NL1003353C2 - The removal of bulbils from scaled bulbs by centrifugal force - Google Patents

Abstract

A scaled bulb (1), e.g. a lily bulb, is stripped of its scales (3) by rotating it around its vertical axis at such a speed that the bulbils are loosened by centrifugal force. Also claimed is an apparatus to carry out the stripping method described above containing a driven (10) rotating axle (12). Piercing means (13-15) are provided at one end of the axle for attaching a bulb. The driving means are such that the axle rotates with a sufficient speed to loosen the bulbils by centrifugal force. The embodiment preferably comprises a scaled bulb (1), e.g. a lily bulb, is stripped of its scales (3) by rotating it around its vertical axis at such a speed that the bulbils are loosened by centrifugal force. The rotational speed is greater than 2500 rpm, preferably more than 3000 rpm, and less than 6000 rpm, preferably less than 5000 rpm. Typically, the speed is ca 3000-5000 rpm, especially ca 2500-3000 rpm. The bulb is pierced at the upper end through the bulk with a piercer (13-15) containing at least 2 and preferably 3 pins (14), with a length of ca 1.5-3.0 cm, preferably ca 2 cm. The rotational axis (12) is vertical with the piercer at the end of the axis. It is flexible so that the centre of gravity of the bulb can move to the mid-line during rotation.

Description

Method and device for scales of a scale-like bulb, such as a lily bulb.

The present invention relates to a method for scaling a scale-like bulb, such as a lily bulb, wherein the bulb is rotated about a rotation axis extending substantially in the longitudinal direction of the scales.

Such a method is known from NL-A-90.00218, in which a method and device for removing the skins from onions 10 are described. The onions are successively stripped of their top and bottom, provided with longitudinally extending incisions, sandwiched between a driving rotary axis and a centering cone, and brought into rotation. The scaling takes place by blowing against the peripheral surface of the onion with an air jet opposite to the direction of rotation during the rotation of the onion. The drawback of such a method and the associated device is that the scales must first be damaged by means of cuts in order to make it possible to blow them free by means of an air jet. This makes such a method and device unsuitable for scales, in particular lily bulbs, in which the scales are used after propagation for propagation purposes and should therefore be damaged as little as possible.

The scales of lily bulbs are mainly manual to this day. A scrub pulls the scales from the lily bulb by hand. The scales are then used to propagate the lily bulbs. The so-called bulb bottom and the stem germ connected to the bulb bottom, which is also connected to the bulb bottom, also known as kernel, are left as waste.

A disadvantage of the manual scaling of lily bulbs is that this is fairly labor-intensive and entails relatively high costs.

A method with which lily bulb scales can be automated is known from a fairly recent date. This method uses a kind of apple drill, with which the core is drilled out of the lily bulb, after which the scales fall apart by themselves. The disadvantage of this method is that a lot of material is lost from the bulb, as well as from scales material that can be used for propagation purposes, when drilling with the apple corer.

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The object of the present invention is to provide a method for scaling bulbs, in particular lily bulbs, which method can be well automated and considerably reduces the manual labor required, while damaging as little scale material as possible.

This object is achieved according to the invention in that the sphere is rotated at a rotational speed or speed such that the scales break away from the sphere under the influence of the centrifugal force. It has surprisingly been found according to the invention that the scales of a lily bulb break away relatively easily from the lily bulb by rotating the lily bulb. What then remains is the bulbous bottom and the stem bud. In such a method, the broken-off scales are easily collected. Such a method can also be carried out in many ways in an automated manner. An example of this is described below with reference to the figure description.

In the method according to the invention it is advantageous if the axis of rotation intersects the lily bulb. In this way it is ensured that a centrifugal force directed towards the lily bulb is active on all scales.

It has been found according to the invention that, depending on the type of lily bulb, the scales tend to break loose under the influence of centrifugal force when the speed of the lily bulb is higher than 2500 revolutions per minute. Lily bulbs 25 of the Longiflorum family already appear to scale at around 2000 rpm and even lower at 1800 rpm. In practice, good results have been found to be achieved with a variety of lily bulb types when the rotational speed of the bulb is 3000 rpm or more.

According to the invention it is advantageous when the speed of the lily bulb is lower than 6000 revs to prevent the material of the stem germ, i.e. material of the kernel, from loosening and rotating between the broken scales. / min, preferably 5000 rpm or less. If material from the stem germ ends up between the scales, seeding may occur between the scales during storage, which is generally undesirable.

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According to an advantageous embodiment, very good scaling results are thus obtained in practice when the speed is between about 3000 and about 5000 rpm.

In order to be able to bring a lily bulb into rotation 5 in a relatively simple manner, it is advantageous according to the invention when the lily bulb is inserted on a spear end of a rotation axis and when this rotation axis is brought into rotation, preferably after the lily bulb has been placed thereon. . Other ways of rotating the lily bulb are also conceivable. For example, it is possible to envisage the use of a gripper with which the lily bulb is gripped in a suitable manner and subsequently brought into rotation by rotating the gripper, but it is also conceivable for the lily bulb in a more or less contactless manner. rotate in such a way that the scales become detached under the influence of the centrifugal force.

According to the invention, when a spike end is used, it is particularly advantageous if the spike end is inserted into the bottom of the lily bulb during insertion. Namely, this bottom forms a firm engagement for the spear end and will afterwards automatically be physically separated from the broken scales after the scaling, since the bottom will still be on the spear end.

In view of the thickness of the bottom of lily bulbs, according to the invention it is particularly advantageous if the spike end has a spike length of about 1.5 to 3 cm, for example about 2 cm. In this way it is prevented that the spear end protrudes into a scale and thus prevents the scale from breaking loose.

According to the invention it is furthermore very advantageous if the axis of rotation is flexible such that the center of gravity of the lily bulb can look up the axis of rotation during rotation. In this way it is ensured that the lily bulb, regardless of the exact location where the spike end protrudes into the lily bulb, can rotate near or around a center of gravity line, thereby preventing the lily bulb from being centrifugal as a whole power, can shoot off the spear end.

In order to ensure a relatively accurate and also rapid application of lily bulbs to the spline end of a rotation axis, it is advantageous according to the invention when the rotation axis extends vertically and when the spike end forms the lower end of 1003353. When the bulbs are then manually applied to the spear end, the operator can then easily continue to visually follow the spouting operation and / or easily visually check it afterwards. Moreover, such an arrangement of the spike end at the lower end of the axis of rotation when using a flexible axis of rotation promotes that the center of gravity of the lily bulb searches for the axis of rotation. The self-seeking of the lily bulb is thus improved with such a flexible axis of rotation.

Incidentally, it is noted that when using a flexible axis of rotation, this axis of rotation must still be able to transmit the rotation. The torsional resistance of the flexible rotary axis must therefore be sufficiently high.

The invention further relates to a device for scales of scale-like bulbs, such as lily bulbs, this device comprising a rotary axis and a drive for rotatingly driving the rotary axis, characterized in that the rotary axis is provided with spearing means at one end on which a bulb, preferably a lily bulb, can be placed, and that the drive is suitable for driving the axis of rotation at a speed such that the scales of a bulb, preferably a lily bulb, placed on the spearing means, under the influence of the centrifugal force can break loose. Such a device can be realized in a relatively simple and inexpensive manner.

A device according to the invention will further preferably be equipped to drive the rotary shaft at a speed of 2000 to 6000 rpm, preferably 2500 to 5000 rpm. The benefits of this have been explained previously.

In order to improve transmission of the rotation of the rotation axis to the lily bulb, it is advantageous according to the invention if the spearing means comprise at least 2, preferably 3t pins. In this way it is prevented that the lily bulb itself can rotate relative to the spearing means.

For the aforementioned reasons, it is preferred in a device according to the invention when the skewer length of the skewers 35 is about 1.5 to 3 cm, preferably about 2 cm.

According to an advantageous embodiment of the invention, it is further advantageous, also for the aforementioned reasons, when the 1003353 rotation axis is flexible such that the center of gravity of the lily bulb can look up the axis of rotation when it rotates.

According to a further advantageous embodiment of the invention and also for the aforementioned reasons, it is advantageous in a device 5 according to the invention when the axis of rotation extends vertically and when spearing means are arranged at the lower end of the axis of rotation.

The method and device according to the invention can in principle be applied to any type of scale-like sphere. However, a preferred gang application relates to lily bulbs. Lily bulbs can be divided into four main families, namely the Orientals, the Asians, the Longiflorums and the LAs, the latter family actually comprising crosses of Asians with Longiflorums. Lily bulbs from all these main families can be scaled with the method and device according to the invention.

The present invention will be explained in more detail below with reference to a drawing. Herein shows:

Fig. 1 from left to right an intact lily bulb, a number of loose scales, and a bulbous bottom with a stem germ, the latter remaining after the scales according to the invention as a whole;

Fig. 2 a device according to the invention for scales of lily bulbs according to a method according to the invention during standstill; and

Fig. 3 shows the device of FIG. 2 during operation.

It will be clear that the figures only represent a schematic representation.

Fig. 1 shows a lily bulb 1 with a root mass 2, scales 3 and the top tip 4 of the stem bud sprouting from the bulb bottom. According to conventional scaling methods, such a lily bulb 1 is manually scaled by pulling the scales off the lily bulb by hand. In this case, a number of scales 3, such as to the right of the lily bulb 1 in FIG. 1 and a spherical bottom 5 is not shown on the stem bud 4. The latter, ie the remaining scales after the scaling of a number of loose scales 3 and the bulb-bottom / stem germination unit 5 »4 are also the case in the method according to the invention, at least according to a preferred embodiment thereof.

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In FIG. 2 and 3 show a device according to the invention for carrying out a method according to the invention during standstill and during operation.

The device comprises a drive 3, a flexible rotation shaft 5 12, a coupling 11 for connecting the drive 10 to the flexible rotation shaft 12, and skewers 13 arranged at the bottom end of the rotation shaft 12, consisting of mounting bodies 15 tapering upwards. and three pins 14. The pins 14 are arranged according to an equilateral triangle, the center of gravity of the triangle being in line with the axis of rotation 12.

A lily bulb 1 is placed on the pins 14, for instance manually by an operator. This is done by skewing the lily bulb 1 with its bulb bottom 5 facing upwards on the pins 14. It will be clear that an operator can perform a visual check in a relatively simple manner during or after skewing the lily bulb on the pins. The operator only has to look at the lily bulb from above.

The drive 10 is then put into operation to rotate the axis of rotation 12, as indicated by arrow 16. In this case, the scales 3 will break away from the bulbous bottom under the influence of the centrifugal force. The scales will shoot outwards and fall down, so that they can then be collected in a container. After the scales have all broken away from the bulbous base 5, only the bulbous base 5 and the stem germ 4, 25 remain, which must still be removed from the spearing means. Due to the conical course of the mounting piece 15, this can easily be done manually by manually moving down the rotation axis 12, along the conical mounting piece 15 and pulling off the bulb bottom and stem germ remaining on the skewers. The conical part of the mounting piece 15 hereby serves as a guide for the hand. It will be clear that this can also be carried out automatically, while retaining the guiding function of the conical part of the mounting piece 15.

It will further be clear that the application of the 35 lily bulbs to the spearing means can also be carried out automatically.

According to an advantageous embodiment of the invention, the rotation axis 12 has such flexibility that the spline end can move slightly in a direction transverse to the longitudinal direction of the rotation axis 12. This makes it possible that when the device according to the invention is put into operation, the lily bulb with its center of gravity mounted on the spearing means will automatically look up the axis of rotation of the rotational movement, in particular when the drive rapidly accelerates the lily bulb at high revolutions. (rpm). This self-seeking effect also ensures that when one or more scales break off on one side of the lily bulb, the resulting shifted "new" center of gravity of the remaining lily bulb will again seek the axis of rotation. As a result of this self-seeking effect 10, the lily bulb as a whole is prevented from swinging out radially. In the case shown in FIG. 2 and 3, the suspended embodiment of the device according to the invention, with sufficient flexibility of the axis of rotation 12, the center of gravity of the lily bulb can also look up the axis of rotation under the influence of gravity. In order to limit possible lateral deviations of the axis of rotation 12, a ring 20 is arranged around the axis of rotation. This ring can have a diameter of, for example, 7 cm.

According to the invention it is furthermore advantageous if the scales that break away during the rotation, which fly away radially outwards, are collected by a soft or at least sufficiently yielding material. This prevents damage to the scales. To this end, in FIG. 3 a cylindrical wall 21 of flexible material is placed around the lily bulb.

It will further be clear that many variants are conceivable within the scope of the present invention. For example, an apparatus according to the invention can be envisaged comprising a plurality of rotary axes, which can all be provided with a lily bulb and can be rotated simultaneously one after the other.

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Claims (17)

A method for scaling a scale-like bulb, such as a lily bulb, wherein the bulb is rotated about a rotational axis extending substantially in the longitudinal direction of the scales, characterized in that the bulb is rotated at a rotational speed or speed such that the scales break away from the sphere under the influence of the centrifugal force. 2. Method according to claim 1, characterized in that the axis of rotation intersects the sphere. Method according to any one of the preceding claims, characterized in that the speed is higher than 2500 rpm, preferably 3000 rpm or more. 4. Method according to any one of the preceding claims, characterized in that the speed is less than 6000 rpm, preferably 5000 rpm or less. A method according to any one of the preceding claims, characterized in that the speed is between about 3000 and about 5000 rpm, Method according to any one of the preceding claims, characterized in that the sphere is inserted on a spike end of a rotation axis and that this rotation axis is rotated after the sphere has been mounted thereon. A method according to claim 6, characterized in that the spike end is inserted into the bottom of the sphere upon insertion. Method according to claim 7, characterized in that the spike end has a spike length of about 1.5 to 3 cm, for example about 2 cm. 9. A method according to any one of claims 6-8, characterized in that the axis of rotation is flexible such that the center of gravity of the sphere can look up the axis of rotation during rotation. A method according to any one of claims 6-9, characterized in that the axis of rotation extends vertically and that the spline end forms the lower end of the axis of rotation. Method according to any one of the preceding claims, characterized in that the scale-like bulb is a lily bulb. 12. Device for scaling scale-like bulbs, such as lily bulbs, this device comprising a rotary axis and a drive for rotating the rotary axis, 1003353, characterized in that the rotary axis is provided at one end with skewers on which a bulb , preferably a lily bulb, can be inserted, and that the drive is suitable for driving the axis of rotation at a speed such that the scales of a bulb inserted on the spearing means, preferably a lily bulb, under the influence of the centrifugal force can break loose. 13. Device as claimed in claim 12, characterized in that the drive is equipped to drive the rotary shaft with a speed of 2000 to 6000 rpm, preferably 2500 to 5000 rpm. Device according to claim 12 or 13., characterized in that the spearing means comprise at least 2, preferably 3, pins. 15. Device as claimed in any of the claims 12-14, characterized in that the skewer length of the skewers is about 1.5 to 3 cm, for example about 2 cm. Device as claimed in any of the claims 12-15, characterized in that the axis of rotation is flexible such that the center of gravity of the bulb, preferably lily bulb, can look up the axis of rotation upon rotation. 17. Device as claimed in any of the claims 12-16, characterized in that the axis of rotation extends vertically and that the spearing means are arranged at the lower end of the axis of rotation. 1003353