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Title:
A MACHINERY TO PEEL BANANAS AUTOMATICALLY
Document Type and Number:
WIPO Patent Application WO/2021/053697
Kind Code:
A1
Abstract:
The present invention relates to a machinery to peel bananas comprising: -At least a couple of counter-rotating rollers (1sx, 1dx) arranged at a certain distance between them and configured so as to grab the banana through the skin and drag it into a separating cradle through the rotation thereof; -Characterized by the fact that: -The separating cradle is delimited above by a grid (60) arranged at least in part under said counter-rotating rollers and configured to enable the passage of the flesh and block the skin; -And wherein it is provided a cutting line (74sup, 61) arranged above the grid (60) and which goes at least in part along the longitudinal direction of said two rollers in such a position as to cause, in use, the separation of the banana dragged by said two rollers into two parts, the grid forming a right back (62dx) on the right of said cutting line and a left back (62sn) on the left of said cutting line and which form two sliding surfaces for the cut product, the right back arranging itself at least in part under the corresponding right roller (1dx) and the left back arranging itself at least in part under the left roller (1sx) and both of them at a certain distance from the respective roller.

Inventors:
CONCARI STEFANO (IT)
Application Number:
PCT/IT2019/000074
Publication Date:
March 25, 2021
Filing Date:
September 18, 2019
Export Citation:
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Assignee:
TROPICAL FOOD MACHINERY S R L (IT)
International Classes:
A23N7/00
Domestic Patent References:
WO2017185305A12017-11-02
Foreign References:
BRPI9101943A
AU8739175A1977-06-16
US1093762A1914-04-21
Attorney, Agent or Firm:
EMMI, Mario (IT)
Download PDF:
Claims:
CLAIMS

1. A machinery to peel bananas comprising:

At least a couple of counter-rotating rollers (lsx, ldx) arranged at a certain distance between them and configured so as to grab the banana through the skin and drag it into a separating cradle through the rotation thereof;

Characterized by the fact that :

The separating cradle comprises a grid (60) arranged at least in part under said counter-rotating rollers and configured to enable the passage of the flesh and block the skin;

And wherein it is provided a cutting line (74sup, 61) arranged above the grid (60) in such a position as to cause, in use, the separation of the banana dragged by said two rollers into at least two parts (300sx, 300dx), the grid forming a right back

(62dx) on the right of said cutting line and a left back (62sn) on the left of said cutting line and which form two sliding surfaces for the cut product, the right back arranging itself at least in part under the corresponding right roller (ldx) and the left back arranging itself at least in part under the left roller (lsx) and both of them at a certain distance from the respective roller.

2. The machinery, according to claim 1, wherein the said cutting line extends itself at least in part along the longitudinal direction of said two rollers.

3. The machinery, according to claim 2, wherein the cutting line is arranged in the center line of the minimum distance (nip) between the external surfaces of the counter-rotating rollers.

4. The machinery, according to one or more of the preceding claims, wherein the said cutting line comprises at least a cutting blade (74sup).

5. The machinery, according to claim 4, wherein an actuator (71b) is comprised connected to the said cutting blade (74sup) so as to move the blade for facilitating the cut, preferably according to an alternate motion of advancement/retrocession.

6. The machinery, according to one or more of the preceding claims, wherein said cutting line comprises a cusp-like shape of the said grid.

7. The machinery, according to one or more of the preceding claims, wherein the said cusp comprises a longitudinal housing (73sup) for arranging said cutting blade (74sup).

8. The machinery, according to one or more of the preceding claims, wherein the two ends of said right back (62dx) and left back (62sx) opposed to the said cutting line (74sup, 61) comprise respectively a second and a third cutting line (74sn, 74dx).

9. The machinery, according to claim 8, wherein said second and third cutting line are in the form of a second and third blade (74sn, 74dx) inserted respectively in a housing (73sx, 73dx).

10. The machinery, according to claim 9, wherein said second and third blades are movable by means of at least an actuator (71a, 71c) to which they connect themselves, preferably according to an alternate motion of advancement/retrocession.

11. The machinery, according to one or more of the preceding claims, wherein said right back (62dx) and left back (62sx) have a curved profile.

12. The machinery, according to claim 11, wherein the radius of curvature (R) of said curved profile of the backs and the radius of curvature of rollers is such that the said rollers maintain a constant or substantially constant distance with respect to at least a part of said external surface of the roller towards which they face.

13. The machinery, according to one or more of the previous claims, wherein the said grid is formed by a pack of foils (61) packed to one another at a predetermined distance between them.

14. The machinery, according to claim 13, wherein each foil (61) is in the same form of the other ones and provides a cusp (61) from which the right back (62dx) and the left back (62sx) depart.

15. The machinery, according to one or more of the preceding claims, wherein a hopper (16) is provided under the said grid (60) for collecting the flesh passing through the grid.

16. The machinery, according to one or more of the preceding claims, wherein one or more lateral scrollers (120) are comprised, preferably two lateral scrollers arranged on the two sides of the machine, for collecting skins.

17. The machinery, according to one or more of the preceding claims, further comprising one or more scrapers arranged in proximity of the rollers so as to facilitate the detachment of the skins attached to rollers and facilitate the fall thereof into the lateral scrollers (120).

18. The machinery, according to one or more of the preceding claims, providing one or more nozzles arranged so as to inject one or more fluids into an area of the machine comprising at least the said hopper and the processing cradle.

19. The machinery, according to claim 18, wherein at least a part of said nozzles are such as to inject the fluid upstream with respect to the direction of fall of the flesh through the grid.

20. The machinery, according to claim 18 or 19, wherein said fluids comprise fluids suitable for reducing the oxidation, such as nitrogen, ascorbic acid or a combination thereof.

21. The machinery, according to one or more of the preceding claims, wherein the rollers are covered externally by a punched plate.

22. The machinery, according to one or more of the preceding claims, wherein the distance between the said two counter-rotating rollers is such that each banana is grabbed between said two rollers according to the longitudinal length thereof.

23. A method to peel bananas automatically and comprising the arrangement of two counter-rotating rollers configured to grab a banana externally through the skin, for example through the presence of unevenness on the external surface of the said rollers, and of a separating grid having a plurality of openings and a cutting line arranged so as to cut into two parts the banana dragged by said two counter rotating rollers, the separating grad extending itself at least in part under said rollers so as a right separating path and a left separating path is formed and delimited by the respective roller and by the respective portion of grid facing towards the roller, the method providing the rotation of said two rollers and the feeding of bananas to rollers dropping them onto the rollers so that said rollers grab from the skin the whole banana and drag it along the cutting line thus causing the separation thereof into two parts and wherein, through said rotation, one cut part continues being dragged by the left roller along the left separating path with the flesh in contact with the separating cradle and the skin gripped on the surface of the left roller and the other part continues being dragged by the right roller along the right separating track with the flesh in contact with the separating grid and the skin which is grabbed onto the surface of the right roller.

Description:
TITLE

A MACHINERY TO PEEL BANANAS AUTOMATICALLY

Technical field

The present invention relates to the technical field of machineries in fruit and vegetable field.

In particular, the invention relates to an innovative machinery capable of peeling bananas automatically in functional and efficacious manner.

Brief outline of the prior art

The bunch of bananas (also called "hand of bananas") which is processed, is generally formed by four or five bananas joined to each other by means of a thallus. The degree of ripeness thereof is classified through numeric values which go from zero to seven. Bananas which are ripe enough have a degree of ripeness comprised between four and seven.

Bananas which are ripe enough are processed depending on needs in order to produce various products derived from the fruit to be sold on the market. For example, mashed bananas or other by-product of this fruit may be produced.

In industrial production, in order to process bananas to sell a final product on the market, it is necessary to peel them.

In order to process the fruit, it is obviously necessary to peel it, that is peel correctly, trying to maintain the fruit inside.

In the traditional system, the "hand of bananas", still green, is manually separated to the single unit to be stocked in boxes and ripened in suitable ripening chambers. Then (after a storage of 4 or 5 days) they are extracted and fed to the manual peeling system.

It is clear that manual processing is expensive and slow since it requires the arrangement of various operators which are arranged along a processing path (generally a conveyor belt) and separate single bananas of the bunch and then peel them one by one so as to feed them to the subsequent phases, depending on needs.

This kind of processing is obviously slow and it is not suitable for industrial production on a large scale.

Moreover, the product which is manually peeled and put onto a conveyor belt which only subsequently brings the product into the processing machinery, will be long aired, thus being oxidized and losing a good part of the nutritional qualities thereof.

Some machineries for processing bananas automatically exist in prior art.

For example, one of them relates to the Chinese publication CN 107136528 wherein a couple of counter rotating rollers are provided and equipped in their turn on the periphery thereof with rotatable axes fitted with hooks through which a crushing and punching of the peel occurs that the flesh exits from the skin.

This kind of solution has a very low efficiency since the crushing causes inevitably a certain loss of quantity of product.

Moreover, the structure is very complex structurally, since the rollers, as described, are equipped on the periphery with needles which are in their turn mounted on rotatable axes, so that, as a whole, it provides a strongly structurally complicated solution.

Finally, the product is laid down onto a single belt, thus causing an unavoidable contamination of the fruit which is mixed in contact with the outer part of the skin.

Therefore, even being automatic, this solution introduces many technical drawbacks.

A further publication is CN108652030.

In this case a transport system is described which leads the various bunches of bananas, hanging on a mobile support, towards a blade that cuts the base of the bunch (that is, the thallus) dropping the individual bananas into a funnel equipped with blades that pre-cut the skin.

At the outlet of the funnel two counter-rotating rollers are arranged provided with a plurality of needles at the periphery which grab the skin and further widen the pre-cut, thus dropping the fruit downwards drop below the two counter-rotating rollers, in a suitable collection area, and with the skins that are moved on the back of the rollers .

However, the drawback of this solution is to be strongly related to geometry and then to the sizes of the processed fruit. In fact, the arrangement of blades fixed in the funnel can cut properly only if the fruit has sizes suitable for the arranged blades.

Therefore, in many cases, different fruits of different sizes have an unsuitable pre-cut with the result of a bad separation.

In addition, the cut is carried out by blades that cut only when the product falls exactly onto them, also generating random cuts that often do not open easily during the subsequent processing. This implies a considerable waste of the final product.

Summary of the invention

Therefore, the aim of the present invention is to provide an innovative machinery to process bananas, in particular to peel bananas thus separating the fruit from the skin, which resolves the said technical drawbacks.

In particular, the aim of the present invention is to provide a machinery which enables to obtain a quick and precise processing so as to maintain the fruit at best and enable to remove the whole or almost the whole fruit with no wastes.

Moreover, the aim of the present invention is to provide a machinery which can process bananas independently from shape and sizes of bananas under processing .

Another aim of the present invention is to provide a machinery which, depending on needs, is able to reduce the effects of oxidation on the fruit during the processing thereof, thus maintaining organoleptic properties at best.

These and other aims are therefore achieved with the present machinery to peel bananas, according to claim 1.

This machinery comprises at least a couple of counter-rotating rollers (lsx, ldx) arranged at a certain distance between them. They are configured on the external surface thereof so as to grab the banana through the skin and drag it into a separating cradle through the rotation thereof.

According to the invention, the separating cradle is delimited below by a grid (60) arranged at least in part under the two said counter-rotating rollers and configured to enable the passage of the flesh and block the skin.

Therefore, the grid acts as a sort of filter to make the flesh pass and prevent the skin from passing.

According to the invention, it is provided a cutting line (74sup, 61) arranged so as to overhang the grid (60).

Preferably, it goes at least in part along the longitudinal direction of the said two rollers and it is arranged on the centre-line of the nip (see figure 8).

Therefore, this cutting line is arranged within the space between the two rollers where bananas pass so as to cause in use the separation into two symmetrical parts along the longitudinal direction of the banana dragged by said two rollers.

Practically, bananas, grabbed by rollers, are dragged onto said cutting line which separate bananas into two parts.

The grid forms a right back (62dx) on the right of said cutting line and a left back (62sx) on the left of said cutting line.

The right back is arranged at least in part under the corresponding right roller (ldx) and the left back is arranged at least in part under the left roller (lsx) and both of them at a certain distance from the respective roller .

Therefore, in this manner, a sliding channel is formed for each part of banana.

According to this structural solution, in use, after the separation of the banana into two parts, a part of the banana will be in the space comprised between the right roller and the right back and the other part will be between the left roller and the left back and both of them are dragged along the respective back along the grid through the rotation of said rollers with the flesh turned towards the grid and the skin turned towards the surface of the roller which drags this part of the banana along the back.

Therefore, this action of dragging spreads the fruit onto the grid and forces it to pass through it. Therefore, this enables the passage of flesh through the grid. Consequently, the skin, in contact from its external part with the roller, is dragged by the roller to the sides of the grid towards an outlet area.

In this way, the fruit is wholly utilized with minimum waste and the skin does not contaminate the fruit. In fact, the skin is taken through rollers from the external part and the system avoids contacts between the skin and flesh, since in addition, the skin is laid down on the sides.

The distance between grid and roller which forms the processing channel can be freely selected by the person skilled in the art according to preferred values that can optimize the result, for example considering the standard thickness of a skin and arranging a distance between roller and grid equal or greater than a possible average standard thickness of skins. In this manner, when the cut fruit enter the inlet of the channel delimited by roller and grid, it is pressed and spread along the grid by means of the dragging action.

Additional advantages may be inferred from the remaining dependent claims.

Brief description of the drawings

Additional features and advantages of the present machinery according to the invention will become apparent from the following description of preferred embodiments thereof, given only by way of non-limiting example, with reference to the attached drawings, wherein:

Both figure 1A and figure IB depict the transport system of the bunch of bananas so as to cut the connection thallus and separate them one by one;

Figures from 2 to 4 and figure 7 outline 3D views of the machinery according to the invention;

Figure 5 is a front view of a foil which forms the grid where the fruit passes;

Figure 6 is a lateral view of the grid fitted with knives for processing the fruit;

Figure 8 depicts in outline form the front view of an exemplifying processing phase.

Description of some preferred embodiments

The attached figures depict in detail the invention and a detailed description thereof is disclosed thereinafter .

Figure 1A depicts in axonometric view the transport system 10 of the bunches of bananas that are joined to one another by means of peduncle (also called "thallus"). Bananas are separated one by one by cutting the peduncle.

The system 10 which operates this separation is constituted by a closed-ring transport cable 11 which is moved exactly as a mechanical belt. In particular, the said cable is passed in contact with a rotatable pulley keyed to the driving shaft and in this manner, the motion is transmitted to the cable.

Figure 1A depicts the engine 13' which activates the driving shaft, not visible in figure for simplicity purposes .

Therefore, there are the cutting station 12 and the transmissions 13, 14, 15 through which the moving belt passes so as to assume the closed-ring shape.

The transmission 13 is fitted with engine 13'.

The two arrows of figure 1A indicate the movement of the cable, preferably made of steel, which moves the bunches of bananas hanged to the cable 11 towards the cutting station 12.

The cutting station 12 is particularly simple since it is constituted by two counter-rotating circular blades 20 (see figure IB) which rotate by means of suitable rotary engines.

Preferably, the cable 11 passes above the blades in the space comprised between the two rotary axes so that the blades intercept the base of the thallus and cut it, thus separating the bananas of the bunch one by one.

The bananas cut one by one drop onto the underlying belt which directs them towards the processing machinery by means of a flight elevator which unloads them into said machinery specific subject of the present invention.

The cutting station also provides a switch which enables to unload laterally inside a screw conveyor for ejecting cut thalli, thus preventing the thallus from mixing with the fruit intended for processing.

The cutting and separating station of thallus shortly described above is prior art per se and it is not the specific subject of the present invention and will not be described further.

Going in further detail of the description of the invention, figures from 2 to 4 depict some axonometric views of the machinery subject of the invention.

Figure 2 depicts the whole machinery 100, i.e. fitted with counter-rotating rolls 1 (practically, a right roller ldx and a left roller lsx) for processing the product, while figure 3 removes the rollers in order to highlight an underlying grid 60.

The external surface of the two counter-rotating rollers is fitted with a plurality of unevennesses or needles/hooks (similar to fish-hooks) which serve for better grabbing the fruit skin by punching and then to drag the fruit towards the separating "cradle".

In a possible solution the rollers are covered externally by a punched plate which forms a series of unevennesses which hole and drag the fruit, thus dragging it into the space interposed between the two processing rollers .

Other equivalent systems for obtaining unevenness onto the processing surface of the rollers can be provided without exceeding from the scope of the present invention. The two rollers are spaced from each other so as not to press the product and arrange it according to the longitudinal length thereof. Therefore, they are arranged so as to form a "nip", i.e. a space for the passage of the product in the point with the lower transversal distance between them, comprised in a range which goes from approximately 20mm to approximately 30mm, preferably from 22mm to 26mm and even more preferably from 24mm to 26mm.

Figure 8 indicates the "nip", i.e. the point with lower distance between the two externals surfaces of rollers and in which the banana 300 is arranged before being cut longitudinally.

In fact, the diameter of bananas is more or less standard and it does not diverge a lot in various ripe products suitable for being processed and therefore the above-mentioned ranges, in particular the preferred one, are suitable for ensuring a good dragging of product by rollers without crushing the banana inside the intact skin (therefore before starting the processing process described thereinafter) and making the rollers grab the banana between the rollers in a longitudinal position (see figure 8 banana 300).

Therefore, in this manner the fruit is dragged into the underlying grid fitted with suitable foils, described thereinafter, thus preventing it from being pushed but it is only "carried" onto the grid.

Then figure 3 highlights the attachments (51, 52) for the rotating shaft of the two rollers. The shafts are dragged to a rotation by a suitable engine.

As depicted in figure 3, under the above-mentioned rollers 1 the separating grid 60 is provided formed by a plurality of foils with a cusp profile which are packed together in succession so as to prevent the skin from passing into the area below this grid and thus facilitating the outflow of the skin towards the sides. The fruit which is instead particularly soft, is pulped and passes through the aforementioned grid or grating in other words. Substantially the packed foils are at a certain distance between them, determining in the whole the passage grid (see for example figure 6 which depicts the pack of blades in a side view).

For this purpose, the grid 60 has a front profile (evident from figure 3 too) as per figure 5 and it is obtained by a succession of foils 60' of figure 5 packed together (see figure 6).

Each foil 60' is formed in fact by two parts (a right one and a left one) and with each part having a back (62dx, 62sn) with a predetermined radius of curvature R (for example a portion of circumference). The two parts are perfectly symmetrical to each other and end in a superior cusp (a point in frontal view).

In fact, figure 5 depicts the cusp 61 and the curved surfaces (62dx, 62sn) which form the sliding surfaces of the skin, i.e. the back of blades.

Therefore, the curved shape with cusp 61 has many advantages .

The two curved surfaces (62dx, 62sn) can even partially retrace the radius of curvature of rollers in front of them and they can be arranged precisely under the rollers with no interference on the rotation thereof even being close to them and thus forming the channel for the passage of product.

For example, figure 8 depicts the "gap" that is the channel for the passage which is formed by the relative roller and the relative back. D radius of curvature of the back can be created such that the shape of the back follows more or less the shape of the roller thus creating a "gap" with constant width (distance between the external surface of the roller and surface of the back towards the roller).

In practice, figure 8 depicts a channel which maintains this constant "width" for a good part of the length thereof.

This enables the positioning of rollers close to the grid since the grid on the whole retraces part of the curved profile of rollers and in this manner, it is obtained a good thrust of the fruit towards the grid due to the action of rotation of rollers.

In this manner, a system for adjusting the "gap" can easily be provided and it is also possible a solution in which the "gap" tightens slightly from the cusp towards the end of the back thus pushing further the product of vice versa.

Moreover, the two curved surfaces (the backs 62dx, 62sn) , as explainer thereinafter, form two ramps from the cusp towards the opposite ends which facilitate the lateral ejection of skin, while the separation occurs on the path.

The parts indicated with number 65 refer to the holes for the passage of fastening axes to the bearing structure (frame) of the machinery.

As depicted in figure 6 and as inferable from figure 3, the grating is formed by a succession of such foils 60' spaced between them with such a distance to prevent the skin from passing through such spaces and to enable the passage of the flesh which is moved forward through the grating by the effect of thrust of rotation of rollers and then it is pulped.

Going back to figure 2, it highlights three actuators (71a, 71b, 71c) arranged at the three tops of a cusp-shaped external foil (also called front cover and it can be of other shapes since it is part of the external carter) which closes the previously-described package of foils 60'.

Each actuator moves a cutting blade, preferably according to an alternate forward-backward motion.

Going to figure 6, it highlights the above-mentioned actuators (71a, 71b, 71c) together with the front cover 72 and the three knives or blades (74sup, 74sn, 74dx) (the upper one 74sup and two lower ones 74sn e 74dx) moved by said actuators.

Preferably, actuators move knives according to an alternate motion as per double direction of arrow of figure 6.

Going to figure 5, the three above-mentioned knives are arranged in suitable housings obtained in each foil 60', in particular in the housing 73sup and 73dx and 73sx which correspond to the cusp and to the final sides.

The housing (73sup) is a closed housing obtained in each foil 60' so as to form a channel for the insertion and sliding of the blade. The foil ends actually in a cusp so as to form a cutting edge which continues thus intercepting the blade arranged in the housing (73sup) since this blade is exposed outside the housing in the space comprised between a foil and the next one.

Alternatively, a solution with a housing (73sup) open above could be provided for exposing the cutting edge of the blade which would form the cusp itself.

The lateral housings for the lateral blades which operate the scraping are open above to make emerge the cutting edge of the blade.

Substantially, the upper blade together with the cusp of each foil 60' cooperate for forming an upper cutting edge to separate the fruit into two halves in symmetrical way. The two halves are correctly scraped in the terminal part of the grid by the two lateral blades once they have passed the back of the grid towards the said two ends. The skin is opened actually through the point of cusps and the clean cut is finished by means of the upper blade which moves in alternate manner in the above-described housing.

At this point it is clear how the removal of skin occurs operatively, with reference to figure 8.

The machine can have a closing covering above. Through the opening 200 above of the cover (see figure 2) bananas previously separated as described above are dropped one by one by means of gravity.

Therefore, they are dropped between the two counterrotating rollers which grab them by means of unevennesses and thrust them into the separating cradle.

The separating cradle is formed at least by the grid with cusp and by the portion of rollers in front of the grid .

The cusp 61 of the grating operates a pre-cut; then the blade above (74sup) operates with a with alternate motion, thus finishing the cut into two halves.

Figure 8 depicts the banana 300 arranged longitudinally along the length thereof which intercepts the cusp and it is cut into two more or less symmetrical halves and therefore along a longitudinal length, that is the two parts (300sx, 300dx).

The combined action of the alternate motion of the above-mentioned upper blade together with the thrust of counter-rotating rollers cuts the fruit into two halves more or less symmetrically along the longitudinal length thereof .

The shape of a banana is irregular but the diameter is almost invariable. While the banana is dragged, the nip between rollers lays it onto the cutting edge always along a longitudinal direction determined by rollers and it determines in fact a cut into two substantially symmetrical halves.

This structure is such that the banana cut longitudinally into two halves has the fruit facing the grid while the skin is grabbed from the outside by needles of rollers which continue to move (then to thrust and "spread") the half fruit along the back of the grating.

A half fruit is dragged and thrusted along the right part of the grid 62dx while the other half passes onto the left part 62sn of the grid and the separation flesh/skin occurs during this dragging.

The lateral blades, always with the alternate motion thereof, process the skin on the internal part, i.e. towards the fruit, scraping the final parts of the fruit during the passage of the half fruit onto the ends where the knives are arranged.

A good part of the fruit is already thrusted through the grating into the path along the back of foils while lateral knives remove the final leftovers of product.

Although the preferred embodiment of the invention provides for the arrangement of two blades at the ends of the grids for the final leftovers, a possible alternative solution could be provided wherein the blades are also arranged on predetermined intermediate points along the back of the foils constituting the grid for a better removal .

The machinery described has a high efficiency since it enables to utilize the whole fruit with a minimum waste of fruit and at the same time preventing contaminations with the external skin which faces towards rollers and it is attached to them to be rejected laterally afterwards.

In this way, skins are dragged laterally by rollers and fall laterally into the underlying collecting scrollers 120 (see figure 2), while the fruit flesh, filtered through the passage of grating 60, falls into the underlying part of the machinery which is intended for continuing the product processing.

In order to facilitate the detachment of the skins hooked by unevennesses of rollers and facilitate the fall thereof into the lateral scrollers 120, a series of scrapers can be provided arranged in proximity of the periphery of rollers.

Figure 2 also depicts nozzles connected to a supply of liquid, such as water and a supply of gaseous flow, such as air.

More particularly, always with reference to figure 2, the nozzles 121 (present both on the left and on the right of the machinery) inject air while the nozzles 122 inject water, both of them towards the rollers.

Therefore, nozzles are connected to an external circuit of air and water.

The action of water serves for washing the rollers from fibres of product while the air blade dries them.

A separated or combined action of air and water can obviously occur.

The said washing/drying circuits can be activated bot continuously and intermittently during the processing. The intervals of action of the two circuits are managed automatically through PLC.

Describing the invention further, an additional important feature thereof is the underlying part of the machinery which contributes to obtain a high-quality product .

In particular, as depicted in figure 4 or figure 2, it is provided a collecting hopper 160 which directs the product in outlet from the grating towards a volumetric pump 161 which directs the product into machineries related to the further processing (such as formation of a puree and bottling or packaging in general).

According to a further additional feature of the invention, the area which starts from the central blade touches the two external ends of the grid and then it closes itself onto the volumetric pump, it forms an inert area of modified atmosphere (white area of figure 7) which is distinctly separated from the rest of the machinery, in particular from the area of skins (grey area of figure 7). In this way, contaminations of the product are prevented and, by means of modified atmosphere, the flesh of fruit does not oxidize and owns high quality.

Therefore, as depicted in figure 4, it is highlighted the path of ducts which feeds nitrogen and/or ascorbic acid into the hopper 160.

The flow of nitrogen moves preferably from below towards the overlying rollers so as to be preferably upstream with respect to the path for processing and moving forward the fruit. This enables the elimination of oxidizing air since nitrogen intercepts directly the flesh of fruit, thus preserving it better.

Ascorbic acid in combination with nitrogen reduces oxidation of the product. Ascorbic acid is in liquid form.

It is dosed in a predetermined quantity.

Ascorbic acid falls in the white area while nitrogen goes up upstream and exits in part between the two rollers and in part between the rollers and lateral blades.

The flesh practically reduced to a mass of pulp by the hopper is directed by the volumetric pump and, as evident from the description, the flesh has remained in the protected environment from the moment of the light exposure thereof.

This enables to obtain a high-quality product with a high speed of production.

However, it is clear that the described system could be used without necessarily create an inert environment even if, as described, the fluid injection which contribute to create an inert environment in the area where the flesh is processed contributes to a better quality of the product.

Therefore, it is described here a machinery to peel bananas comprising at least a couple of counter-rotating rollers (lsx, ldx) arranged at a certain distance between them so as to grab the banana through the skin and drag it into a separating cradle through the rotation thereof;

According to this feature of the invention, at least a part of the area where the product is processed in said machinery is configured to create and maintain an environment in protective atmosphere, for example through the injection of nitrogen and/or ascorbic acid.