Stationary cutting blade for a hair clipping device

US 10,252,429 B2
Filed: 05/19/2014
Issued: 04/09/2019
Est. Priority Date: 05/30/2013
Status: Active Grant

First Claim

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1. A stationary cutting blade for a hair clipping device, comprising:

a base body defining a body longitudinal axis and a transverse axis perpendicular to the body longitudinal axis; and

a plurality of spaced apart cutting teeth arranged on a front side of the base body, wherein each of the cutting teeth has at least one cutting edge and defines a tooth longitudinal axis which is parallel to the body longitudinal axis;

wherein the stationary cutting blade is a metal cutting blade and the base body has a first thickness, said first thickness being measured between a top side and a bottom side of the base body along the transverse axis, wherein the cutting teeth have a second thickness measured parallel to the transverse axis, wherein a thickness ratio between the first thickness and the second thickness is larger than 1.1,wherein each of the cutting teeth has a substantially wedge-shaped cross-section with a top face, a bottom face and two opposing lateral faces running in between the top and the bottom face, each of the two opposing lateral faces having a first sharp bend between an upper section and an intermediate section which is inclined with respect to the upper section, and a second sharp bend between the intermediate section and a lower section which is inclined with respect to the intermediate section,wherein the at least one cutting edge is defined at an intersection between the top face and the upper section of one of the two opposing lateral faces and has a scissor angle and a wedge angle, the scissor angle being defined between the at least one cutting edge and the tooth longitudinal axis, and the wedge angle being defined between said upper section of the one of the lateral faces and the top face, andwherein a sum of the scissor angle and the wedge angle is smaller than 70°

.

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Abstract

A stationary cutting blade for a hair clipping device has a base body and a coined cutting teeth. The coined cutting teeth are spaced apart from each other, arranged on a front side of the base body, and each extend parallel to a longitudinal axis of the stationary cutting blade. A thickness ratio between the thickness of the base body and the thickness of the cutting teeth is larger than 1.1. Each cutting tooth has a substantially wedge-shaped cross-section with a scissor angle and a wedge angle, where the sum of the scissor angle and the wedge angle is smaller than 70°.

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15 Claims

1. A stationary cutting blade for a hair clipping device, comprising:
- a base body defining a body longitudinal axis and a transverse axis perpendicular to the body longitudinal axis; and
  
  a plurality of spaced apart cutting teeth arranged on a front side of the base body, wherein each of the cutting teeth has at least one cutting edge and defines a tooth longitudinal axis which is parallel to the body longitudinal axis;
  
  wherein the stationary cutting blade is a metal cutting blade and the base body has a first thickness, said first thickness being measured between a top side and a bottom side of the base body along the transverse axis, wherein the cutting teeth have a second thickness measured parallel to the transverse axis, wherein a thickness ratio between the first thickness and the second thickness is larger than 1.1,wherein each of the cutting teeth has a substantially wedge-shaped cross-section with a top face, a bottom face and two opposing lateral faces running in between the top and the bottom face, each of the two opposing lateral faces having a first sharp bend between an upper section and an intermediate section which is inclined with respect to the upper section, and a second sharp bend between the intermediate section and a lower section which is inclined with respect to the intermediate section,wherein the at least one cutting edge is defined at an intersection between the top face and the upper section of one of the two opposing lateral faces and has a scissor angle and a wedge angle, the scissor angle being defined between the at least one cutting edge and the tooth longitudinal axis, and the wedge angle being defined between said upper section of the one of the lateral faces and the top face, andwherein a sum of the scissor angle and the wedge angle is smaller than 70°
  
  .
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The stationary cutting blade according to claim 1, wherein the scissor angle is smaller than 25°
    - .
  - 3. The stationary cutting blade according to claim 1, wherein the wedge angle is smaller than 55°
    - .
  - 4. The stationary cutting blade according to claim 1, wherein the scissor angle is between 5°
    - and 25°
      
      .
  - 5. The stationary cutting blade according to claim 1, wherein the wedge angle is between 40°
    - and 55°
      
      .
  - 6. The stationary cutting blade according to claim 1, wherein the first thickness is larger than 1.3 mm.
  - 7. The stationary cutting blade according to claim 1, wherein the at least one cutting edge is exactly two cutting edges and wherein each of the two cutting edges is substantially straight.
  - 8. The stationary cutting blade according to claim 1, wherein each of the plurality of cutting teeth is symmetrical, wherein a distance between a portion of two of the upper sections of the two opposing lateral faces of the each of the cutting teeth near the top face is larger than a distance between two of the lower sections of the two opposing lateral faces near the bottom face.
  - 9. The stationary cutting blade according to claim 8, wherein an angle between the bottom face and each of the two lower sections of the two opposing lateral faces is larger than the wedge angle .
  - 10. A cutting assembly for a hair clipping device, comprising:
    - a stationary cutting blade according to claim 1; and
      
      a moveable cutting blade that is resiliently biased against the stationary cutting blade by a spring.

11. A hair clipping device comprising a cutting assembly having stationary cutting blade and a moveable cutting blade, and an actuator for moving the moveable cutting blade relative to the stationary cutting blade in a reciprocal manner, where the stationary cutting blade comprises:
- a base body defining a body longitudinal axis and a transverse axis perpendicular to the body longitudinal axis; and
  
  a plurality of spaced apart cutting teeth with arranged on a front side of the base body, wherein each tooth of the cutting teeth has at least one cutting edge and defines a tooth longitudinal axis, and extends along the tooth longitudinal axis which is parallel to the body longitudinal axis of the stationary cutting blade;
  
  wherein the stationary cutting blade is a metal cutting blade and the base body has a first thickness, said first thickness being measured between a top side and a bottom side of the base body along the transverse axis, wherein the cutting teeth have a second thickness measured parallel to the transverse axis, wherein a thickness ratio between the first thickness and the second thickness is larger than 1.1,wherein each of the cutting teeth has a substantially wedge-shaped cross-section with a top face, a bottom face and two opposing lateral faces running in between the top and the bottom face, each of the two opposing lateral faces having a first sharp bend between an upper section and an intermediate section which is inclined with respect to the upper section, and a second sharp bend between the intermediate section and a lower section which is inclined with respect to the intermediate section,wherein the at least one cutting edge is defined at an intersection between the top face and the upper section of one of the two opposing lateral faces and has a scissor angle and a wedge angle, the scissor angle being defined between the at least one cutting edge and the tooth longitudinal axis, and the wedge angle being defined between said upper section of the one of the lateral faces and the top face, andwherein a sum of the scissor angle and the wedge angle is smaller than 70°
  
  .

12. A process for manufacturing a stationary cutting blade or a hair clipping device, comprising acts of:
- providing a piece of metal having a first thickness that serves as raw material;
  
  creating a tapered shape into the piece of metal in order to create a rough shape of a tip of the stationary cutting blade;
  
  stamping a preliminary teeth geometry into the tip to create a plurality of spaced-apart cutting teeth having a second thickness measured in parallel to the first thickness, such that a thickness ratio between the first and the second thickness is larger than 1.1; and
  
  coining a final teeth geometry by means of a coining die to provide each tooth of the plurality of spaced-apart cutting teeth with a substantially wedge-shaped cross-section, a top face, a bottom face and two opposing lateral faces running in between the top and the bottom face and having inclined sections, and to simultaneously form a cutting edge at the intersection between the top face and one of an upper section of one of the lateral faces, wherein at the cutting edge a scissor angle is created, which is defined between the cutting edge and a longitudinal axis of the stationary cutting blade, and a wedge angle is created, which is defined between said upper section of the one of the lateral faces and the top face;
  
  wherein the inclined sections of the two opposing lateral faces include a first sharp bend between the upper section and an intermediate section which is inclined with respect to the upper section, and a second sharp bend between the intermediate section and a lower section which is inclined with respect to the intermediate section, andwherein a sum of the scissor angle and the wedge angle is smaller than 70°
  
  .
- View Dependent Claims (13, 14, 15)
- - 13. The manufacturing process according to claim 12, wherein, before the coining act, the process further comprisesan act of stamping into said piece of metal at a position where the tip of the stationary cutting blade is to be created.
  - 14. The manufacturing process according to claim 12, wherein during the coining act a scissor angle of between 5°
    - and 25°
      
      is formed.
  - 15. The manufacturing process according to claim 12, wherein during the coining act a wedge angle between 40°
    - and 55°
      
      is formed.

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Current Assignee
Koninklijke Philips N.V.
Original Assignee
Koninklijke Philips N.V.
Inventors
Sablatschan, Siegfried, Rethmeier, Roel Alexander, Maat, Willem
Primary Examiner(s)
Prone, Jason Daniel

Application Number

US14/893,206
Publication Number

US 20160101530A1
Time in Patent Office

1,786 Days
Field of Search

30 4391, 30 4392, 30194-225
US Class Current
CPC Class Codes

B26B 19/3846 Blades; Cutters B26B19/044,...

B26B 19/3893 Manufacturing of shavers or...

Stationary cutting blade for a hair clipping device

First Claim

1 Assignment

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Abstract

54 Citations

15 Claims

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Stationary cutting blade for a hair clipping device

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

54 Citations

15 Claims

Specification

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Solutions

Use Cases

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