1. Field of the Invention
The invention relates to an installation for the treatment of products in bulb or tuber form in relation to the removal of the outermost layer thereof, which installation has a channel through which the products can be transported between an inlet and an outlet that are at different levels, which channel is delimited by a first series of rotary treatment elements arranged alongside one another and extending transversely to the direction of transport, and by an opposing boundary opposite the series of treatment elements.
2. Description of the Related Art
An installation of this type is disclosed in Netherlands Patent 166386 and is used for brushing dry steam- or lye-peeled tubers, for example potatoes. This known installation has a treatment channel positioned at an angle, the bottom wall of which is formed by a series of drivable brush rollers and the top wall of which is formed by the underpart of a drivable endless conveyor belt. The brush rollers transport the tubers from the lowest end of the treatment channel to the highest end thereof. The underpart is driven in the direction opposing the transport device for the brush rollers.
The disadvantage of this known installation is that this is fairly complex and expensive, both to purchase and to maintain. The brush rollers have a fairly aggressive action on the tubers, as a result of which a lot of tuber material is lost. Moreover, the brush rollers themselves also wear fairly severely.
A further disadvantage is that the transport of the tubers is fairly susceptible to the dimensions of the tubers. As a result blockage can easily occur and the installation has to be continually monitored. This adversely affects the operational reliability of the installation.
It also proves difficult to control the residence time of the tubers in the installation. This is mainly determined by the speed of revolution of the brush rollers, which, however, is dictated by the requirement that the skin has to be properly removed from the tubers. Furthermore, it is found that the known installation cannot be cleaned easily.
The aim of the invention is, therefore, to provide an installation of the abovementioned type that does not have these disadvantages or has these disadvantages to a lesser extent. Said aim is achieved in that the opposing boundary is determined by a second series of rotary treatment elements and in that the input is at a higher level than the output.
With the installation according to the invention the products move downwards under the influence of gravity in the channel between the two series of treatment elements, from the relatively high input to the relatively low output. Preferably, this channel is vertical.
As a result of this arrangement of the treatment elements along an essentially vertical channel, the transport of the products can be controlled in the desired manner. The residence time of the products in the channel, and thus the duration of the treatment to which they are subjected, can be influenced by adjusting the speed of revolution of the treatment elements. If necessary, these can be driven at different speeds of rotation in order to retard the downward movement of the products through the channel to a greater or lesser extent.
The series of treatment elements can be constructed in various ways. According to a first possibility, the treatment elements in each series are alternately offset in zigzag fashion. They then enclose a channel that is likewise of zigzag shape, which makes intensive treatment of the products possible.
As an alternative, the series can be straight. In this way an essentially straight channel is obtained. Furthermore, the treatment elements can be alternately offset in zigzag fashion. With this arrangement a somewhat zigzag-shaped channel is obtained. This is also the case according to a further alternative wherein at least the series are offset parallel with respect to one another over a distance that is less than the mutual spacing between two treatment elements.
The installation according to the invention as described above is able to operate without rinsing water having to be supplied in connection with the removal of the outer layer from the products. For certain products it can sometimes nevertheless be necessary to carry out a supplementary treatment of this type. For this purpose there can be further series of treatment elements below the first two series of treatment elements, which further series are combined with a supply of liquid for rinsing the products.
A housing can be provided in the installation, which housing has two outside walls between which the series of treatment elements are enclosed, which outside walls collect the material originating from the products. At the bottom of said housing there are separate outputs for the treated products and for the material removed therefrom.
The outside walls can be closed all round and furthermore can contain one or more suction openings for generating a vacuum. This vacuum is generated between a brush group and the adjacent wall, such that the vacuum is produced at the side of said brush groups facing away from the channel. Such a vacuum promotes the transport of the peel from the treatment channel to the side walls of the housing. As a result improved discharge of the peel separately from the treated products is possible.
The treatment elements can be constructed in various ways. First of all, these can comprise rotationally symmetrical brushes. Furthermore, the treatment elements can comprise a flexible outer layer with an abrasive surface that is symmetrical in revolution. With this arrangement there can be a foam filling underneath the flexible outer layer, or the flexible outer layer can delimit a gas-tight or liquid-tight chamber that is filled with a medium that may or may not be pressurised.
The treatment installation according to the invention will now be explained in more detail with reference to illustrative embodiments shown in the drawing.
The dry peeling installation 2 shown in
The rollers of groups 4 and 5 are jointly all driven clockwise or all driven anticlockwise by, respectively, motor 9 and motor 10 seen in
On either side the housing 3 is provided at the bottom with two material output openings 12 and an output opening 11 for the products that have been brushed clean.
In the embodiment shown in
In the preferred embodiment shown in
In the installation shown in
The bearings and drives for the rollers 4 and 5 are all outside the housing 3 of the dry peeling installation 2. This housing 3 is furthermore also provided with an outlet opening 11 at the bottom for the peeled tubers and with two outlet openings 12 for the peel brushed off. Tailored to the diameter of the tubers to be processed, the distance between the rollers 4 and 5 can be set by means of an adjusting device 13 in such a way that one of the two frame sections 19 can be moved in the horizontal direction.
In the installation shown in
The brush groups 4 and 5 are mounted in the frame sections 19 that are adjustable in the horizontal direction. The brush group 22 is mounted in the fixed frame section 20 and is driven by motor 21. The processing capacity can be doubled in a simple manner by means of the added additional brush group.
The mode of operation of the installations described above is as follows, taking the processing of crops as an example.
In a pre-treatment installation the skins of the tubers are softened in a known manner with the aid of steam or lye and are then fed via a feed device uniformly into the input opening 1 of the dry peeling installation 2. As a result of gravity the tubers drop into the treatment channel 8, in which they are brushed by the rollers 4 and 5 turn and turn about. The peel that has been brushed off is carried away through the small gaps present between the brushes and propelled by centrifugal force against the wall of the housing 3. As a result of gravity, the peel mass flows towards the peel outlet 12 to be discharged from there to a storage installation. The tubers that have been peeled and brushed clean drop into the outlet 11 under the influence of gravity and the difference between the circumferential speeds of the rollers 4 and 5 so as then to be fed to a storage or processing installation. The residence time of the tubers in the treatment channel is dependent on the resultant of gravity and the respective frictional forces of the rollers 4 and 5 on the tubers. The residence time can be adjusted by varying the speeds of revolution of the rollers 4 and 5.
In
In the case of the abrasive roller shown in
In the case of the abrasive roller shown in
In the embodiment in
Number | Date | Country | Kind |
---|---|---|---|
1019471 | Dec 2001 | NL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/NL02/00784 | 12/3/2002 | WO | 00 | 6/2/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/047372 | 6/12/2003 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2178007 | Thompson | Oct 1939 | A |
3618651 | Hart et al. | Nov 1971 | A |
4242952 | van der Schoot | Jan 1981 | A |
4509414 | Chiu et al. | Apr 1985 | A |
5931088 | van der Schoot | Aug 1999 | A |
Number | Date | Country |
---|---|---|
0 562 541 | Sep 1993 | EP |
0 562 541 | Sep 1993 | EP |
0 838 162 | Apr 1998 | EP |
90260 | Jan 1959 | NL |
Number | Date | Country | |
---|---|---|---|
20050076797 A1 | Apr 2005 | US |