ICE CREAM MACHINE AND A METHOD FOR PRODUCING AN ICE CREAM PRODUCT USING AN ICE CREAM MACHINE

Abstract

The invention relates to an ice cream machine having a filling zone and an emptying zone. The ice cream machine comprises a rotatable unit having a radial extension, a mould for receiving ice cream, the mould being arranged to rotate with the rotatable unit, an extrusion nozzle for extruding ice cream into the mould, the extrusion nozzle being arranged at the filling zone. The ice cream machine further comprises an ejection mechanism for ejecting ice cream radially out of the mould at the emptying zone. The invention also relates to a method for producing an ice cream product using an ice cream machine.

Claims

1. An ice cream machine having a filling zone and an emptying zone, said ice cream machine comprising: a rotatable unit having a radial extension; a mould for receiving ice cream, said mould being arranged to rotate with said rotatable unit; an extrusion nozzle for extruding ice cream into said mould, said extrusion nozzle being arranged at said filling zone; an ejection mechanism for ejecting ice cream radially out of said mould at said emptying zone.

2. An ice cream machine according to claim 1, wherein said ejection mechanism comprises a piston connected to said mould.

3. An ice cream machine according to claim 2, wherein a bottom of said mould is radially movable together with said piston.

4. An ice cream machine according to claim 1, comprising a transporting zone between said filling zone and said emptying zone, wherein at said transporting zone said ejection mechanism is arranged to move said mould radially inwards of said rotatable unit.

5. An ice cream machine according to claim 2, wherein said piston is a reciprocal piston.

6. An ice cream machine according to claim 5, wherein said piston is reciprocal by being connected to a cam shaft arranged at a hub of the rotatable unit.

7. An ice cream machine according to claim 5, wherein said piston is reciprocal by being pneumatic, hydraulic or electrically actuable.

8. An ice cream machine according to claim 1, comprising at least two moulds, wherein the extrusion nozzle is arranged to cover more than one mould at said filling zone.

9. An ice cream machine according to claim 1, comprising a sealing arranged to seal said extrusion nozzle to said rotatable unit.

10. An ice cream machine according to claim 1, comprising a detaching mechanism arranged to detach said ice cream from said mould at said emptying zone, wherein said detaching mechanism is at least one of the following: a scrape, a wire, a pneumatic-driven system, an ultrasound cutting tool.

11. An ice cream machine according to claim 1, comprising a conveyer tray arranged to receive said ice cream from said mould at said emptying zone, wherein the rotational speed of the rotatable unit is adapted to the speed of the conveyer belt.

12. An ice cream machine according to claim 1, comprising a stick providing arrangement arranged to provide a stick for each mould.

13. A method for producing an ice cream product using an ice cream machine having an extrusion nozzle, a rotatable unit, at least one mould arranged to rotate with said rotatable unit, and an ejection mechanism, said method comprising the steps of: providing ice cream with or without inclusions; extruding said ice cream through the extrusion nozzle into the mould; ejecting said ice cream out of said mould using said ejection mechanism.

14. The method according to claim 13, wherein the step of ejecting said ice cream comprises using a piston to push said ice cream out of said mould in a radial direction of said rotatable unit.

15. The method according to any one of claim 13, wherein the ice cream machine comprises at least two moulds, and wherein the step of extruding said ice cream comprises extruding ice cream into more than one mould.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0046] The above objects, as well as additional objects, features and advantages of the present invention, will be more fully appreciated by reference to the following illustrative and non-limiting detailed description of preferred embodiments of the present invention, when taken in conjunction with the accompanying drawings, wherein:

[0047] FIG. 1 is a perspective view of an ice cream machine in accordance with at least one embodiment of the invention;

[0048] FIG. 2 illustrates in cross section, an ice cream machine in accordance with at least one embodiment of the invention;

[0049] FIG. 3 is a flow-chart schematically illustrating at least one example embodiment of the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

[0050] FIG. 1 shows an ice cream machine 1 in accordance with one embodiment of the present invention. The ice cream machine 1 comprises a rotatable unit 10, a plurality of moulds 20 (of which only some are indicated) each mould 20 being provided with an ejection mechanism 30. The ice cream machine 1 further comprises an extrusion nozzle 40 and a stick providing arrangement 50.

[0051] The rotatable unit 10 of FIG. 1 is arranged as a rotatable wheel 10 having a hub 12 and a rotatable unit body 14. The rotatable unit 10 has an extension in the radial direction extending from the hub 12 towards the rotatable unit body 14 (indicated as a dashed arrow with the letter R in FIG. 1). The rotatable unit body 14 is formed as an open cylinder 14 having an extension in the radial direction R. An outer wall 16 of the rotatable unit body 14 is facing away from the hub 12.

[0052] In FIG. 1, the moulds 20 are arranged to rotate in rotational direction D, with the rotatable unit 10, as each mould 20 is comprised in the rotatable unit 10 by being arranged in the rotatable unit body 14. Each mould 20 comprises a bottom 22, lateral walls 24 and a stick receiving portion 26 arranged to receive a stick 52 from the stick providing arrangement 50. In other words, each mould 20 is arranged as an indention 20 in the outer wall 16 of the rotatable unit body 14.

[0053] Each of the ejection mechanism 30 is associated with a mould 20, and comprises a piston 32. In FIG. 1, the pistons 32 (of which only some are indicated in FIG. 1) are arranged as the arms of a wheel in relation to the rotatable unit 10. Hence, the ejection mechanism 30 and its pistons 32 are rotatable with the rotatable unit 10. The pistons 32 are arranged to move radially inwards and radially outwards, preferably by being reciprocal pistons. Hence, by arranging each piston 32 to the bottom 22 of the moulds 20, and by providing a bottom 22 of the mould 20 which is movable, the bottom 22 of each mould 20 may move together with each associated piston 32 inside the rotatable unit body 14. As an alternative, the piston 32 may be arranged to move through the bottom 22 of the moulds 20.

[0054] The extrusion nozzle 40 is arranged to receive ice cream through a receiving portion 42, and extrude ice cream into the moulds 20. A sealing 44 is arranged to seal the extrusion nozzle 40 to the rotatable unit 10.

[0055] It should be noted that the rotatable unit 10 need not to be comprised by a single unit, but may comprise different parts and portions, such as e.g. the hub 12, the ejection mechanism 30 and the pistons 32 as being arranged as spokes of the rotatable unit 10, and the body 14 and outer wall 16 of the rotatable unit 10.

[0056] The function of the ice cream machine 1 will now be described in further detail with respect to FIGS. 1 and 2. For illustrative purposes in FIG. 2, the stick providing arrangement 50 has been dispensed with. Furthermore, and for the same reasons, only two pistons 32 are shown in FIG. 2, and only some of the moulds 20 are indicated.

[0057] The ice cream machine 1 comprises a stick providing zone 3, a filling zone 5, a transportation zone 7, an emptying zone 9. The rotatable unit 10 and the moulds 20 are arranged to rotate between these zones 3, 5, 7, 9. In FIGS. 1 and 2, the moulds are arranged 20 rotate in a clockwise direction (the direction of rotation is perpendicular to the radial direction R of the rotatable unit 10 and is indicated by the curved arrow D).

[0058] The stick providing arrangement 50 (shown in FIG. 1 only) is arranged in the stick providing zone 3, prior to the filling zone 5, and is arranged to provide each mould 20 with a stick 52, as the moulds 20 are rotated passed the stick providing arrangement 50. In other words, the stick 52 may be provided to the mould 20 prior to filling the mould 20 with ice cream. According to at least one alternative example embodiment, the stick providing arrangement 50 (shown in FIG. 1 only) is arranged after the filling zone 5. In FIG. 1, mould 20A has a stick receiving portion 26, and the intended stick to be provided by the stick providing arrangement 50 is indicated by dashed lines. For illustrative purposes, stick 52 of mould 20B is shown.

[0059] In the filling zone 5, the extrusion nozzle 40 extrudes ice cream into the mould 20, or moulds 20, positioned in fluid contact with the extrusion nozzle 40. Preferably, the extrusion nozzle 40 is arranged to be in fluid contact with more than one mould 20 at the same time, i.e. preferably the extrusion nozzle 40 is arranged to fill more than one mould 20 with ice cream at the same time. Hereby, the filling of the moulds 20 can be carried out more efficiently possibly without interruption of the rotation of the rotatable unit 10 during the process. Furthermore, the rotational speed of the rotatable unit 10 and the moulds 20 can be set higher.

[0060] The filling of the moulds 20 with ice cream by the extrusion nozzle 40 is preferably carried out with an increased pressure as compared to the surroundings (i.e. an overpressure). Hereby, the filling of the ice cream can be carried out in an efficient manner, and the ice cream, with our without inclusions can efficiently be arranged around the stick 52 in the mould 20.

[0061] It should be noted that in FIG. 1, only the filling zone 5 is illustrated as being covered by a cover 46 for illustrative purposes. However, according to one example embodiment, the moulds 20 are covered by the cover 46 in the filling zone 5 and in the transportation zone 7 (i.e. from the filling zone 5 up to the emptying zone 9) and are hence separated from the surroundings by the cover 46, as illustrated in FIG. 2.

[0062] Subsequently, the moulds 20 enter the transportation zone 7 as they continue to rotate with the rotatable unit 10 towards the emptying zone 9. In the transportation zone 7, the ejection mechanism 30 associated with each mould 20 is arranged to move radially inwards towards the hub 12. This is illustrated by that the bottom 22 of mould 20B in FIG. 2, represented by a dashed line, is withdrawn further towards the hub 12 compared to e.g. the bottom 22 of mould 20A. Hereby, the bottom 22 of each mould 20 in the transportation zone 7 can be moved towards the hub 12, i.e. radially inwards, whereby the overpressure in the moulds 20 (stemming from filling the moulds 20 with ice cream) can be decreased or even eliminated. Hereby, the risk of deformation of the ice cream product during ejection of the ice cream product from the mould 20, and/or mispositioning of the stick 52 in the ice cream product, can be reduced.

[0063] After the transportation zone 7, the moulds enter the emptying zone 9, where the ice cream, or ice cream product, is intended to be detached from its mould 20, and put on e.g. a conveyer tray 70 or conveyer belt 70 (shown only in FIG. 2). In the emptying zone 9, the ejection mechanism 30 pushes the ice cream, or ice cream product out of the respective mould 20. As illustrated in FIGS. 1 and 2, each piston 32 is movable radially outwards and is able to push the bottom 22 of each mould 20 radially outwards whereby the ice cream or ice cream product is ejected out of its mould 20. This is illustrated by that the bottom 22 of mould 20C in FIG. 2, represented by a dashed line, is arranged further away from the hub 12 as compared to e.g. the bottom 22 of mould 20A. At this stage, the ice cream, or ice cream product, is typically attached to the bottom 22 of the mould 20, and as the bottom 22 of the mould 20 has been pushed out of the rotatable unit body 14 of the rotatable unit 10, there are no longer any lateral sides 24 of the mould 20, and the bottom 22 of the mould 20 is substantially a part of the outer wall 16 of the rotatable unit body 14.

[0064] At the emptying zone 9, a detaching mechanism 60 (shown only in FIG. 1) is arranged to detach the ice cream, or ice cream product, from the mould. In FIG. 1, the detaching mechanism is formed as a scrape 60 arranged to move in the direction of the indicated arrow along the bottom 22 of the mould 20C whereby the ice cream, or ice cream product, will detach from the mould 20C. The detaching mechanism may also be a wire, (heated or not heated), arranged in a fixed position under the rotatable unit 10. It should be noted that in FIG. 1, the pushed-out bottom 22 of the mould 20C is not shown, only the stick receiving portions 26 of the moulds 20 are shown. Other detaching mechanism can be used, such as e.g. a scrape, a wire, a pneumatic-driven system, an ultrasound cutting tool.

[0065] After detaching the ice cream, or ice cream products, from the moulds 20, a conveyer tray 70 or conveyer belt 70 is preferably used for further transportation of the ice cream, or ice cream products.

[0066] As illustrated in FIG. 2, the rotatable unit 10 may be driven by a motor 80. The motor 80 may e.g. be electrically driven and may be connected to the hub 12 of the rotatable unit 10.

[0067] The flow-chart in FIG. 3 schematically illustrates a method for producing an ice cream product using an ice cream machine 1 as described with reference to FIGS. 1 and 2 (hence, the reference numerals of FIGS. 1 and 2 are used below when describing the steps of the method in the flow-chart in FIG. 3).

[0068] In a first step 1, a stick 52 is provided by the stick providing arrangement 50 to a stick receiving portion 26 of a mould 20 in the stick providing zone 3.

[0069] In a subsequent step 2, ice cream, with or without inclusions, are provided to the extrusion nozzle 40.

[0070] In a subsequent step 3 the ice cream is extruded through the extrusion nozzle 40 into the mould 20, in the filling zone 5. Preferably, and in the embodiments of the invention comprising more than one mould 20, more than one mould 20 is filled at the same time.

[0071] In a subsequent step 4, the ejection mechanism 30 associated with the mould 20 is moved radially inwards in order to decrease the pressure inside the mould 20.

[0072] In a subsequent step 5, the ejection mechanism 30 associated with the mould 20 is moved radially outwards in order to eject the ice cream, or ice cream product from the mould 20.

[0073] In a subsequent step 6, the detaching mechanism 60 detaches the ice cream, or ice cream product, from the bottom 22 of the mould 20.

[0074] In a subsequent step 7, the ice cream, or ice cream product, is put on a conveyer tray 70 or conveyer belt 70 for further transportation.

[0075] The skilled person realizes that a number of modifications of the embodiments described herein are possible without departing from the scope of the invention, which is defined in the appended claims.

[0076] For instance, the invention is not limited to the number of moulds, an ice cream machine having only a single mould is within the concept of the present invention. Furthermore, the moulds need no to be integrated into the rotatable unit, but may be arranged externally of the rotatable unit. The design of the rotatable unit may also be varied, e.g. by changing the geometrical shape of the unit. Furthermore, there may be more and/or other zones of the ice cream machine besides the filling zone, the transportation zone, the emptying zone and the stick providing zone described in this application. The more and/or other zones may be related to the same or other functions as those mentioned in this application.