This application is a national stage application of the International Application PCT/EP2019/079740, filed on 30 Oct. 2019, now published as WO/2020/089340, and which claims benefit from the European Patent Application EP 18203762.2, filed on 31 Oct. 2018, their content being incorporated herein by reference.
The disclosure concerns a suspension device and a razor having a suspension device, the suspension device allowing the razor to relieve excess pressure applied on a user's skin, and thus offer a smoother and safer shaving experience.
During shaving, the pressure applied to the handle by the user is transferred to the blade assembly and onto the skin. Excess blade pressure applied on the skin increases the risk of nicks and cuts during a shaving operation. To address this issue, most of the advanced razors presently on the market have pivoting mechanisms that allow the blade assembly to follow the contours of the skin and compensate for the excess applied pressure on the skin. Additionally, razors that include devices that urge the blade assembly into a rest position, which also helps control the pressure applied on the skin, have been introduced into the market as well.
For example, EP 2 227 360 discloses a blade unit is mounted to a handle, the blade unit is adapted to move relative to the handle about a first pivot axis and a second pivot axis which allows the blade unit to follow the contours of the skin during shaving. The blade unit includes magnetic elements that urge the blade unit into a rest position.
For example, U.S. Pat. No. 9,751,229 B2 discloses a blade unit that includes at least one biasing magnetic element providing a pivot return force.
In another example, EP 2 691 216 discloses a blade unit that has a rotatable blade unit with a maximum rotation of from about 10° to about 30°, or more specifically about 15°.
For example, U.S. Pat. No. 9,764,487 B2 discloses a pivotable blade unit including a resistive pivot mechanism that provides a biasing force which urges the blade cartridge towards an initial starting position.
For example, US 2016/0121498 A1 discloses a magnetic handle element that is pivotable relative to the handle.
For example, U.S. Pat. No. 7,895,754 B2 discloses a razor having a blade unit pivotable relative the handle about a longitudinal axis. The blade unit can be biased to a rest position using a magnetic return force.
However, a problem still exists where the user may be unable to adequately control the pressure applied on the skin in areas where it is difficult to reach and manipulate the handle thus leading to nicks and cuts.
The above summary is not intended to describe each and every implementation of the concept. In particular, selected features of any illustrative embodiment within this disclosure may be incorporated into additional embodiments unless clearly stated to the contrary or otherwise incompatible.
In aspects, a suspension housing configured to provide a movable connection between a razor blade assembly and a razor handle is provided. The suspension housing comprises a connector being movably attached to the razor blade assembly and a suspension device. The suspension device is operably coupled to the connector and comprises one or more magnets, where the suspension device is configured to allow axial movement of the connector along a main axis and rotational movement of the connector about the main axis.
In aspects, the suspension housing may be connected to the razor handle. The razor handle may extend from a proximal end to a distal end along the main axis, where the connector may be movably attached inside the suspension housing such that it can move axially along the main axis and rotate about the main axis.
In aspects, the suspension device may comprise two or more magnets.
In aspects, a first magnet may be fixedly attached to the inside of the suspension housing. A second magnet may be fixedly attached to the movable connector.
In aspects, the magnets may be annular.
In aspects, the magnets may form a pair of correlated magnets.
In aspects, the suspension device may comprise a spring.
In aspects, the suspension device may further include connection portions that are configured to connect with a pair of legs of the connector.
In aspects, the pair of legs of the connector may be offset from the main axis to form a gap therebetween.
In aspects, the suspension device and the connector may be configured to move in concert.
In aspects, a razor is provided. The razor comprises a razor blade assembly and the aforementioned suspension housing, where the suspension housing includes a cavity having at least one stop, wherein the stop is configured to limit the movement of the connector.
In aspects, the razor may include a first rotational stop and a second rotational stop. The first and second rotational stops may be configured to limit rotational movement of the connector about the main axis.
In aspects, the first and second rotational stops may be configured to limit the rotational movement of the connector to a range of −30°≤30° relative to a rest position, where the connector may include connector stops that are configured to engage at least one housing stop.
In aspects, the razor may include an adapter that is configured to attach the blade assembly to the connector.
In aspects, the razor blade assembly and the connector may be adapted to axially translate and/or rotate along the main axis when a force is applied to the razor blade assembly exceeds a return force that the suspension device applies on the razor assembly.
According to the above aspects, a user is able to adequately control the pressure applied on the skin in areas where it is difficult to reach and manipulate the handle thus reducing the risk of nicks and cuts.
The disclosure may be more completely understood in consideration of the following detailed description of non-limiting aspects of the disclosure in connection with the accompanying drawings, in which:
As used in this disclosure and the appended claims, the singular forms “a”, “an”, and “the” include plural referents unless the content clearly dictates otherwise. As used in this disclosure and the appended claims, the term “or” is generally employed in its sense including “and/or” unless the content clearly dictates otherwise.
The following detailed description should be read with reference to the drawings. The detailed description and the drawings, which are not necessarily to scale, depict illustrative aspects and are not intended to limit the scope of the present disclosure. The illustrative aspects depicted are intended only as exemplary.
An aspect of the disclosure is shown in
The blade assembly 20 may be formed in a prism shape having, e.g., a rectangular base. In alternatives, the blade assembly 20 may have any other prism shape, for example an oval shape. The blade assembly 20 may also include a cap 21 and a pair of retainers 22 adapted to retain the position of at least one blade 30 within the blade assembly 20. The blade assembly 20 may include a plurality of blades 30, however, it is contemplated that the blade assembly 20 may have any number of blades (e.g., one, two, three, four, or more).
The handle 40 may extend along a central, main axis A-A. The handle may have a distal portion 40a and a proximal portion 40b. The handle 40 may be shaped to better adapt to the natural contours of a hand. The handle 40 and the suspension housing 70 may be connected. It is envisioned that the suspension housing 70 and the handle 40 may be a single component. However, it is also envisioned that the suspension housing 70 and the handle 40 are separate components and may be connected by any suitable means, for example a snap fitting, press fitting, or welding.
The suspension housing 70 may include a first cavity 72. The first cavity 72 may be disposed on a distal end of the suspension housing 70 and form an opening 72a at the outermost end. The first cavity 72 may be configured to house a connector 80. The suspension housing 70 may further include a second cavity 74. The second cavity 74 may communicate with the first cavity 72. The second cavity 74 may be configured to house at least a portion of the first connector 80 and the suspension device 90. The suspension housing 70 may further include a third cavity 76. The third cavity 76 may communicate with the first and second cavities 72, 74. The third cavity 76 may be configured to house at least a portion of the suspension device 90.
The connector 80 may be at least partially disposed within the first cavity 72 of the suspension housing 70 and extend distally therefrom. The connector 80 may be configured to rotate about the main axis A-A relative to the handle 40. The connector 80 may have any suitable shape that permits the connector 80 to rotate about the main axis A-A, in particular, the connector 80 may have a cylindrical shape.
One end of the connector 80 may be removably attached to the adapter 60. The connection between the connector 80 and the adapter 60 may be configured to permit the blade assembly 20, the adapter 60, and the connector 80 to rotate in concert relative to the handle 40.
The other end of the connector 80, i.e., the end opposing the connection to the blade assembly 20 and adapter 60, may be fixed to the suspension housing 70.
The suspension device 90 may include one or more magnets 90a, 90b. In this example, a first and second magnet 90a, 90b are used, however it is contemplated that any number of magnets may be used.
The first and second magnets 90a, 90b may be disposed in the second and third cavities 74, 76 of the suspension housing 70, respectively. The first and second magnets 90a, 90b may be formed to have similar poles and therefore repel each other. The first magnet 90a may be fixed to the connector 80. The second magnet 90b may be fixed within the third cavity 76 of the suspension housing 70.
The first and second cavities 72, 74 may be configured to permit the connector 80 and first magnet 90a to move along the main axis A-A, relative to the suspension housing 70 and second magnet 90b. Additionally, the first magnet 90a may be configured to rotate relative to the suspension housing 70, in particular, formed in a circular or an annular shape. The first magnet 90a may be fixed to the connector 80 such that it may rotate in concert with the connector 80, adapter 60, and blade assembly 20.
Turning to
Once the pressure on the blade assembly 20 results in a force that less than the repelling force between the first and second magnets 90a, 90b, the blade assembly 20, adapter 60, connector 80, and first magnet 90a, are urged distally until the suspension device 90 assumes the rest or first position.
The suspension housing 70 further includes the distal stop 79a and a proximal stop 79b to contain the movement of the connector 80 and first magnet 90a and to prevent the connector 80 and the first magnet 90a from being urged out of the opening 72a of the suspension housing 70. Further, the suspension device 90 may be in the rest or first position when the connector 80 is contacting the distal stop 79a and the suspension device 90 may be in the retracted or second position when the first magnet 90a is contacting the proximal stop 79b and the connector 80 is not contacting the distal stop 79a.
While
The rotational stops 78a-78d; 88a-88d are shown in
In particular,
As can be seen in
Turning to
As can been seen in
The second cavity 274 of suspension housing 270 may be configured to house at least a portion of the suspension device 290. The second cavity 274 may further include a stop 279 that is adapted to engage the suspension device 290. The stop 279 may be configured to restrain the movement of the connector 280 via the suspension device 290.
The connector 280 may be at least partially disposed within the first cavity 272 of the suspension housing 270 and extend distally therefrom. The connector 280 may be configured to rotate about the main axis A-A relative to the suspension housing 270. The connector 280 may be any suitable shape that permits the connector 280 to rotate about the main axis A-A, in particular, the connector 280 may be substantially or entirely cylindrical in shape.
The end of the connector 280 opposing the connection to the adapter 60, may be fixed to the suspension device 290. The connector 280 may be formed to have two legs 282a, 282b. The legs 282a, 282b of the connector 280 may be formed at the extremities of the suspension housing 270 within the second cavity 274. In other words, each of the legs 282a, 282b may be offset from the main axis A-A in opposite directions. The legs 282a, 282b may be configured to connect to the opposing ends of the suspension device 290 such that the suspension device 290 is held taught between the legs 282a, 282b. The suspension device 290 may include connecting portions 290a, 290b on the opposing ends of the suspension device 290. The connecting portions 290a, 290b may be configured to connect with the legs 282a, 282b of the connector 280.
The suspension device 290 may include a spring. In the example shown, a helical spring is depicted, however it is contemplated that any other type of spring may be used, for example, an elastic bar member.
The first and second cavities 272, 274 may be configured to permit the connector 280 and suspension device 290 to move along the main axis A-A, relative to the suspension housing 270. Additionally, the suspension device 290 may be configured to rotate relative to the suspension housing 270. The suspension device 290 may be attached to each leg 282a, 282b of the connector 280 via the connecting portions 290a, 290b such that it may move in concert with the connector 280, adapter 60, and blade assembly 20.
As can be seen in
Turning to
Once the pressure on the blade assembly 20 results in a force that less than the spring force of the suspension device 290, the blade assembly 20, adapter 60, and connector 280 are urged distally until the suspension device 290 assumes the rest or first position.
While
When a pressure is applied to blade assembly 20 that results in a rotational force that overcomes the spring force or return force of the suspension device 290, the connector 280 rotates within the first and second cavities 272, 274 of the suspension housing 270 and the suspension device 290 is deformed over the stop 279 formed in the second cavity 274. Additionally, the suspension device 290 remains secured to the legs 282a, 282b of the connector 280. Once in this rotated or third position, an angle α may be formed relative to the plane R-R. This is shown by a plane C-C which is defined by the main axis A-A and is orthogonal to the distal end of the connector 280. The angle α may be within a range of −30°≤α≤+30° relative to the plane R-R.
Once the pressure on the blade assembly 20 results in a force that less than the spring force or return force of the suspension device 290, the blade assembly 20, adapter 60, and connector 280 are urged to rotate until the suspension device 290 assumes the rest or first position.
While aspects of the disclosure have been described in detail in the foregoing description, the same is to be considered as illustrative and not restrictive in character, it being understood that only some aspects have been shown and described and that all changes and modifications that come within the scope of the claims are to be protected. It is intended that combinations of the above-described elements and those within the specification may be made, except where otherwise contradictory. Although aspects of the disclosure have been described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the scope of the claims. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of the disclosure.
Number | Date | Country | Kind |
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18203762 | Oct 2018 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/079740 | 10/30/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/089340 | 5/7/2020 | WO | A |
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10960561 | Kim | Mar 2021 | B2 |
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20150174775 | Hodgson | Jun 2015 | A1 |
20160121498 | Johnson | May 2016 | A1 |
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20210354322 | Kopelas | Nov 2021 | A1 |
Number | Date | Country |
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2227360 | Sep 2010 | EP |
2691216 | Feb 2014 | EP |
2711146 | Mar 2014 | EP |
3 486 048 | May 2019 | EP |
2017024156 | Feb 2017 | WO |
Entry |
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International Search Report and Written Opinion in corresponding Application No. PCT/EP2019/079740, dated Jan. 7, 2020, (12 pages). |
Number | Date | Country | |
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20210354322 A1 | Nov 2021 | US |