Respirator

Abstract

A rescue type breathing apparatus which includes a hood and a face mask incorporated inside the hood. During a first phase of the inhalation cycle a breathing gas is supplied to the face mask from the gas container through a bladder. After the bladder has been emptied breathing gas in a second phase of the inhalation cycle is supplied from the hood and the gas container.

Description

Claims

1. A rescue type breathing apparatus comprising:

a hood adapted to enclose a user's head and neck, said hood being at least substantially made of a flexible material and including an elastic neck seal means for allowing gas from the inside of said hood to escape to the outside when the pressure in said hood exceeds the ambient gas pressure and substantially preventing leakage of the ambient gas into said hood when the ambient gas pressure exceeds the pressure in said hood;

a face mask mounted inside said hood, said face mask including gas communication means for allowing passage of breathing gas between said hood and said face mask;

gas supply means connected to said face mask for supplying breathing gas to said face mask;

controlling means responsive to changes in gas pressure in said face mask during the inhalation and exhalation phase of a respiratory cycle of the user for allowing the flow of said breathing gas from said gas supply means to said mask during at least the first part of the inhalation phase in response to a first inhalation demand by the user;

said gas communication means including first and second regulating means responsive to changes in gas pressure in said face mask;

said first regulating means allowing passage of gas including said breathing gas from said face mask into said hood in response to exhalation and said second regulating means allowing passage of gas including said breathing gas from said hood into said face mask during the second part of said inhalation phase in response to subsequent inhalation demand by the user.

2. A rescue type breathing apparatus according to claim 1, wherein said controlling means comprises a first valve means located between said gas supply means and said face mask for admitting said breathing gas from said gas supply means to said face mask, said first valve means being actuated during the first part of the inhalation phase of the respiratory cycle of the user.

3. An apparatus according to claim 2, wherein said first regulating means comprises a second valve means actuated to its open position during the exhalation phase for admitting gas including said breathing gas from said face mask to said hood.

4. An apparatus according to claim 3, wherein said second regulating means comprises third valve means actuated to its open position during the second part of the inhalation phase for admitting gas including said breathing gas from said hood to said face mask.

5. An apparatus according to claim 4, wherein when said second valve means opens, during the exhalation phase, said first and third valve means remain closed.

6. An apparatus according to claim 5, further comprising fourth valve means mounted in said gas supply means upstream of said first valve means, said fourth valve means for shutting off breathing gas flow from said gas supply means through said first valve means to said mask during the second part of the inhalation phase of the user.

7. A rescue type respirator apparatus comprising:

a first, expandable, resilient hood member adapted to enclose a wearer's head, said first member including elastic neck means for sealingly engaging the hood member above the wearer's neck and allowing gas from the inside of said hood to escape to the outside when the pressure in said hood member exceeds the ambient gas pressure and substantially preventing leakage of the ambient gas into said hood member when the ambient gas pressure exceeds the pressure in said hood member, said first member forming a first chamber;

a second mask member mounted within said first chamber and configured to fit over the wearer's face, said second mask member being provided with sealing means for sealingly engaging the wearer's face, said second mask member forming a second chamber;

means for supplying breathing gas to said second chamber during the first part of the inhalation phase of the user;

means for controlling the flow of breathing gas into said second chamber;

means for permitting a flow of gas from said second chamber into said first chamber during the exhalation phase of the wearer; and

means for permitting the flow of a portion of gas including said breathing gas from said first chamber into said second chamber during the second subsequent part of the inhalation phase of the wearer.

8. An apparatus according to claim 7, wherein said means for supplying the breathing gas includes a bladder or a flexible reservoir connected to said second chamber and a breathing gas container connected with said bladder or reservoir.

9. An apparatus according to claim 8, wherein said controlling means comprises first valve means located between said supply means and said second chamber for admitting the portion of breathing gas into said second chamber during the first part of the inhalation phase.

10. An apparatus according to claim 9, wherein said permitting means includes a second and third valve means, respectively, located between said first and second chambers.

11. An apparatus according to claim 10, wherein said third valve means remains closed during the first and second part of the inhalation phase and opens during the first and second part of the inhalation phase and opens during the subsequent exhalation phase for releasing exhalation gas from said second chamber to said first chamber with said first and second valve means being closed during the exhalation phase.

12. An apparatus according to claim 11, further comprising a fourth valve means located between said supply means and said first valve means for discontinuing flow of the breathing gas from said supply means through said first valve means into said second chamber during the second part of the inhalation phase of the wearer.

13. A method of supplying a breathing gas during a respiratory cycle of a person using a rescue type respirator including a sealed hood, a face mask mounted inside the hood and a breathing gas supply in communication with the face mask, said method comprising the steps of:

supplying a first portion of gas including breathing gas from said breathing gas supply to the face mask during the first part of the inhalation phase of the person; and

supplying a second portion of gas including the breathing gas from the hood to the face mask during the second part of the inhalation phase of the person.

14. A method of supplying a breathing gas according to claim 13, further comprising the step of simultaneously supplying said breathing gas from said gas supply with said second portion of gas during the second part of the inhalation phase of the person.

15. A method of supplying a breathing gas during a respiratory cycle of a person using a rescue type breathing apparatus, including a sealed hood adapted to be applied over the person's head, a face mask mounted in the hood, a bladder or flexible reservoir connected with the face mask, a first gas flow controlling means located between said bladder or reservoir and said face mask and a second gas flow controlling means located between the hood and the face mask, said method including the steps of:

supplying a breathing gas during a first part of the inhalation phase of the person, said step of supplying including providing a gas container connected to the bladder or flexible reservoir;

delivering the gas from the gas container to the bladder or flexible reservoir;

actuating the first gas flow controlling means during first part of the inhalation phase to admit the gas into the face mask from the bladder or reservoir at which time the bladder is empty;

supplying breathing gas during a second part of the inhalation phase of the person by actuating the second gas flow controlling means for supplying gas from the hood into the face mask while simultaneously continuing a supply of the breathing gas from the gas container by continuing actuation of the first gas flow controlling means.

16. A method according to claim 15, wherein said first gas flow controlling means includes a first valve means actuable to open during the first part of said inhalation phase of the respiratory cycle of the person.

17. A method according to claim 16, wherein said second gas flow controlling means includes a second and third valve means, said third valve means being open and said second valve means being closed during the second part of said inhalation phase of the respiratory cycle of the person.

18. A method according to claim 17, further comprising, during the exhalation phase of the respiratory cycle, the step of actuating said second valve means of said second gas flow controlling means to open for releasing gas from said face mask to said hood during the exhalation phase, said first valve means of said first gas flow controlling means and said third valve means of said second gas flow controlling means being closed.

19. A method according to claim 18, further including a step of providing a fourth valve means located between the bladder and the first valve means for preventing a flow of breathing gas from the bladder or reservoir and container and actuating said fourth valve means during the second part of the inhalation phase of the person.