Hydrostatic bladder-type storage means

US 4,367,786 A
Filed: 11/24/1980
Issued: 01/11/1983
Est. Priority Date: 11/23/1979
Status: Expired due to Term

First Claim

Patent Images

1. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, a granular substance is finely distributed in the synthetic resinous material of the porous elastic body, and in that the granular substance is adapted to incur a phase transformation at a relatively low melting temperature of about 40°

-70°

C. such that the substance melts during a compression of the bladder means to absorb heat and resolidifies during an expansion of the bladder means to emit heat.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A hydrostatic bladder-type storage means for storing mechanical energy by a compressible media in a pressure bottle. An interior of the pressure bottle contains an elastically resilient bladder accommodating the medium. The pressurized medium is introduced into the bladder from one side of the bottle, with the bladder being surrounded by hydraulic oil which is adapted to be forced into and removed from a cavity located between the bottle and the bladder. A porous elastic body of foamed synthetic resinous material is provided in the bladder with the medium filling pores of the foam body. The foam body is intimately joined to the wall of the bladder and has a specific thermal capacity which is greater than the thermal capacity of the medium.

112 Citations

12 Claims

1. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, a granular substance is finely distributed in the synthetic resinous material of the porous elastic body, and in that the granular substance is adapted to incur a phase transformation at a relatively low melting temperature of about 40°
- -70°
  
  C. such that the substance melts during a compression of the bladder means to absorb heat and resolidifies during an expansion of the bladder means to emit heat.
- View Dependent Claims (12)
- - 12. A hydrostatic bladder-type storage means according to one of claims 1, 2, 5, 6, 7, 8 or 9, characterized in that the synthetic resinous material after a polymerization forms a foam body having a pore size of about 1 mm in diameter.

2. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereot, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, a granulated substance is finely distributed in the synthetic resinous material of the porous elastic body, the substance is adapted to incur a crystalline transformation at a relatively low crystal transformation temperature of about 40°
- -70°
  
  C. such that due to the crystal transformation, the substance absorbs heat during compression of the bladder means and reassumes the initial condition during an expansion of the bladder means so as to emit heat.
- View Dependent Claims (3, 4)
- - 3. A hydrostatic bladder-type storage means according to claim 2, characterized in that the compressible medium is adapted to change physical condition at a temperature ambient during compression of the bladder means so as to pass from a gaseous phase into a liquid phase during a compression of the bladder means and reassume the gaseous phase during an expansion of the bladder means, with changes in the physical condition of the compressible medium being executed in an approximately isobaric manner.
  - 4. A hydrostatic bladder-type storage means according to claim 2, characterized in that the compressible medium is adapted to change physical conditions at temperatures ambient during a compression of the bladder means and pass over from a gaseous phase into a solid phase and, during an expansion of the bladder means, to pass over from a solid phase into the gaseous phase, with the changes in physical conditions executed in an approximately isobaric manner.

5. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, the synthetic resinous material is filled into the bladder means in a flowable or pourable condition and subsequently foamed so as to form the porous elastic body, and in that a gas or gaseous mixture produced during a foaming of the synthetic resinous material is adapted to change physical characteristics at temperatures ambient during a compression of the bladder means so as to pass from a gaseous phase to a liquid phase, and, during an expansion of the bladder means, to reassume the gaseous phase, with changes in the physical conditions being executed in an approximately isobaric manner.

6. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, the synthetic resinous material is filled into the bladder means in a flowable or pourable condition and subsequently foamed so as to form porous elastic body and in that a gas or gas mixture produced during a foaming of the synthetic resinous material is adapted to change physical condition at temperatures ambient during a compression of the bladder means so as to pass from a gaseous phase into a solid phase and, during an expansion of the bladder means, to pass over again from the solid phase into the gaseous phase, with the changes in physical condition being executed in an approximately isobaric manner.

7. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, the synthetic resinous material is filled into the bladder means in a flowable or pourable condition and subsequently foamed so as to form the porous elastic body, and in that a gas produced during a foaming of the synthetic resinous material is replaced by a medium which is adapted to change physical conditions at temperatures ambient during a compression of the bladder means so as to pass over from a gaseous phase into a liquid phase and, during an expansion of the bladder means, to reassume the gaseous phase, with the changes in physical conditions being executed in an approximately isobaric manner.

8. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, the synthetic resinous material is filled into the bladder means in a flowable or pourable condition and subsequently foams so as to form the porous elastic body, and in that a gas produced during a foaming of the synthetic resinous material is replaced by a medium adapted to change physical conditions at temperatures ambient during a compression of the bladder means so as to pass over from a gaseous phase into a solid phase and, during an expansion of the bladder means to pass over again from a solid phase to the gaseous phase, with changes in physical condition being executed in an approximately isobaric manner.

9. A hydrostatic bladder-type storage means for storing mechanical energy, the storage means comprising a pressure bottle means, an elastically resilient bladder means disposed in an interior of the pressure bottle means for accommodating a compressible medium, means provided on a first side of the pressure bottle means for enabling an introduction of the compressible medium into the bladder means, and means provided on a second end of the pressure bottle means for enabling a hydraulic fluid to be forced into and removed from the space in the pressure bottle means located between an interior wall of the pressure bottle means and the bladder means, characterized in that a porous elastic body of a foam synthetic resinous material is disposed in the bladder means and intimately joined thereto, the compressible medium fills the pores in the porous elastic body, the material in the porous elastic body has a specific thermal capacity which is higher than a thermal capacity of the compressible medium, and in that means are provided for maintaining the pressure bottle means at a predetermined temperature level.
- View Dependent Claims (10, 11)
- - 10. A hydrostatic bladder-type storage means according to claim 9, characterized in that said maintaining means includes a cavity surrounding the pressure bottle means, the cavity adapted to be traversed by a flowing medium of a uniform temperature.
  - 11. A hydrostatic bladder-type storage means according to claim 10, disposed in a motor vehicle, characterized in that means are provided for connecting the cavity with a cooling water circulatory system of the motor vehicle.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Daimler-Benz AG (Mercedes-Benz Group AG)
Original Assignee
Daimler-Benz AG (Mercedes-Benz Group AG)
Inventors
Hafner, Gunther, Haepp, Hans-Josef
Primary Examiner(s)
Richter, Sheldon J.

Application Number

US06/209,417
Time in Patent Office

778 Days
Field of Search

165/DIG. 10, 165/DIG. 41, 165/104.11 A, 165/10, 165/10 A, 165/DIG. 8, 165/46, 165/41, 138/30
US Class Current

165/10
CPC Class Codes

F15B 1/086   the gas cushion being entir...

F15B 2201/205   using gas

F15B 2201/3152   the flexible separating mea...

F15B 2201/3154   the flexible separating mea...

F15B 2201/32   having multiple separating ...

F15B 2201/4056   characterised by the attach...

F15B 2201/41   Liquid ports

F15B 2201/415   Gas ports

Y02E 60/16   Mechanical energy storage, ...

Y10S 165/902   Heat storage

Hydrostatic bladder-type storage means

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

112 Citations

12 Claims

Specification

Solutions

Use Cases

Quick Links

Hydrostatic bladder-type storage means

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

112 Citations

12 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links