Classifications

• • A—HUMAN NECESSITIES
  • A41—WEARING APPAREL
  • A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
  • A41D13/00—Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches
  • A41D13/002—Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches with controlled internal environment
  • A41D13/005—Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches with controlled internal environment with controlled temperature
  • A41D13/0053—Cooled garments

Definitions

• the invention relates to a cooling garment for cooling a person wearing the garment, the garment having an inner and an outer side, comprising a network of tubes connected to the inner side, means for circulating a fluid from a heat absorption container through the tubes and back to the container, the circulating means, the container and the tubes being connected into at least one fluid circuit.
• Aim of the invention is to provide a cooling garment wherein the user experiences minimal disadvantage or hampering from carrying the cooling equipment.
• the container and the means for circulating the fluid are stored in a housing having detachable means for connecting the housing to the garment or to the person at a position around a waist portion of the garment resp. around the waist of the person.
• the housing undergoes the least movement with respect to the body's center of gravity. Also the waist bends much less and less frequent than the arm or legs. As a consequence the smallest forces possible are exerted on the body by the housing. It further prevents pinching off of the tubes when the housing is mounted on more mobile positions of the body. The position around the waist is also ideal for cooling of both the upper and the lower part of the body.
• Examples of garments useful in the invention are a vest, a jacket, trousers or a combination of these.
• the garment can be made of natural or artificial fiber fabric or sheet.
• a network of tubes is connected to the inner side of the garment i.e. the side facing the person wearing it.
• the garment may be a single layer or multilayer garment, e.g. comprise an outer layer and a lining.
• the tubes will be connected to the inner side, which may be the inner side of the single layer or to the inner layer of a multilayer garment.
• the tubes usually are positioned between the inner layer and an adjacent layer.
• the tubes are distributed over the inner side in a pattern covering the parts of the person's body that are to be cooled.
• the tubes have an inlet end and an outlet end.
• tubes each having an inlet end and an outlet and each forming a part of the total pattern.
• the inlet ends and the outlet ends are connected to means for circulating a fluid and a heat absorption container, the tubes, the circulating means and the container volume forming a closed fluid circuit, All tubes can be connected to the same means for circulating the fluid and the same container but is also possible to have each tube connected to its own container and its own means for circulating the fluid, thus forming independent fluid circuits.
• Inlet end and outlet end of a circuit can be connected to the container at distant positions to avoid a shortcut between the ends. This can be achieved e.g. by connecting the inlet end at or near the top side, i.e.
• the side that in use will have a higher position, and the outlet near the side opposite to the top side.
• This also has the advantage that the fluid flowing to the body comes from the coldest part of the container.
• the inlet end and the outlet end are connected to a removable lid of the container.
• a pipe connected to the outlet end connection with the lid may extend on the inside of the lid into the container, whereas the inlet end connection with the lid just opens into the container. In this way shortcut between inflow and outflow of the container is avoided and again the outlet flow is taken from the coldest part of the container contents.
• each set of circulating means and associated container can be stored in a separate housing or, alternatively more than one set may be stored in the same housing.
• the housing can be fixed to the garment but preferably housing and garment are separate, though optionally connectable, items.
• the housing or housings can be releasably attached to the garment or by separate means to the person's body all around the waist, e.g. by connecting it to a belt around the person's waist, apart from or forming part of the garment.
• the garment has Velcron pieces or strips, snap fasteners or other two component fasteners mounted around the waist portion and cooperating with complementary elements of the Velcron pieces or fasteners on the housing. Both embodiments allow choosing the position the housing at the front, at the back or at the side of, so all around, the body.
• the housing can be constructed from any, preferably water resistant, material like textile, leather, flexible or hard plastics.
• the means for circulating the fluid can be a pump or any other device that can maintain a fluid flow, like a pump.
• the means are electrical means that can be fed by a battery.
• This battery preferably is also contained in the housing. It is electrically connected to the circulation means preferably with common state of the art connectors for easy exchange of the battery.
• the heat absorption container can be of metal or plastic and preferably is thermally insulated. In the container heat is absorbed from the inflowing fluid thus lowering the temperature of the fluid before it flows out of the container back into the tubes. The fluid in the container thus has to be colder than the incoming fluid returning from the garment. To this end the container can be filled initially with ice water, preferably containing ice cubes, anti-freezing agents or other liquids cooled below 0 C. The heat absorption will take place by heat exchange between the incoming liquid and the, initially much colder, container contents. The container contents then gradually will rise in temperature until the temperature of the container contents becomes close or equal to the temperature of the incoming fluid the container contents will be replaced by fresh, cold fluid.
• a device or material that can cool the liquid in the container are Peltier elements, phase change materials or miniature refrigerator cooling devices.
• the battery already present in the system may supply the electrical power required for operating such devices. This avoids the need to refresh the fluid with cold fluid frequently and at least considerably extends the time before exchange is needed.
• the housing is divided into a first and a second compartment, the first compartment containing the container and the second compartment containing the means for circulating the fluid and the battery.
• This construction has the advantage that the electrical part of the equipment is separated as much as possible from the wet, fluid containing part, minimizing the risk of short circuit.
• at least the compartment of the housing containing the container is thermally insulated. It has opening for the tubes to enter and leave it.
• the tubes, the circulation means and the container may be mutually connected by common, state-of-the-art fluid connectors.
• the compartment containing the electrical equipment has one or more openings to the environment allowing cooling of the circulation means.
• the circuit preferably is further provided with a switch to operate the circulation means and a device for controlling the flow in the circuit.
• the latter allows controlling the flow rate of cooling liquid and thus the cooling capacity of the garment.
• the device for controlling the flow rate can be of mechanical nature, e.g. a clamp restricting the diameter of the tube locally but preferably is of electrical nature and controls the throughput rate of the circulation means.
• the temperature of the fluid forced through the circuit will increase from the initial temperature of the fluid in the container to the temperature of the environment or even approach that of the person wearing the garment.
• the means to control the flow described above can only partially compensate this temperature rise over time.
• the initial lowest temperature may be undesired or even unwanted as causing too strong local cooling, which may cause muscle injury.
• the fluid circuit comprises means for mixing a variable part of the fluid flowing back to the container with the fluid flowing from the container.
• the fluid returning to the container and heated by heat exchange wit the person wearing the garment can be mixed with a variable amount of cold liquid from the container to bring the temperature of the fluid entering the tubes to a desired level.
• the mixing ratio can be adapted to add more and more of the cool liquid to obtain fluid entering the circuit of still about a constant temperature. This process can continue until the liquid in the container has obtained the temperature of the returning fluid. At that time fresh cooling liquid must be supplied to the container or the container has to be exchanged by a fresh, cold one.
• a cooling device is present and operated to cool the fluid in the container or material as mentioned above.

Landscapes

• Engineering & Computer Science (AREA)
• Environmental & Geological Engineering (AREA)
• Health & Medical Sciences (AREA)
• General Health & Medical Sciences (AREA)
• Physical Education & Sports Medicine (AREA)
• Textile Engineering (AREA)
• Professional, Industrial, Or Sporting Protective Garments (AREA)

Priority Applications (1)

Applications Claiming Priority (1)

Publications (1)

Family

ID=39301136

Family Applications (1)

Country Status (1)

Citations (5)

• 2007
  • 2007-11-19 EP EP07022395A patent/EP2060193A1/fr not_active Withdrawn

Patent Citations (5)

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