WO2009060236A2 - Agitation device - Google Patents

Abstract

The present invention provides an agitation device (10) comprising a body portion (12) and at least one stirring element (14) extending from said body portion and for insertion into material in a receptacle which is to be agitated, wherein the body portion comprises a housing having located therein a motion element powered by way of a power source, and arranged to impart a vibrating action to the device and thus to the at least one stirring element, said vibrating action arranged to effect movement of the agitation device relative to the said material, and wherein said at least one stirring element extends from said body portion such that, in normal operation, the at least one stirring element extends downwardly from the body portion and serves to support the device on a surface of the said receptacle.

Description

AGITATION DEVICE

The present invention relates to an agitation device and particularly, but not exclusively, to an agitation device for agitating ingredients in the preparation of food.

The use of agitation devices in laboratories and various industries such as the building industry (where such agitation devices may be used to agitate, by way of stirring and/or mixing, for example, paints, plaster, concrete/cement, etc), the food industry, etc. is prevalent. Such agitation devices are available with numerous shapes/configurations, such as: turbine type; impeller type; cross-beam type; frame type; blade type; anchor type; pitched-blade type; propeller type; helical ribbon type; whisks, etc, and these agitation devices can be manually powered, electrically powered, mechanically powered, and can be driven directly, or indirectly by way of gears.

The type of agitation device to be used is dependent upon the material(s) to be agitated. Whisks are particularly suitable for use in both the food industry and for domestic food preparation and their design facilitates mixing, circulation, cooling, stirring of food ingredients, and can allow air to be introduced into the food ingredients.

In the field of food preparation, agitation devices are chosen not only for ease of aeration and/or mixing of the food ingredients, but also for compatibility with kitchen space, temperature conditions, mixing volumes, the shape and material (e.g. Teflon®) of food mixing vessels, ease of cleaning (e.g. water-proofing or dishwasher suitability), or any combination of these requirements.

Many known agitation devices for use in food preparation, however, suffer disadvantages in that a fairly quick rotary or "beating" action must often be employed by a user in order to agitate the ingredients of a mixture to obtain a desired consistency/texture of the mixture. This action requires a vigorous rotation of the agitation device applied by way of the user flexing and rotating their wrist. In particularly thick mixtures, the force necessary to agitate the ingredients can cause a user to quickly tire due to fatigue in the wrist region and so it can be difficult for a user to maintain a constant speed of rotation of the agitation device. This issue can be a particular problem in the elderly/infirm or those with weaker wrists.

Alternative processes for mixing material(s) employ vibrating means to agitate a mixture to cause mixing of the material(s) therein. These processes can employ oscillations to act on the material(s) of the mixture to agitate the mixture. Such processes may employ vibration devices arranged to agitate vats of liquid, etc. in order to facilitate mixing of material(s). The frequency of vibration of such devices may range form infrasonic, through acoustic frequencies, to ultrasonic. These types of processes and devices are employed advantageously where it is desirable to segregate the mixing element from the substance to be mixed or where use of a mixing element may not be possible. For example, an agitation device in which mixing elements of the agitation device have to be physically inserted into a mixture may require measures (e.g. seals) to prevent contamination of the mixture and ingress of material(s) in the mixture to mechanical and/or electrical components of the agitation device and also egress of components of the device and/or lubricating fluids to the material(s) being agitated. Such measures are often expensive and difficult to implement and often are not completely effective so that they are susceptible to liquid ingress. Therefore segregating a motor and vibration technology from the actual elements to be inserted into the mixture is desirable to prevent such contamination and/or ingress/egress problems.

The present invention seeks to provide for an agitation device having advantages over known such agitation devices.

According to an aspect of the present invention, there is provided an agitation device comprising a body portion and at least one stirring element extending from said body portion and for insertion into material in a receptacle which is to be agitated, wherein the body portion comprises a housing having located therein a motion element powered by way of a power source, and arranged to impart a vibrating action to the device, and thus to the at least one stirring element, said vibrating action arranged to effect movement of the agitation device relative to the said material, and wherein said at least one stirring element extends from said body portion such that, in normal operation, the at least one stirring element extends downwardly from the body portion and serves to support the device on a surface of the said receptacle.

An advantage of the present invention is that the vibrating action of the agitation device and the function of the at least one stirring element as not only an agitating means, but also a support to maintain the agitation device substantially upright, allows the agitation device to be free-standing and, effectively, to automatically agitate or "self agitate" a material by, for example, stirring, mixing, etc. Therefore, the agitation device of the present invention can be used to agitate material(s) itself without requiring a stirring/mixing action applied by a user and without requiring a means to which the agitation device can be fixed, for example, a mixing bowl, in order to provide support for the agitation device and a static feature against which the device can act. Thus, the motion for agitating is generated between the agitation device and the mixing bowl without requiring a fixed point.

Preferably, the at least one stirring element is integral with the body portion.

An integral body portion and stirring element means provides an agitation device which comprises a single unit. An advantage of this is that the unit can be manufactured as a single article and so the problem of liquid ingress to the motion element or of the egress of motor parts and/or lubricants to the material, is avoided since there are no seals, etc. which can fail, thereby allowing such ingress/egress. Conveniently, said motion element comprises at least one of: an off-centre motor; a piezoelectric driver; a solenoid-driven device; a rotary cam; a rotary ratchet; and a linear ratchet. The frequency of vibration of the motion element may range from infrasonic, through acoustic, to ultrasonic,

In particular, said at least one stirring element may comprise at least one prong. The at least one prong may comprise surface area enhancing features such as: holes; dimples; and ridges. Also, the at least one stirring element may be at least partly formed of a deformable material to allow the shape/configuration of the at least one stirring element to be altered dependent upon the required use of the agitation device. Additionally, or alternatively, the at least one stirring element may be at least partly formed of a resilient material. Also, the at least one stirring element may be resiliently mounted to the body portion.

Preferably, said device comprises a plurality of stirring elements which are equally spaced from one another.

Conveniently, said plurality of stirring elements are in a balloon-type whisk configuration.

Further, said power source may comprise at least one of: an electrical power source, such as a battery, which may be rechargeable; a mechanical energy source, such as a flywheel or other source of potential mechanical energy, e.g. a spiral spring; a fuel cell; or any other suitable form of storable energy.

If required, said body portion may be shaped so as to be conveniently gripped by a user. This allows the agitation device to be used as a manual agitation device should the situation require.

Preferably, said agitation device further comprises heating and/or cooling elements arranged to heat and/or cool said stirring elements. By employing a heat source, such as a high resistance process or other, or by employing a cooling source, the stirring elements of said agitation device can be used to heat and/or cool ingredients that are being agitated, and/or affect adhesion of the ingredients to the stirring elements.

Preferably, the agitation device includes a user interface to enable a user to control operation of the motion element. Conveniently, said user interface comprises a switch including an on/off function. Additionally, the user interface may comprise a variable controller for allowing setting of at least one of: a frequency of vibration of said motion element; a period of operation of said motion element; intermittent operation of said motion element; a charging program for said power source; at least one heating and/or cooling operation mode and/or temperature of said agitation device.

Preferably, said user interface may be located on said housing of said body portion, but may also be located within said agitation device, or on a stirring element of said agitation device.

In particular, the agitation device may further comprise a control element, preferably programmable, to allow for setting of different operation modes.

Additionally, or alternatively, the user interface may be remotely operated.

Such remote operation may be implemented by way of near field technology devices which may incorporate infra-red or Bluetooth® technologies.

Preferably, said movement of the stirring device comprises at least one of; oscillatory movement; rotational movement; and translational movement,

The present invention is described further hereinafter, by way of example only, with reference to the accompanying drawings in which: Fig. 1 illustrates a perspective view of an agitation device according to the present invention;

Fig, 2 illustrates a perspective cut-away view of the agitation device of Fig. 1 ;

Fig. 3 illustrates a cross-sectional side view of the agitation device of Fig. 1 ; and

Fig. 4 illustrates a perspective view of the agitation device when in operation.

As mentioned, Fig. 1 illustrates an agitation device 10 which comprises a body portion 12, and four equally spaced stirring elements 14 that depend downwardly from the body portion 12, and a user interface 16 to allow a user to control operation of the agitation device 10.

In the illustrated embodiment, the body portion 12 comprises a substantially cylindrical housing and the stirring elements 14 comprise elongate members, the roots of which are spaced equally about the circumference of a lower region of the body portion 12 and, in a normal orientation of the agitation device 10, extend downwardly and radially outward from the body portion 12. These stirring elements 14 may be formed from wire, tube, and may comprise prongs, fingers, or elongate "U- shaped" members. As illustrated, the stirring elements 14 also curve inwardly proximate to the ends which are remote from the body portion 12. Thus, in the illustrated arrangement, the stirring elements 14 form a shape similar to a conventional "balloon" whisk.

The user interface 16 preferably comprises a control switch arranged to allow a user to control operation of the agitation device 10. The control switch allows a user to at least switch the agitation device 10 on and off, but preferably additionally allows the user to set at least one of: a frequency of vibration of the agitation device 10 (e.g. speed settings); a period of operation of the agitation device 10 (e.g. a timer); intermittent operation of the agitation device 10; a charging program for a power source of the agitation device 10; and at least one heating and/or cooling operation mode and/or temperature of said agitation device 10.

In use, the stirring elements 14 are placed in the material(s) to be agitated and the agitation device 10 is arranged to perform an agitating action to: (i) agitate the material(s); and/or (ii) introduce air into the material(s); and/or (iii) dissipate heat. This agitating action will be described in more detail in relation to Fig. 4 but, as an initial indication, the action comprises at least one of: a rotational movement of the agitation device 10 within the said material(s); a translational movement of the agitation device 10 through the said materials(s), and an oscillatory movement of the agitation device 10 within the material(s).

The stirring elements 14 may typically be formed from at least one of: metal; wood; or polymer materials, but are not limited to these materials.

Additionally, the stirring elements 14 preferably include features to increase the surface area thereof, e.g. holes, protrusions, extensions, dimples, ridges, etc. In the illustrated arrangement, the stirring elements 14 are each formed with a hole 18 which extends substantially over the length of the stirring element.

Of course, each stirring element may be provided with a different type of surface area enhancing feature to each other stirring element, and each stirring element may comprise more than one surface area enhancing feature.

Whilst in the illustrated arrangement, the stirring elements 14 are in a

"balloon whisk" configuration, other configurations could be used, e.g. a flat configuration for use in a shallow container, a small diameter for use in narrow containers, or an angled "blade" type configuration (similar to a turbine) to provide lift during rotation. Fig. 2 illustrates the agitation device 10 of Fig. 1 , but with a portion cutaway to illustrate the internal features of the body portion 12, Features common with Fig. 1 are denoted by like reference numerals and will not be described further.

A motion element 20 and power source 22 comprise internal components located within said body portion 12, and the agitation device 10 further comprises a removable cover 24 forming part of the body portion 12, and arranged for removal to allow access to the motion element 20 and power source 22. The removable cover 24 may comprise a screw cap, push cap or clip.

The motion element 20 in this arrangement comprises an off-centred motor which serves to produce vibrations of the agitation device 10 by causing the agitation device to be constantly off-balance.

In an alternative arrangement, the motion element 20 and power source 22 may be permanently embedded in the body portion 12.

Fig. 3 illustrates a cut-away view of the agitation device 10. Again, features common with those already described in relation to Figs. 1 and 2 are denoted by like reference numerals and will not be described further.

A coupling element 26 is provided between power source 22 and motion element 20 and serves to transfer power between said power source 22 and motion element 20.

The power source 22 comprises an energy storage device and may comprise at least one of: a battery (rechargeable or otherwise); a mechanical energy storage device (such as a flywheel); or a fuel cell. Of course, the power source 22 is not limited to the above devices and any other form of storable energy would be suitable. In the case of the power source 22 being of an electrical nature, the coupling element 26 comprises an electrical contact between power source 22 and motion element 24. Where the power source 22 is of a mechanical nature, the coupling element 26 comprises a suitable drive mechanism for transferring energy from the power source 22 to the motion element 24.

Fig. 4 illustrates the agitation device 10 according to the present invention when in operation. Features common with those already described in relation to Figs. 1 to 3 are denoted by like reference numerals and will not be described further.

Upon operation of the user interface 16 by a user to activate the agitation device 10, the motion element (not shown in Fig. 4) is activated to produce vibrations which serve to cause movement of the entire agitation device

10. Such movement can be one, or a combination of, a rotational movement (as indicated by arrows A) and a translational movement (as indicated by arrows B).

As will be appreciated, when the agitation device 10 is located in a receptacle, for example, a saucepan, with the stirring elements 14 thereof extending into material(s) to be agitated, such movement serves to agitate the material(s) and cause stirring and/or mixing thereof.

The stirring elements 14 may be at least partly formed from resilient and/or deformable material(s) which serve to transfer vibrations from the body portion 12 (caused by the motion element 20) to the tips of the stirring elements 14. These vibrations of the tips of the stirring elements 14 cause them to move relative to the surface of the container in which the stirring device 10 is located.

The vibrations produced by the motion element may vary in frequency and the frequency is, preferably, selectable by a user via the user interface 16. In the present embodiment, the frequency of vibrations ranges from infrasonic, through acoustic, to ultrasonic.

The motion element can comprise a single element, but could also comprise a number of elements.

Whilst the agitation device has been described above as a single-piece device, in an alternative arrangement, it may comprise a separate body portion and stirring elements such that the two items can be detached from one another. In such an alternative arrangement, the stirring elements may move as one with the body portion, or may also move relative to the body portion.

The single piece device is advantageous in that it allows the device to be stood or inserted entirely into material(s) to be agitated without the risk of liquid ingress.

Further, and as described above, the body portion of the agitation device houses the motion element. However, in an alternative arrangement, the motion element may be located in the stirring elements or in a detachable separate unit.

Also, the power source and user interface may be located in the stirring elements or in a detachable separate unit. Further, the user interface may be remotely activated. In any case, the user interface is preferably waterproof, either by including a seal around the user interface, or by embedding the user interface under a sealed surface (preferably flexible).

Preferably, the body portion and/or stirring elements are formed from shock absorbing material(s). Alternatively, these features may be formed from shock neutral or shock enhancing material(s).

In a convenient arrangement, the body portion is designed to fit into the hand of a user to allow manual control of the stirrer. However, the body portion could also be shaped to allow attachment to a further device including, but not limited to, a mechanical mixer.

The above described arrangements include an off-centred motor to create vibrations of the agitation device. Other arrangements for creating such vibrations may include, but are not limited to: piezoelectric devices; solenoid driven devices; rotary cams; rotary ratchets; and linear ratchets.

It should be understood that the motion element is not limited to an electric type, but may include any suitable motion device, e.g. manually driven devices.

An agitating action of the agitation device of the present invention can include mixing and/or stirring actions.

Claims

1. An agitation device comprising a body portion and at least one stirring element extending from said body portion and for insertion into material in a receptacle which is to be agitated, wherein the body portion comprises a housing having located therein a motion element powered by way of a power source, and arranged to impart a vibrating action to the device and thus to the at least one stirring element, said vibrating action arranged to effect movement of the agitation device relative to the said material, and wherein said at least one stirring element extends from said body portion such that, in normal operation, the at least one stirring element extends downwardly from the body portion and serves to support the device on a surface of the said receptacle.

2. A device according to Claim 1 , wherein the at least one stirring element is integral with the body portion.

3. A device according to Claim 1 or 2, wherein said motion element comprises at least one of; an off-centre motor; a piezoelectric driver; a solenoid-driven device; a rotary cam; a rotary ratchet; and a linear ratchet.

4. A device according to any one or more of the preceding claims, wherein a frequency of vibration of the motion element may range from infrasonic, through acoustic, to ultrasonic.

5. A device according to any one or more of the preceding claims, wherein said at least one stirring element may comprise at least one prong.

6. A device according to Claim 5, wherein the at least one prong may comprise surface area enhancing features.

7. A device according to Claim 6, wherein said surface area enhancing features comprise at least one of: holes; protrusions; extensions; dimples; ridges.

8. A device according to any one or more of the preceding claims, wherein said at least one stirring element is at least partly formed of a deformable material,

9. A device according to any one or more of the preceding claims, wherein the at least one stirring element is at least partly formed of a resilient material.

10. A device according to any one or more of the preceding claims, wherein the at least one stirring element may be resiliently mounted to the body portion.

11. A device according to any one or more of the preceding claims, wherein said device comprises a plurality of stirring elements which are equally spaced from one another.

12. A device according to Claim 11 , wherein said plurality of stirring elements are in a balloon-type whisk configuration.

13.A device according to any one or more of the preceding claims, wherein a power source of the agitation device comprises at least one of: an electrical power source; a mechanical energy source; and a fuel cell.

14. A device according to Claim 13, wherein said electrical power source comprises a rechargeable battery.

15. A device according to any one or more of the preceding claims, wherein said body portion is shaped so as to be conveniently gripped by a user.

i;

16. A device according to any one or more of the preceding claims, further comprising a user interface to enable a user to control operation of the motion element.

17. A device according to Claim 16, wherein said user interface comprises a switch including an on/off function.

18. A device according to Claim 16 or 17, wherein the user interface comprises a variable controller for allowing setting of at least one of: a frequency of vibration of said motion element; a period of operation of said motion element; intermittent operation of said motion element; a charging program for said power source; at least one heating and/or cooling operation mode and/or temperature of said agitation device.

19. A device according to any one or more of Claims 16 to 18, wherein said user interface is located on said housing of said body portion.

20. A device according to any one or more of Claims 16 to 18, wherein said user interface is located within said agitation device.

21. A device according to any one or more of Claims 16 to 18, wherein said user interface is located on a stirring element of said agitation device.

22.A device according to any one or more of Claims 16 to 21 , wherein said user interface is arranged for remote operation.

23. A device according to any one or more of the preceding claims, further comprising a programmable control element to allow for setting of different operation modes.

24. A device according to any one or more of the preceding claims, wherein said movement of the stirring device comprises at least one of: oscillatory movement; rotational movement; and translational movement.

25.A device according to any one or more of the preceding claims, further comprising heating and/or cooling elements arranged to heat and/or cool said stirring elements.