Actively ventilated helmet systems and methods

US 8,695,121 B2
Filed: 10/15/2009
Issued: 04/15/2014
Est. Priority Date: 10/16/2008
Status: Active Grant

First Claim

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1. A helmet system for removing condensation from a user'"'"'s field of vision, comprising:

a helmet shell having an anterior section, a posterior section, and a venting passage, wherein the helmet shell defines an internal cavity that is in fluid communication with a front portion of the venting passage, and wherein the internal cavity is configured to receive the user'"'"'s head;

a visor coupled with the helmet shell, wherein at least part of the visor defines part of the internal cavity;

a humidity sensor positioned within the internal cavity of the helmet shell; and

a ventilation system comprising;

a base coupled with the helmet shell, wherein the base has a first venting aperture in fluid communication with a rear portion of the venting passage,a base cover coupled with the base, wherein the base cover has a second venting aperture,an air movement assembly disposed between the base and the base cover, wherein the air movement assembly provides fluid communication between the first venting aperture and the second venting aperture,a switch,a power source, anda circuit card comprising;

a first input configured to receive a signal from the humidity sensor,a second input configured to receive a second signal from the switch,a first module configured to determine a first instruction for the air movement assembly based on the signal received from the humidity sensor,a second module configured to determine a second instruction for the air movement assembly based on the second signal received from the switch,a first output configured to transmit the first instruction to the air movement assembly, wherein activation of the air movement assembly based on the first instruction operates to remove condensation from the user'"'"'s field of vision by moving a volume of air of the internal cavity of the helmet shell through the venting passage and moving the volume of air through the second venting aperture of the base cover between the anterior section and the posterior section, anda second output configured to transmit the second instruction to the air movement assembly, wherein the second instruction controls whether power is delivered to the air movement assembly and controls whether the air movement assembly directs air flow from the first venting aperture toward the second venting aperture or from the second venting aperture toward the first venting aperture.

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Abstract

Helmet systems and methods reduce the formation of vapor condensation within the helmet interior, and inhibit fogging of the helmet visor. Exemplary embodiments include a helmet shell having a venting tube, a visor coupled with the helmet shell, a humidity sensor that senses humidity within the helmet interior cavity, and a ventilation system that removes moist air from the helmet interior.

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22 Claims

1. A helmet system for removing condensation from a user'"'"'s field of vision, comprising:
- a helmet shell having an anterior section, a posterior section, and a venting passage, wherein the helmet shell defines an internal cavity that is in fluid communication with a front portion of the venting passage, and wherein the internal cavity is configured to receive the user'"'"'s head;
  
  a visor coupled with the helmet shell, wherein at least part of the visor defines part of the internal cavity;
  
  a humidity sensor positioned within the internal cavity of the helmet shell; and
  
  a ventilation system comprising;
  
  a base coupled with the helmet shell, wherein the base has a first venting aperture in fluid communication with a rear portion of the venting passage,a base cover coupled with the base, wherein the base cover has a second venting aperture,an air movement assembly disposed between the base and the base cover, wherein the air movement assembly provides fluid communication between the first venting aperture and the second venting aperture,a switch,a power source, anda circuit card comprising;
  
  a first input configured to receive a signal from the humidity sensor,a second input configured to receive a second signal from the switch,a first module configured to determine a first instruction for the air movement assembly based on the signal received from the humidity sensor,a second module configured to determine a second instruction for the air movement assembly based on the second signal received from the switch,a first output configured to transmit the first instruction to the air movement assembly, wherein activation of the air movement assembly based on the first instruction operates to remove condensation from the user'"'"'s field of vision by moving a volume of air of the internal cavity of the helmet shell through the venting passage and moving the volume of air through the second venting aperture of the base cover between the anterior section and the posterior section, anda second output configured to transmit the second instruction to the air movement assembly, wherein the second instruction controls whether power is delivered to the air movement assembly and controls whether the air movement assembly directs air flow from the first venting aperture toward the second venting aperture or from the second venting aperture toward the first venting aperture.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 14, 15, 16, 17, 18, 19, 20, 21, 22)
- - 2. The helmet system according to claim 1, wherein the air movement assembly comprises one or more rotary fans.
  - 3. The helmet system according to claim 1, further comprising an exterior space sensor, wherein the circuit card has a third input configured to receive a third signal from the exterior space sensor, and the circuit card is configured to determine the instruction for the air movement assembly based on the third signal received from the exterior space sensor.
  - 4. The helmet system according to claim 3, wherein the exterior space sensor comprises a temperature sensor.
  - 5. The helmet system according to claim 1, further comprising a supplemental sensor, wherein the circuit card has a third input configured to receive a third signal from a supplemental sensor, and the circuit card is configured to determine the instruction for the air movement assembly based on the third signal received from the supplemental sensor.
  - 6. The helmet system according to claim 1, further comprising a supplemental sensor, wherein the supplemental sensor comprises a member selected from the group consisting of an accelerometer, a global positioning satellite sensor, a heart rate sensor, a temperature sensor, and a humidity sensor.
  - 7. The helmet system according to claim 1, wherein the helmet shell comprises a chin bar having a vent.
  - 14. The helmet system according to claim 1, wherein at least one of the base cover and the base are integral with the helmet shell.
  - 15. The helmet system according to claim 1, wherein the power source is coupled to a port, which is coupled to external power, which is separate from the helmet system.
  - 16. The helmet system according to claim 1, wherein the base is coupled with the posterior section.
  - 17. The helmet system according to claim 1, wherein the visor is coupled with the anterior section.
  - 18. The helmet system according to claim 1, wherein the air movement assembly pulls air from the front portion of the venting passage.
  - 19. The helmet system according to claim 1, wherein the air movement assembly pushes air toward the front portion of the venting passage.
  - 20. The helmet system according to claim 1, wherein the venting passage is routed away from a crown area of the helmet shell.
  - 21. The helmet system according to claim 1, further comprising a passive venting passage providing fluid communication between the internal cavity and an outside of the helmet system.
  - 22. The helmet system according to claim 1, wherein:
    - the air movement assembly includes a fan axis of rotation, andthe fan axis points toward the internal cavity of the helmet shell.

8. A helmet system for removing condensation from a user'"'"'s field of vision, comprising:
- a helmet shell having;
  
  an anterior section having an interior surface and an exterior surface, anda posterior section, having an exterior surface an internal cavity, configured to receive the user'"'"'s head;
  
  a visor coupled with the anterior section of the helmet shell, wherein the visor in an engaged position further defines the internal cavity;
  
  a sensor, which measures humidity within the internal cavity;
  
  a first venting aperture positioned on the exterior surface of the posterior section in fluid communication with a second venting aperture positioned on the interior surface of the anterior section via a first venting passage;
  
  a first assembly comprising;
  
  an air movement assembly configured to bias fluid communication between the first venting aperture and the second venting aperture;
  
  an input configured to receive a signal from the sensor;
  
  a module configured to determine an instruction for the air movement assembly based on the signal received from the humidity sensor; and
  
  an output configured to transmit the instruction to the air movement assembly, wherein activation of the air movement assembly based on the instruction operates to remove condensation from the user'"'"'s field of vision by moving a volume of air of the internal cavity of the helmet shell through the first venting passage;
  
  a second assembly comprising;
  
  an external passive intake aperture positioned at the exterior surface of the anterior section;
  
  a passive output aperture positioned at the exterior surface of the posterior section and in fluid communication with the external passive intake aperture via a first passive venting passage; and
  
  an internal passive intake aperture positioned at the interior surface of the anterior section in fluid communication with the first passive venting passage via a second passive venting passage, wherein the external passive intake aperture is configured to permit air to flow into the first passive venting passage to create a low pressure environment within the first venting passage that draws air out of the internal cavity through the interior passive intake aperture and out through the passive output aperture.
- View Dependent Claims (9)
- - 9. The helmet system according to claim 8, further comprising an exterior space sensor, which produces a second signal used by the module to determine the instruction.

10. A helmet module for removing condensation from a user'"'"'s field of vision in a helmet includes a visor, comprising:
- a humidity sensor input configured to couple to a humidity sensor signal detecting humidity of an internal cavity defined by a helmet shell and the visor;
  
  a base configured to be coupled with the helmet, wherein the base has a first venting aperture configured for fluid communication with a venting passage of the helmet;
  
  a base cover coupled with the base, wherein the base cover has a second venting aperture;
  
  an air movement assembly disposed between the base and the base cover, wherein the air movement assembly biases fluid communication between the first venting aperture and the second venting aperture,a power source;
  
  a switch configured to transmit a switch signal;
  
  a first module configured to determine a first instruction for the air movement assembly based on the switch signal;
  
  a second module configured to determine a second instruction for the air movement assembly based on the humidity sensor signal;
  
  a first output configured to transmit the first instruction to the air movement assembly, wherein the first instruction controls whether power is delivered to the air movement assembly and controls whether the air movement assembly directs air flow from the first venting aperture toward the second venting aperture or from the second venting aperture toward the first venting aperture; and
  
  a second output configured to transmit the second instruction to the air movement assembly, wherein activation of the air movement assembly based on the instruction operates to remove humidity from the user'"'"'s field of vision by moving a volume of air between;
  
  the internal cavity using the first venting aperture, andthe second venting aperture of the base cover.
- View Dependent Claims (11, 12, 13)
- - 11. The helmet module according to claim 10, wherein the air movement assembly comprises one or more rotary fans.
  - 12. The helmet module according to claim 10, wherein the base cover is integral with the helmet shell.
  - 13. The helmet module according to claim 10, wherein the power source is coupled to external power, which is separate from the helmet module.

Specification

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Current Assignee
HaberVision LLC
Original Assignee
HaberVision LLC
Inventors
Nolan, William H., Katsaros, Stephen B.
Primary Examiner(s)
Worrell, Danny

Application Number

US12/579,906
Publication Number

US 20100095439A1
Time in Patent Office

1,643 Days
Field of Search

241/0, 2/5, 2/7, 2/86, 242/2, 242/4, 242/5, 243/5, 243/6, 243/7, 217/13, 290/6, 2DI/G 1
US Class Current

2/171.3
CPC Class Codes

A42B 3/24 with means for avoiding fog...

A42B 3/286 with forced flow, e.g. by a...

Actively ventilated helmet systems and methods

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

55 Citations

22 Claims

Specification

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Actively ventilated helmet systems and methods

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

55 Citations

22 Claims

Specification

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Solutions

Use Cases

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