NL1009435C2 - Automated system for planting tulip bulbs in tray, uses tank and grill to assemble quantities of bulbs with points downwards in regular pattern and transfer them to spiked water filled tray - Google Patents

Abstract

The bulbs (8) are poured into a tank (1), where they float to the surface (A). The bulbs are lifted out by grill plates (4) which are driven round the system by a chain wheel system. Each grill plate is carried to a tray input section (9). Each tray (10) is pressed onto the plate, so that the ends of pins (13) are inserted in the bases of the bulbs. The trays are then inverted and the grill plates are removed.

Description

Method and device for water scalding of flowers, as well as a tray to be used therewith

The invention relates to a method for water scrubbing of flowers, in particular tulips, comprising of planting bulbs in a tray free of potting soil, allowing the bulbs to root after planting, followed by placing the bulbs in a greenhouse. bulbs to be flowered. The invention also relates to a device for carrying out this method as a tray to be used with this method.

The water scalding of tulips is known from the magazine 10 Market Vision of 30 April 1998, no. 23, pages 12 and 13. This publication shows that there are great advantages in water scrubbing of flowers, in particular tulips. One of the greatest advantages of scalding on water is that no potting soil is needed anymore, as a result of which a large energy saving can be realized because the potting soil no longer has to be cooled and heated in the greenhouse. By no longer working with potting soil, the flowers remain much cleaner, and the working conditions are more pleasant because the boxes in which the bulbs are received are less heavy. Also, less cooling space is required when water scalding is used, because the bulbs are kept dry for a longer period of time. It is mentioned that up to 50% asm cooling space can be saved. Due to the lack of potting soil, savings are also achieved in this respect, namely avoiding the costs of the potting soil, as well as the supply and removal thereof. A further important advantage is that the greenhouse space itself also remains cleaner, while disease symptoms in the bulbs can be controlled more easily. A drawback that has generally prevented the general use of water scalding for the time being is that a suitable automation-lending method and a device for carrying it out are lacking. There has been a great need for such a method and device since water scalding became available as an option.

The aim of the invention is to meet this need. The method for water scrubbing of flowers 1009435 2 according to the invention is characterized in that the planting of the bulbs comprises the following steps: a container with bulbs to be planted is immersed in water for damage-free release of the container. 5 the bulbs; allowing the bulbs to float; moving upwards from below the surface of the water a grid with openings of a size suitable for passage of sprouts forming on the bulbs, and otherwise suitable for blocking the bulbs; placing on the spheres on the side remote from the grid at least a tray which is provided with holding means for the spheres; removing the tray with the bulbs contained therein from the grid; filling the tray with water for rooting the bulbs. This method is particularly useful for minimizing the amount of human labor required to perform water scalding.

This method according to the invention can be particularly suitably automated in a device characterized in that it comprises a water tank with a section 20 for receiving bulbs to be processed, as well as a chain conveyor passing through the water tank to which at least one bulb grid is coupled and that is suitable for transporting spheres resting on the spherical grid from the water tank, which is provided with a supply and installation device of 25 trays for placing the trays on the spheres resting on the spherical grid, and a discharge device for the trays with the trays therein included bulbs.

It is desirable here that the bulb grid is provided with openings of a size suitable for blocking the bulbs and for passing through the sprouts forming on the bulbs.

Various embodiments can suitably be used for the bulb grid. A very simple yet effective embodiment of the bulb grid is characterized in that it is provided with adjacent bars.

According to the invention, a tray with a bottom and upright side walls can also be used very well in the method and device for water scalding, which is further characterized in that uniformly distributed bulb retaining means are arranged on the bottom. Such holding means can for instance be designed as clamping means. It is preferred, however, that the retaining members are designed as prickers.

In connection therewith, it is desirable that the feeding and placing device of the trays comprises a pressing device, so that the prickers in the tray can act by pressing the tray on the spheres resting on the bulb grid.

The further completion of the treatment and processing of the bulbs makes it desirable that the device further provides means for turning the tray with the bulbs included therein. After this turning the roots of the bulbs can be rooted, followed by placing the bulbs in a greenhouse for flowering.

The invention will now be explained in more detail with reference to the drawing, which in Fig. 1 schematically shows the device for carrying out the method according to the invention; Fig. 2 shows a top view of the water tank of the device according to Fig. 1; in Fig. 3 shows a detail in top view of a spherical grid which forms part of the device according to Fig. 1; and in figures 4A and 4B show in detail a side view in cross-section the tray according to the invention without and with placed spheres.

Like reference numerals in the figures refer to like parts.

Fig. 1 shows a schematic view of the device according to the invention. This device comprises a water tank 1, which is also shown in top view in Fig. 2. The water tank 1 has a section 2 which serves to receive the bulbs to be processed. For this purpose, for example, a box of bulbs is immersed in section 2 of the water tank 1, so that the bulbs float to the level indicated by arrow A in Fig. 1. In a second section 3, the supernatant spheres can collect to be carried by a grid moving upwards from below the surface of the water. Several such grids 4 (see Fig. 1) are suspended for this purpose from a chain conveyor 5 which is guided by the water tank 1.

5 A detail of the bulb grid 4 is shown in Fig. 3. This bulb grid 4 comprises a number of adjacent bars 6 between which openings 7 are provided with a size suitable for the passage of sprouts forming on the bulbs, but otherwise such that they prevent the bulbs 8 from falling through the grid. The bulbs 8 naturally have a tendency to float downwards with the sprouts forming on the bulbs. Once lifted out of the water by the spherical grid 4, the spherical grid 4 with the spheres resting thereon is further conveyed by the chain conveyor 5 to a supply and placement device for trays placed in the vicinity of reference numeral 9, as shown in Fig. 4A and 4B.

In Figures 4A and 4B, the tray 10 according to the invention is shown inverted and in a cross-sectional side view. The tray 10 comprises a bottom 11, upright side walls 12, and prickers 13 located on the bottom 11. In Fig. 4A the tray 10 is shown free of spheres. In Fig. 4B, the same tray 10 is shown when the spheres 8 are placed. This placing of the bulbs 8 on the skewers 13 of the tray 10 takes place in the vicinity of reference numeral 9 in fig.

1. After the tray 10 has been supplied, it is pressed with a pressing device 14, so that the skewers 13 are driven into the bulbs 8 which rest on the bulb grid 4.

Various variants are conceivable for further processing. Fig. 1 further schematically shows a possible embodiment. By moving the chain conveyor 5, which is guided around a circulation wheel 15, the bulb grid 4, the tray 10 and the bulbs that have been pricked on the spikes 13 in tray 10 are reversed. Then the tray 10 with the bulbs 8 received therein can then take place, which is indicated schematically by arrow B. The bulb grid 4 can then be returned to its operative position for retrieving bulbs 8 from the water tank 1. The tray 10 with the bulbs 8 1009435 5 received therein is taken to a place for further processing, in particular the rooting of the bulbs 8 and then placing the bulbs in a greenhouse for flowering.

The foregoing description relates to a preferred embodiment of the device, tray and method proposed according to the invention, and this exemplary embodiment serves to illustrate the following claims without limiting them in any way. Various variants of the preferred embodiment just given are conceivable without leaving the inventive idea. For example, after it has been placed on the bulbs resting on the bulb grid as soon as it retains the bulbs, the tray can be lifted, turned and further processed, without turning being carried out by rotating the bulb grid. It is also conceivable not to use prods but as clamping means or the like as holding means for the bulbs in the tray.

1009435

Claims (9)

Method for water scrubbing of flowers, in particular tulips, comprising planting bulbs in a tray free of potting soil, allowing the bulbs to root after planting, followed by placing the bulbs in a greenhouse in order to to be flowered, characterized in that the planting of the bulbs comprises the following steps: - a container with bulbs to be planted is immersed in water for the purpose of unloading the bulbs from the container without damage; - allowing the bulbs to float; - moving a grid with openings of a size suitable for the passage of sprouts forming on the bulbs from below the surface of the water, and otherwise suitable for blocking the bulbs; - placing at least a tray on the side facing away from the grid, which tray is provided with holding means for the bulbs; 20. removing the tray with the bulbs contained therein from the grid; - filling the tray with water for rooting the bulbs. 2. A method according to claim 1, characterized in that the retaining means are pricks which act by pressing the tray onto the spheres. Device for carrying out the method according to claim 1 or 2, characterized in that it comprises a water tank with a section for receiving bulbs to be processed, as well as a chain conveyor passing through the water tank to which at least one bulb grid is coupled and that is suitable for entraining spheres resting on the spherical grid from the water tank, which is provided with a supplying installation device for trays for placing the trays 35 on the spheres resting on the spherical grid, and a discharge device for the trays with the trays therein included bulbs. 1009435 4. Device as claimed in claim 3, characterized in that the bulb grid is provided with openings with a size suitable for blocking the bulbs and passage of the sprouts forming on the bulbs. Device as claimed in claim 3 or 4, characterized in that the bulb grid is provided with adjacent bars. 6. Device as claimed in any of the claims 3-5, characterized in that the feeding and placing device of the 10 trays comprises a pressing device. Device as claimed in any of the claims 3-6, characterized in that it provides means for turning the tray with the bulbs included therein. 8. Tray to be used in the method according to claim 1 or 2, and the device according to any one of claims 3-7, which comprises a bottom and upright side walls, characterized in that on the bottom are uniformly distributed bulb retaining means applied. Tray according to claim 8, characterized in that the retaining means are designed as skewers. n p o