planting machine 2. This high leg density can also be achieved by splitting the supplied slices with plants with a predetermined number of rows 16, which are oriented perpendicular to the first direction, wherein split rows 16 are fed one after the other to the second spring chuck 10.2. Subsequently, the plants in the rows 16 are singled and fed to delivery locations 30. Hereby a regrouping of the singled plants 20 is achieved, wherein the number of depositing locations 30 on the depositing board 28 determines the number of rows of the planting pattern of the planting locations 6. The number of rows 16 can hereby be independent of the number of the leg pattern. Thus, with a limited number of rows 16 of the slab 8 with plants located in the direction of travel, a much larger number of rows of the leg pattern is possible. Furthermore, due to the high planting capacity of the planting machine 2 (as described above), a high density of the number of plants 20 to be planted in the direction of travel is also possible.

In the FIG. 4a to 4f it is further shown how splitting off a row of plants from a slice of plants works.

FIG. 4a it is shown how the first singler 10.1 receives a slice with plants 8.2. The slice 8.2 is pushed against the stop 51 by the first conveyor belt 36 (see Fig. 4b). Subsequently, the slice with plants 8.2 is clamped by the pair of clips 50 as described above. The first spring chuck 10.1 clampes the row of plants 16.1 of the picked-up slab 8.2 between the descending stop 51 and the bearing surface 52 (see Fig. 4c). Subsequently, a joint rotating movement is carried out by the stop 51 and the bearing surface 52, the row of plants 16.1 being broken off from the slice of plants 8.2 (see Fig. 4d). As in FIG. 4a to 4d, the row of plants 16.1 hereby breaks down from the slice 8.2 according to a pre-arranged separating line 48. FIG. 4th i: i /. Fig. 4f shows that the row broken off by the stop 51 and the bearing surface 52 undergoes a translation in the first direction 14. As a result, the broken row becomes completely split free from the slice 8.2. Finally, Fig. 4f shows that the stop 51 is moved upwards, whereby the split row is no longer clamped by the first spring chaser The split split row can then, for example, be moved by a slider to the second conveyor belt 30. Subsequently, the split row of plants 16.1 can be moved via the second conveyor belt 38 in the second direction 18 can be further transported by the conveyor system 4. The conveyor system 4 transports split rows in the second direction 18 to the second spring chopper 10.2.

The operation of the second spring switch 10.2 is further explained with the Figs. 5a and 5b. The split row 16 supplied with the second conveyor belt 38 is moved until it comes to rest against a stop plate 53 to 15. The row 16 is then clamped by a pair of clamps 54. The clamping serves to facilitate the singling of a plant. For the singling, the second singling switch 10.2 slides a piston with a pressure plate against the plant 20 to be singled. Hereby the plant 20 to be singled breaks according to a possibly arranged separation line of the split row and the singled plant is placed in a compartment of the third conveyor belt. 40 (here: flap band) slid as shown in FIG. 5b. In this way the third conveyor belt 40 can be filled with singled plants 20. Thus, in FIG. 1 shows a situation in which the third conveyor belt 40 is filled with four plants 20 to be planted.

With the respective Figs. 6a to 6e and the corresponding respective Figs. 7a to 7e, the cooperation between the second conveyor belt 38, the third conveyor belt 40, the landing board 28, the shear unit 42 and the grippers 32 of the leg system is further clarified. FIG. 6a to 6e are schematic top views and the Figs. 7a to 7e are schematic? 022688-20 side views. In the phase of FIG. 6a and FIG. 7a, plants (whether or not included in (press) pots) are pushed through the weir plate (tappet) 55 of the second spring chopper 10.2 to the compartments of the rotating third conveyor belt 40. If (in this example) thirteen compartments 5 of the third conveyor belt are filled, the third conveyor belt 40 stops. The weir plate (or tappet) 55 remains "off" at the final impact stroke. Subsequently (Fig. 6b, 7b) a stop 57 of the second spring chopper 10.2 sinks below the outlet board 28, whereafter the shear unit 42, except for the plant 20 at the said weir plate 55 of the second spring chopper 10.2, moves to all of the singled plants 20. shelf 28 slides. The "last" plant of the generation of plants to be planted is, as has already been mentioned, pushed through the said weir plate 55 to the depositing board 28. After this (Fig. 6c, 7c) the shear unit 42 returns to its original position and the depositing board 28 slides under the grippers 32. The stop 57 rises again, the third conveyor belt 40 starts to rotate again, and the weir plate (insert) 55 starts to fill the third conveyor belt 40 again. During the filling of the third conveyor belt 40, the plants 20 are clamped by the grippers 32 (Fig. 6d, 7d), whereafter the landing board moves back to release space for the vertical leg movements of the grippers (Figs. 6e, 7e). The grippers 32 are now ready, possibly activated by a sensor signal from a position sensor, to plant the plants vertically in a grid.

FIG. 8 shows diagrammatically in side view how a slab with plants 8.2 can be supplied to the planting machine 2 in a box 58 with an open front side 59 and optionally an open top side. The planting machine 2 is provided with a feed system which is provided with a shaking mechanism for shaking off (and possibly pushing towards the transport system) the slice 8.1 with plants relative to the box 58. As is further shown in Figs. 8a to 8f, the supply system 30 is furthermore provided with a displaceable slide 60 with which two functions 022688-21 can be performed. In this example, the first function of the movable slider 60 is to close the open front side 59 of the box 58 during shaking. The second function of the movable slider 60 is to push the slice 8.1 with plants after shaking in the first direction 14 through the open front side of the box 58 to the first spring switch 10.1 (see Figs. 8f to 8h). In FIG. 8a, a slice 8.1 with plants is placed in a box 58, the box being free from the first conveyor belt 36. By shaking, the slice 8.1 with plants is placed against the slider 60 (which is currently at the front of the box 58 ). This creates space at the rear of the box in which the slide 60 can be inserted later. In order to make it possible to move the slider 60 from the front 59 to the space at the back of the box, the movable slider can be moved both horizontally and vertically. This is further shown in FIG. 8b to 8th. In FIG. 8e, the slider 60 is inserted at the back of the crate 58, the slider 60 sliding the slice 8.1 with plants through the open front side 59 onto the first conveyor belt 36. After the slider 60 has slid the slice 8.1 with plants over a certain (predetermined) distance over the first conveyor belt 36, the slider movement of the slider 60 stops (Fig. 8f). Subsequently (Fig. 8g) the slider 60 makes a hinged movement and the slice 8.1 with plants slides a little further under a handle of the box. When the crate 58 is empty, the slider 60 pivots back, and rises towards the front side 59 of the crate 58. The crate is brought to the left and can be exchanged for a crate filled with a new slice of plants.

The planting machine 2 is provided with a central control unit which, directly or indirectly, is connected to the transport system 4, the single-leaf system 10 and / or the planting system 12. The central control unit is not shown in the drawing. The central control unit can be set to apply a specific planting program, the planting program determining the pattern of planting locations 6 in the planting grid 34.

? 022688-22

The central control unit can control the systems of the planting machine 2 in accordance with the set planting program. The central control unit can in this case be supplied with a step signal from a step disk whose steps correspond to the compartments of the rotating third conveyor belt 40. The step disk is preferably coupled to the drive of the third conveyor belt 40. The central control unit can thus control the times of ingress through the weir plate 55 of the second singler 10.2 on the basis of, inter alia, the step signal and the planting program. Furthermore, it holds that the central control unit 10 is fed, for example, with a position signal from the position sensor for determining the position of the planting machine 2 relative to the planting grid 34. Based on the position signal, the travel speed of the planting machine 2, and any other parameters For example, such as the grid dimensions, the central control unit can control and tune the speed and timing of the grippers 32 and the speed and timing of the landing board 28 as well as the speeds and timing of the various conveyor belts and the various spring chocks.

The central control unit can control the planting machine 2 according to various planting programs, wherein according to some planting programs, for example, all successive compartments of the third conveyor belt 40 are filled with plants and, according to other planting programs according to a certain structure, only certain compartments are filled. Hereby it is possible that only certain tracks located in the direction of travel of the planting machine 2 are filled with singled plants 20. Preferably, the central control unit controls the control of the grippers 32 such that only the grippers 32 which actually have a singled plant 20 of a drop off location must be controlled.

The planting machine 2 can be provided in a simple manner with another third conveyor belt 40, the compartments of which can have other dimensions. In this way it is easily possible to adapt the planting machine 2 to other grid dimensions of the planting grid 34 in a direction perpendicular to the direction of travel. The control unit herein controls the other systems (transport system, single-leaf system, planting system) of the planting machine 2 in a manner adapted thereto. The planting machine 2 can be easily adapted to other grid dimensions in the direction of travel by the central control unit. Here, among other things, the processing speed of the grippers 32 is adjusted. The grippers 32 are herein synchronized and controlled by a position signal from the position sensor. Hereby a continuous supply of plants is guaranteed because the transport system, controlled by sensors for measuring the presence of plants on the first and second conveyor belt, ensures a continuous supply of plants. Optionally, the rotation speeds of the conveyor belts on the basis of these sensors are controlled according to an on / off control. Furthermore, the central control unit can control the processing speed of the singlers based on the desired throughput of plants. It is also possible that the rotational speeds of the conveyor belts by the central control unit are adjusted according to a continuous fine control to the throughput of plants.

The planting machine 2 is preferably provided with a spraying device 62 arranged near the grippers 32 for spraying the gripped plants (whether or not included in (press) pots) with a pesticide. As shown in Fig. 9, the spraying heads 64 are located. of the spraying device 62 located near the grippers 32 of leg system 12. With the spraying heads 64, the pesticide can be applied on, for example, the underside and optionally on the side of the plant or on the underside and / or side of the (pressing) pot. a plant 20. The spray nozzles 64 may, for example, be attached to one end of the depositing board 28.

After the plant 20 has been sprayed by the spraying device 62, the plant 20 can be planted into a leg grate 34. Because the spraying device 62 only needs to be sprayed on the underside of the plant 20 instead of the entire surface of the planting grid 34, the spraying device 62 for the planting machine 2 can make a significant reduction in the use of (harmful) pesticides are achieved.

The planting machine according to the invention is explained on the basis of a few exemplary embodiments. However, the planting machine is by no means limited to these exemplary embodiments. For example, it is possible for the depositing board 28 and / or the second conveyor belt 38 and third conveyor belt 40 to be placed, whether or not movable, at an acute or blunt angle with respect to the first direction 14. Optionally, this can be used to correct for a leg grid 34 that is not aligned with the direction of travel 24. It is also possible that the planting machine is provided with a first up and down movable slider for performing the first function and a second up and down movable slide to perform the second function.

7 022888-

Claims (14)

Claims 1. Planting machine for planting plants, germinated or not, comprising a transport system for transporting plants fed to the planting machine to planting locations, a single-leaf system for obtaining single-leafed plants from the leaf-picking plant , a planting system for planting the singled plants from the depositing locations in planting locations, and an automatic supply system provided with propelling means for automatically supplying the slice of plants to the transport system through the slice of plants from a container in which the slice is received, 10 to be stowed to the transport system, characterized in that the holder is made interchangeably, the driving means comprising a vibrating mechanism for vibrating the holder so that the slab in the holder is vibrated by vibrating and / or so that the slab is vibrated is being pushed to the transport system. 2. Planting machine as claimed in claim 1, characterized in that the propulsion means are further provided with at least one displaceable slide for pushing the slice of plants from the holder to the transport system. 3. Planting machine as claimed in claim 2, characterized in that the holder 20 is a box with an open or open front, wherein the movable slide can have a first and a second function, the first function being closing the front, and wherein the second function is to push the slice of plants through the front of the box to the transport system. 4. Planting machine as claimed in claim 3, characterized in that the crate has an open or open top side through which the slider can extend to fulfill its second function. ï 0226 88 - 5. Planting machine as claimed in any of the foregoing claims, characterized in that the feeding system is provided with a quick coupling for attaching the holder to the planting machine in a feeding position. Planting machine as claimed in claim 5, characterized in that the quick coupling is arranged such that the holder can be attached to the planting machine in a position wherein the front side of the holder is inclined downwards with respect to the rear side. 7. Planting machine as claimed in any of the foregoing claims, characterized in that the planting machine comprises a single-leaf system which is provided with a first single-leaf switch and a second single-leaf turner for singling the slab with plants to obtain single-leafed plants, wherein the transport system is arranged for transporting the slice of plants to the first spring chopper, and wherein the first spring chopper is arranged to split off rows of plants from the slice of plants, wherein the conveying system is further adapted to successively transport the at least one row of the split rows of plants to the second singler for the singularity of plants from the split rows of plants, and wherein the transport system is further adapted to transport the singled plants to the planting locations. 8. Planting machine as claimed in claim 7, characterized in that the transport system is adapted to form a buffer of plants by placing the split rows one after the other upstream of the second spring switch in the row. 9. Planting machine as claimed in claim 7 or 8, characterized in that the transport system is arranged for transporting the slab to the first spring chuck in a first direction and that the first spring chuck is arranged for splitting the rows transversely to the first direction with plants, wherein the transport system is adapted to transport the split rows of plants to the second spring chaser in a second 1022688 direction that is directed transversely to the first direction. 10. Planting machine as claimed in claim 9, characterized in that the transport system is further adapted to transport the singled plants to the planting locations in a third direction, wherein the first direction substantially coincides with a direction of travel of the planting machine and / or the third direction is oriented transversely to the direction of travel of the planting machine. 11. A planting machine as claimed in claim 10, characterized in that the transport system is provided with a landing board attached transversely to the direction of travel of the planting machine to a frame of the planting machine, the transport system being adapted to transport the respective singled plants in the plant. third direction to respective outlet locations on the outlet board. A planting machine as claimed in claim 11, characterized in that the planting system comprises a plurality of grippers attached to the frame, the planting machine being adapted to control the grabs, wherein, in use, a controlled gripper of said plurality of grabs performs a substantially vertical movement in which a plant 20 is grabbed from one of the depositing locations of the depositing board and is planted in one of the planting locations. 13. Planting machine as claimed in claim 12, characterized in that the depositing board is movable relative to the frame, and that the planting machine is arranged for controlling the depositing board, wherein, in use, after plants have been seized from depositing locations of the depositing board by the controlled grippers, the controlled landing board is moved to release space for the vertical movements of the controlled grippers. 14. Planting machine as claimed in claim 3, characterized in that the planting machine is provided with a first up and down movable slide for performing the first function and a second up and down movable slide for performing the second position. 1022688-