This application is the U.S. National Phase application under 35 U.S.C. § 371 of International Application No. PCT/EP2016/066168, filed on Jul. 7, 2016, which claims the benefit of International Application No. 15175917.2 filed on Jul. 8, 2015. These applications are hereby incorporated by reference herein.
The present invention relates to a system for treating a part of a body to be treated. In particular, the present invention relates to a system for cutting hair on a part of a body to be treated. The present invention also relates to a treating device configured to be used in a system as described above and a method for treating a part of a body to be treated.
Devices for treating a part of a body, for example by cutting hair on a part of a body to be treated (such as a human or animal body), include powered hand-held devices that are placed against a part of a user's or subject's body and moved over areas where hair is to be cut, for example a trimmer. Such devices include mechanical hair cutting devices. The user of the device selects a cutting length by adjusting or selecting a guide, such as a comb or guard, which extends over a cutting blade and then selects which areas of hair to cut and which areas should not be cut by positioning and moving the device appropriately.
When cutting a user's own hair, or someone else's hair, significant skill is required to create a particular hairstyle or to provide a presentable result. In some cases a subject may desire to have a specific pattern cut into their hair (for example one or more letters, words or symbols, or even an image). Although it can be possible to use a trimmer to cut hair to create such a pattern, it requires great skill to do this with conventional devices.
It is an object of the invention to provide a system and/or method for treating a part of a body to be treated which substantially alleviates or overcomes the problems mentioned above.
According to a first aspect, there is provided a system for treating a part of a body to be treated, comprising a hand-held treating device, the treating device comprising a treating unit, wherein the treating device is configured such that a treating action of each portion of a plurality of portions of the treating unit can be selectively enabled and disabled independently of the treating action of the other portions of the treating unit; and a controller configured to receive information on a predetermined pattern to be created on the part of the body to be treated, and to selectively enable and disable the treating action of the portions of the treating unit according to the received information as the treating device is moved over the part of the body to create the predetermined pattern on the part of the body.
According to a second aspect, there is provided a method of treating a part of a body to be treated using a hand-held treating device, the treating device comprising a treating unit, wherein the treating device is configured such that a treating action of each portion of a plurality of portions of the treating unit can be selectively enabled and disabled independently of the treating action of the other portions of the treating unit, the method in a controller of the treating device comprising receiving information on a predetermined pattern to be created on the part of the body to be treated by the treating device; and selectively enabling and disabling the treating action of portions of the treating unit according to the received information as the treating device is moved over the part of the body to create the predetermined pattern on the part of the body.
According to a third aspect, there is provided a computer program product comprising a computer readable medium having computer readable code embodied therein, the computer readable code being configured such that, on execution by a controller of a hand-held treating device that comprises a treating unit and the treating device being configured such that a treating action of each portion of a plurality of portions of the treating unit can be selectively enabled and disabled independently of the treating action of the other portions of the treating unit, the controller is caused to perform the method described above.
Thus, the system and method described above provide for predetermined patterns to be created on a part of a body to be treated more easily than conventional systems and methods.
Embodiments of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:
As described above, it may be desirable to create a particular pattern (e.g. one or more letters, words or symbols or an image) on a part of a body to be treated. For example a subject may want a name or brand to be cut into their hair so that it is visible to others. Conventional trimmers cut hair using a cutting unit that cuts hair to a consistent length across the full width of the cutting unit as the cutting unit is moved across the head. This makes creating fine details in a haircut quite difficult and time consuming. The invention provides a system and method that allows a predetermined pattern to be created in hair more easily than conventional systems.
The treating device 20 includes a treating unit 30 that performs a treating action on the part of the body to be treated. In some embodiments the part of the body is hair (on the user's head, face, chest, legs, etc.), the treating unit 30 is a cutting unit and the treating action is cutting the hair.
The system 10 also includes a controller 40 that is configured control the operation of the treating device 20 and/or the treating unit 30 in accordance with the invention. In some embodiments the controller 40 is part of the treating device 20, but in other embodiments the controller 40 is separate from the treating device 20. In the embodiments where the controller 40 is separate from the treating device 20, the treating device 20 may comprise a respective controller or other circuitry that can be configured to receive control signals and/or other information from the controller 40 and to control the operation of the treating unit 30 in response to those signals and/or other information.
The controller 40 is configured to receive information relating to a predetermined pattern that is to be created on the part of the body during use of the treating device 20, and then to control the treating device 20 or treating unit 30 according to the received information as the treating device 20 is moved over the part of the body to be treated in order to create the predetermined pattern.
In particular, the invention provides that rather than merely being able to treat the part of the body across the full width of the treating unit 30 as in conventional treating devices, the treating device 20 according to the invention is configured such that the treating action of portions of the treating unit 30 can be selectively enabled and disabled as the treating device 20 is moved to provide a two-state (i.e. binary)/two-tone treating action (e.g. treating and not treating). The treating action of each portion can be controlled separately (i.e. independently) of the treating action of the other portions, thus the treating action of any portion can be enabled or disabled independently of whether the other (e.g. neighbouring) portions are enabled or disabled.
Controlling the two-state treating action of the portions of the treating unit 30 as the treating device 20 moves allows the predetermined pattern to be created on the part of the body. Thus the controller 40 dynamically controls the treating action of each portion based on a position of the treating device 20 on the part of the body and/or a speed of movement of the treating device 20, or based on the time since the start of the operation of the treating device 20.
In some embodiments the treating device 20 comprises a mechanism 60 that can be controlled by the controller 40 to selectively enable and disable the treating action of each portion 52 of the treating unit 30. For example, in the preferred embodiment in which the system is for cutting hair, the mechanism 60 can comprise a plurality of deflector elements that can each be individually actuated in order to deflect hair away from a portion 52 of the cutting unit 30 and prevent that deflected hair from being cut. Put another way, actuating the deflector element disables the cutting action of that portion 52 by preventing hair from coming into contact with that portion 52 of the cutting unit 30. An exemplary mechanism 60 in accordance with this embodiment is described in more detail below with reference to
In other embodiments, portions 52 of the treating unit 30 can be individually activated and deactivated in order to enable and disable the treating action of each portion 52 of the treating unit 30. For example, in the preferred embodiment in which the system is for cutting hair, the cutting unit 30 may comprise a plurality of cutting elements (e.g. a plurality of pairs of cutting blades) aligned next each other to form the treating face 50, and individual cutting elements can be selectively activated and deactivated (i.e. switched on or off) to cut hair as required in order to create the predetermined pattern. It will be appreciated that in this example a separate mechanism 60 for selectively enabling and disabling the treating action of each portion 52 may not be required. In another example where the system is for cutting hair, a mechanism 60 may be provided that can selectively engage and disengage part of the cutting unit 30, e.g. by moving part of a cutting blade or by moving a tooth or teeth on a cutting blade away from another blade so that hair is not cut in that portion 52.
In
Thus, each column of the pattern 70 indicates the required treating action of each of the portions 52 (i.e. enabled or disabled) for that part of the pattern. Thus the series of columns in the pattern 70 indicate the treating action for each portion at each of a series of positions. An alternative way to view the information in the pattern 70 is that it represents the required enabling and disabling of the treating action as the treating device is moved over the part of the body.
The pattern 70 can be provided to the controller 40 in the form of an electronic computer file having a format similar to that shown in
In order for the controller 40 to appropriately control the enabling and disabling of the treating action of the portions 52 to create the predetermined pattern 70, the controller 40 can be configured to determine when to enable/disable each portion 52 based on the information on the pattern 70 in order to create the pattern 70 on the part of the body.
In an embodiment, the controller 40 can simply adjust the treating action of the portions 52 based on the time elapsed since the start of the use of the treating device 20. In this embodiment the controller 40 can calculate the timing of the adjustment of the treating action of each portion 52 based on a notional speed of movement across the part of the body (e.g. based on a typical speed of movement for such a treating device 20). Provided the user moves the treating device 20 across the part of the body at a constant speed close to the notional speed, the pattern 70 can be formed reasonably accurately. However, if the user moves the treating device 20 too slowly, too quickly or varies the speed during the treatment, the pattern created on the part of the body will appear distorted compared to the predetermined pattern 70.
Thus, in some, more preferred, embodiments the system 10 can further comprise a position identifier that is configured to generate information on the position of the treating device 20 relative to the part of the body. The controller 40 can use this position information to determine where the treating 20 is on the part of the body and determine, using the information on the pattern 70, which portions 52 of the treating unit 30 should have their treating action enabled and disabled at that position in order to create the relevant part of the predetermined pattern 70 on that part of the body.
For example if the position identifier indicates that the treating device 20 is at a position on the body corresponding to position ‘A’ in
In alternative embodiments, instead of determining an absolute position of the treating device 20 on the part of the body, the system 10 may adjust the treating action of the portions 52 of the treating unit 30 based on the speed at which the treating device 20 is moving across the part of the body. Thus, the system 10 can further comprise a speed identifier that is configured to generate information on the speed at which the treating device 20 is moving relative to the part of the body. The controller 40 can use the information on the pattern 70 and the speed information along with information on the current time or elapsed time since the start of the operation of the treating device 20 to determine the timing of the enabling and disabling of each of the portions 52 of the treating unit 30. For example, if the pattern 70 is to be, say, 0.1 metres long when it is created on the part of the body, and the speed identifier indicates that the treating device 20 is moving at a speed of 0.01 metres/second across the part of the body, then the controller 40 will adjust the treating action of the portions 52 according to the next column of pixels in pattern 70 every 10/21 seconds (since at that speed the pattern is created over a period of 10 seconds and there are 21 pixels in each row of the pattern 70). Thus, for example between 20/21 seconds and 30/21 seconds after the start of the operation of the treating device 20 (which corresponds to position A in
It will be appreciated that in some embodiments, the system 10 can use information on both position and speed of movement to improve the accuracy of the timing of the adjustment to the treating action of the portions 52 of the treating unit 30.
In some embodiments, the position identifier and/or speed identifier can be an imaging module, such as a camera, that is configured to obtain an image or images of the part of the body and/or the treating device 20. The images can be processed to determine the position of the treating device 20 relative to the part of the body, and, in the case of a speed identifier, a series of images can processed to determine a speed of movement of the treating device 20. Those skilled in the art will be aware of suitable techniques for processing images to identify objects such as treating devices 20 and/or parts of a body, and such techniques are not described in any detail herein.
In alternative embodiments, the position identifier and/or speed identifier can be an electromagnetic field (EMF) detector that is configured to detect changes in an electromagnetic field and to generate information indicative of the position of the treating device 20 relative to the part of the body to be treated based on a detected electromagnetic field. In this embodiment, the position identifier and/or speed identifier may include one or more sources of electromagnetic fields that are placed on the part of the body to enable the EMF detector to triangulate the position of the treating device 30. An example of a system that uses electromagnetic field detection that can be used in the system 10 according to the invention is shown in WO 2013/163999.
Other types of position identifier and/or speed identifier that could be used in the system, 10 include those based on microwave detection, laser detection, inertial measurements, ultrasound and/or ultrasonic detection. An example of a system that uses ultrasound to identify the position of a device is shown in WO 2013/096572. A simple embodiment of a position and/or speed identifier comprises a mechanical wheel that contacts the part of the body and rotates as the treating device 20 is moved, and an encoder that tracks or records the rotation of the wheel. The amount of rotation of the wheel can be converted to a measurement of the distance traversed and/or the speed of movement.
In some embodiments the position identifier/speed identifier can be part of the treating device 20, but in other embodiments the position identifier/speed identifier can be separate from the treating device 20.
Although the following embodiments of the invention described with reference to
The cutting device 120 can be a hand-held electrical hair trimming device, but it will be apparent that the cutting device 120 may have an alternative arrangement. For example, the cutting device 120 may be a hand-held electrical shaving device. In use, the cutting device 120 is moved over the skin 180 of a part of a user's body, for example their head 181, to trim hair on that part of the body.
The controller 140, camera 160 and cutting device 120 communicate with each other. In the present embodiment the controller 140 and the cutting device 120 communicate via a wireless connection, but alternative arrangements are envisaged. For example, the controller 140 and cutting device 120 may be connected by a wired connection. Wireless modules (not shown in
The base unit 150 in the present embodiment is a dedicated part of the system 110. However, it will be understood that the base unit 150 may be a device having a controller and camera, amongst other components. For example, the base unit 150 may be or comprise a mobile phone, tablet computer or laptop computer. In these examples, the base unit 150 can store and execute a suitable application for implementing the method shown in
As noted above, the information on the pattern 70 to be created can be obtained from an image obtained by a camera in the system (e.g. camera 160 or another camera not shown in
Referring to
The cutting unit 30 is configured to trim or cut hair and may comprise any suitable mechanism for cutting hair.
One form of cutting mechanism is shown in
The cutting unit 130 is driven by a driver 129. The driver 129 acts to drive the cutting unit 130 (e.g. the moveable blade 132 in particular) in a driving action. In the present embodiment, the driver 129 can be an electric motor. The driver 129 drives the moveable element relative to the stationary element in a reciprocal motion. The driver 129 is controlled by the controller 140.
Alternative cutting mechanisms are also envisaged. For example the cutting unit 130 can comprise a foil through which hairs protrude, and a moving blade moves over the foil to cut the protruding hairs.
Referring again to
In the present embodiment, the guide 125 is a comb. The guide 125 has a plurality of parallel, but spaced, comb teeth 127. The spaced comb teeth 127 allow the passage of hair therebetween so that the hair is exposed to the cutting unit 130 and cut by the cutting unit 130. A distal surface of each tooth from the main body 121 forms the guide face 126. The guide 125 can be mounted to the main body 121 or to the cutting unit 130. The guide 125 can be removably mounted to the main body 121. When the guide 125 is removed the cutting unit 130 can be cleaned. The guide 125 can be interchangeable with another guide and/or replaced in order to adjust the length of hair that is left after cutting.
As shown in
This exemplary mechanism 190 comprises a plurality of deflector elements 191 that can each be individually actuated in order to deflect hair away from a portion of the cutting unit 130 and prevent that deflected hair from being cut. In this embodiment, each portion of the cutting unit 130 corresponds to the part of the cutting unit 130 between each neighbouring pair of teeth 127 in the comb 125, and the mechanism 190 comprises a deflector element 191 for each portion. When actuated by the controller 140, a deflector element 191 is moved from a retracted position in which the deflector element 191 does not affect the cutting action of that portion of the cutting unit 130 (i.e. the deflector element 191 does not deflect hair away from that portion of the cutting unit 130) to an engaged position between the comb teeth 127 in which the deflector element 191 deflects hair away from the portion of the cutting blades 131, 132 behind the deflector element 191 (when viewed from the front of the cutting device 120). In particular, the deflector element 191 acts to push or bend hair over as the cutting device 120 is moved across the part of the body so that the hair passes below the cutting blades 131, 132 and is not cut.
In the embodiment of
As appreciated by those skilled in the art, the deflector elements 191 can be actuated and retracted using any of a number of different types of actuator. In the illustrated example, each deflector element 191 is moved between the actuated and retracted positions using an electromagnetic actuator. Thus, each deflector element 191 is connected to an arm 192 having a magnetic portion 193 and a coil 194 that surrounds the magnetic portion 193. Each coil 194 is connected to suitable control circuitry (e.g. controller 140 or other circuitry in the cutting device 120) that controls the magnitude and direction of the current supplied to the coil 194. By supplying a suitable current to the coil 194, the magnetic portion 193 and thus the arm 192 and deflector element 191 can be moved to engage or disengage the deflector element 191 as required. The current supplied to each of the individual coils 194 is controlled during use of the cutting device 120 in accordance with the information on the pattern 70 in order to create the pattern 70 on the part of the body. Such an arrangement allows the cutting action of the cutting unit 130 to be adjusted quickly during use of the cutting device 120, for example the cutting action can be changed at a rate of 5-10 Hz.
Those skilled in the art will appreciate that many different types of mechanical system can be used to transfer the movement caused by the electromagnetic actuation to the deflector element 191 so as to engage and disengage the deflector element 191. For example the mechanical system can comprise any suitable arrangement of arms, levers, springs, pistons and/or pulleys.
Other suitable types of actuator include electrostatic actuators, actuators that comprise piezoelectric materials, or hydraulic or pneumatic actuators (e.g. pistons).
It will be appreciated that the components and features of the system 110 shown in
Thus, there is provided a system and/or method for treating a part of a body to be treated which allows a specific pattern to be created on the part of the body.
Variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed invention, from a study of the drawings, the disclosure and the appended claims. In the claims, the word “comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality. A single processor or other unit may fulfil the functions of several items recited in the claims. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage. A computer program may be stored/distributed on a suitable medium, such as an optical storage medium or a solid-state medium supplied together with or as part of other hardware, but may also be distributed in other forms, such as via the Internet or other wired or wireless telecommunication systems.
Any reference signs in the claims should not be construed as limiting the scope.
Number | Date | Country | Kind |
---|---|---|---|
15175917 | Jul 2015 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2016/066168 | 7/7/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/005868 | 1/12/2017 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3413985 | Dlouhy | Dec 1968 | A |
3638665 | Staffas, Sr. | Feb 1972 | A |
4165512 | Peterson | Aug 1979 | A |
4602542 | Natrasevschi | Jul 1986 | A |
4918909 | Salkeld | Apr 1990 | A |
4972584 | Baumann | Nov 1990 | A |
5970304 | Stemmle | Oct 1999 | A |
6149124 | Yang | Nov 2000 | A |
6973931 | King | Dec 2005 | B1 |
7479137 | Yamazaki | Jan 2009 | B2 |
8196781 | Greenwald | Jun 2012 | B2 |
20040250428 | Melton | Dec 2004 | A1 |
20060253176 | Caruso | Nov 2006 | A1 |
20070204469 | Caric | Sep 2007 | A1 |
20070214653 | Worgull | Sep 2007 | A1 |
20080184565 | Zoot | Aug 2008 | A1 |
20090188117 | Putzer | Jul 2009 | A1 |
20130199346 | Psimadas | Aug 2013 | A1 |
20140102271 | Krenik | Apr 2014 | A1 |
20140137883 | Rothschild | May 2014 | A1 |
20150164589 | Moeskops | Jun 2015 | A1 |
Number | Date | Country |
---|---|---|
103802143 | May 2014 | CN |
2462812 | Feb 2010 | GB |
2004033164 | Apr 2004 | WO |
2013096572 | Jun 2013 | WO |
2013163999 | Nov 2013 | WO |
2015067484 | May 2015 | WO |
Number | Date | Country | |
---|---|---|---|
20180194023 A1 | Jul 2018 | US |