초록 ▼

Equipment for thermal therapy of patients is disclosed. The equipment includes a flexible heat exchange structure having fluid conducting channels formed between two layers of flexible material, with improved liquid manifolds at the ends of the channels for resisting pinching, crimping or buckling i

Equipment for thermal therapy of patients is disclosed. The equipment includes a flexible heat exchange structure having fluid conducting channels formed between two layers of flexible material, with improved liquid manifolds at the ends of the channels for resisting pinching, crimping or buckling in the manifolds on pressurization and when the heat exchange structure is subjected to flexure as when worn on the human body. The manifolds are configured so that pressurization shrinkage at the manifold is balanced with pressurization shrinkage laterally among the fluid conducting channels. In a preferred embodiment, the fluid conducting channels themselves are configured in a zig-zag pattern which is effective to resist buckling or pinching of the channels when the heat exchange structure is subjected to bending. In a further embodiment the flexible heat exchange structure includes a third layer of material to form a pressurized air envelope, for heat/cold and pressure theraby.

대표청구항 ▼

I claim: 1. A flexible heat exchange structure having a pair of superposed sheets of flexible material sealed together in a plurality of spaced apart discrete areas to form a fluid-conducting channel which inflates and decreases in lateral dimension upon pressurization by a fluid, and means sealing

I claim: 1. A flexible heat exchange structure having a pair of superposed sheets of flexible material sealed together in a plurality of spaced apart discrete areas to form a fluid-conducting channel which inflates and decreases in lateral dimension upon pressurization by a fluid, and means sealing the sheets together along an undulating line to form a chamber which communicates with the channel and also inflates and decreases in lateral dimension upon pressurization, the undulating line being oriented and dimensioned to make the decreases in lateral dimension substantially equal in the channel and in the chamber, and means communicating with the chamber for circulating liquid through the channel. 2. The heat exchange structure of claim 1 wherein the means for circulating liquid through the channel comprises a heated liquid reservoir, a cooled liquid reservoir, an adjustable mixing valve connected between the reservoirs and the chamber for mixing liquids from the two reservoirs in any desired proportion for delivery to the channel, and means for circulating the liquid through the two reservoirs, the mixing valve and the channel. 3. The heat exchange structure of claim 2 wherein the means for circulating the liquid through the two reservoirs, the mixing valve and the channel includes a return reservoir for receiving liquid which has circulated through the channel, and a pump connected between the return reservoir and the other two reservoirs for pumping liquid from the return reservoir through the heated liquid reservoir and the cooled liquid reservoir to the channel. 4. A heat exchange system for thermal treatment of a body, comprising a heat exchange panel having first and second superposed sheets of flexible material sealed together in a plurality of discrete areas to form fluid-conducting channels, and a manifold in fluid communication with the channels, an outer layer which is adapted to be wrapped about the body to hold the panel on the body with the first sheet facing the body, an air chamber between the outer layer and the second sheet, means for pressurizing the air chamber to urge the heat exchange panel against the body, and a heating/cooling unit for circulating liquid of predetermined temperature through the panel. 5. The system of claim 4 wherein the means for pressurizing the air chamber and the heating/cooling unit are combined in a separate unit and connected to the panel by flexible lines. 6. The system of claim 4 further including a hook and loop fastener attached to the outer layer for securing the device to the body. 7. The system of claim 4 further including a layer of heat dispersive material adjacent to the first sheet for providing more uniform heat transfer between the body and liquid in the channels. 8. A personal heating/cooling system, comprising a heat exchange panel having first and second superposed sheets of flexible material sealed together to form a plurality of flow channels and a manifold in fluid communication with the channels, a heated liquid reservoir, a cooled liquid reservoir, an adjustable mixing valve connected between the reservoirs and the panel for mixing liquids from the two reservoirs in any desired proportion for delivery to the panel, and means for circulating liquid through the two reservoirs, the mixing valve and the flow channels in the panel. 9. The system of claim 8 wherein the means for circulating the liquid includes a return reservoir for receiving liquid from the panel, and a pump for pumping liquid from the return reservoir through the heated reservoir and the cooled reservoir to the flow channels in the panel. 10. The system of claim 9 wherein the pump is connected between the return reservoir and the other two reservoirs. 11. A personal heating/cooling system, comprising a heat exchange panel having a pair of superposed sheets of flexible material sealed together to form a plurality of flow channels, and a manifold in fluid communication with the flow channels, a heated liquid reservoir, a cooled liquid reservoir, an adjustable mixing valve connected between the reservoirs and the panel for mixing liquids from the two reservoirs in any desired proportion for delivery to the panel, a return reservoir for receiving liquid from the panel, and a pump for pumping liquid from the return reservoir through the heated reservoir and the cooled reservoir to the flow channels. 12. The system of claim 11 wherein the pump is connected between the return reservoir and the other two reservoirs. 13. The system of claim 11 wherein the flow channels and the manifold tend to inflate and decrease in lateral dimension when the liquid passes through them, and the manifold has an undulating wall which is oriented and arranged to decrease in dimension to the same degree as the channels in response to the liquid.