奥地利专利AT519279A1 Device for cooling a body region

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专利摘要:
The invention relates to a device (1) for cooling a body region, preferably a head region, comprising at least one thermally conductive skin contact material (2) and at least one Peltier element (3), wherein the Peltier element (3) is connected to the skin contact material (2), wherein a thermally conductive connecting element, in particular a heat conducting foil (5), and a heat dissipation element (12) are provided, wherein on the connecting element via an outer side of the Peltier element (3) emitted heat to the heat dissipation element (12) can be distributed.
公开号:AT519279A1
申请号:T50939/2016
申请日:2016-10-17
公开日:2018-05-15
发明作者:Schöggler Christoph
申请人:Christoph Schoeggler；
IPC主号:

专利说明:

Summary
The invention relates to a device (1) for cooling a body region, preferably a head region, comprising at least one thermally conductive skin contact material (2) and at least one Peltier element (3), the Peltier element (3) being connected to the skin contact material (2), wherein a heat-conductive connecting element, in particular a heat-conducting film (5), and a heat-dissipating element (12) are provided, wherein heat given off via the connecting element via an outside of the Peltier element (3) can be distributed to the heat-dissipating element (12).
Fig. 1/25
Device for cooling a body region
The invention relates to a device for cooling a body region, preferably a head region, comprising at least one heat-conductive skin contact material and at least one Peltier element, the Peltier element being connected to the skin contact material.
Many thousands of cosmetic operations are performed annually, for example on the nose. After a nose operation, a 3 mm to 5 mm thin plaster is usually placed over the nose for postoperative care. In addition to drug therapy, doctors also recommend cooling and draining the nose to achieve rapid pain relief and early wound and scar healing. An ice pack is often used to cool and relieve swelling.
A disadvantage of using an ice pack is that the ice pack soaks in a plaster or bandage, which is why it has to be replaced frequently. In addition, a cooling temperature cannot be regulated with an ice pack and is usually too low. It has been found that for cooling a swollen body region such as a nose to support the healing process, a certain temperature must not be fallen below. Excessive, prolonged drops in temperature, which occur when using an ice pack, are not desirable because a patient can experience negative effects such as pain, numbness and other emotional disorders.
This is where the invention comes in. The object of the invention is to provide a device of the type mentioned at the outset with which a body region can be individually and efficiently cooled with little effort.
The object is achieved according to the invention in that a heat-conductive connecting element, in particular a heat-conducting film, and a heat dissipation element are provided in a device of the type mentioned at the outset, wherein heat given off via the connecting element can be distributed over the outside of the Peltier element to the heat dissipation element.
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An advantage achieved with the invention can be seen in particular in that heat on an outside of the Peltier element can be transferred directly or indirectly, preferably by direct contact, to the connecting element and subsequently distributed or transferable to the heat dissipation element via said connecting element and then via the heat dissipation element is dissipatable to the outside.
The thermally conductive connecting element is preferably flexible and made of a heat spreader material, for example graphite or copper. In particular, the connecting element is designed as a heat-conducting film, such as a graphite film or copper sheet. A heat-conducting film designed as a graphite film is flexible or flexible and wafer-thin. The thermally conductive connecting element is suitable for dissipating heat on an outside of the Peltier element, this between the at least one Peltier element and the z. B. is arranged as an aluminum sheet heat dissipation element. Heat can be redistributed over a large area by means of a conductive heat-conducting film or a heat-conducting pad or a heat-conducting paste, in particular to the heat dissipation element provided for dissipating the heat. The connecting element is particularly preferably connected directly to an outside of a printed circuit board. The thermally conductive connecting element is in particular flat, so that it comprises a large part of a surface of the device. A cross-sectional area of the heat-conducting film is many times larger than a cross-sectional area of the at least one Peltier element. It can be provided that the flat and thin heat-conducting film extends from a first Peltier element to a next or second one. Alternatively, the thermally conductive connecting element can also be designed as a thermally conductive paste or thermally conductive paste, which connects the Peltier element to the heat dissipation element. A cross-sectional area of such a paste essentially corresponds to the area of the Peltier element. If several Peltier elements are provided, a thermally conductive paste is provided between each Peltier element and the heat dissipation element. The heat dissipation element is preferably flat and in particular extends over a large part of the device. If necessary, two or more heat dissipation elements can also be provided.
With the Peltier element it is possible to bring the thermally conductive skin contact material to a certain temperature and thus an ideal healing of a swollen / 25
Ensure body region. For example, an operated nose can be individually cooled, in particular on the nasal bone, lateral cartilage, wing cartilage and zygomatic area and on the cheekbones. The skin contact material is formed in particular from a metal, preferably from aluminum, copper, titanium or a corresponding alloy with such a metal. The skin contact material is particularly preferably formed from a flexible metallic foil, for example a silver-plated copper foil or an anodized or silver-coated aluminum plate. The skin contact element can also be formed from a copper plate silver-plated in a first step and rhodium-plated in a second step or a gold-plated plate. The skin contact material can also be formed from palladium or another metal. Alternatively, it can also be advantageous if the skin contact element is formed from a plurality of small, rigid sheet metal elements. As a result, the skin contact material can be adapted to a shape of the body region to be cooled, as a result of which the body region can subsequently be cooled uniformly.
The Peltier element removes heat from the body region to be cooled. If several body regions, for example both zygomatic areas, are to be cooled, a skin contact material and a Peltier element are provided for each body region to be cooled. If several Peltier elements are provided, they can be controlled independently of one another, the Peltier elements being dependent on one another or being designed independently.
The portable device advantageously comprises a thermally conductive layer structure with which heat can be released to the outside, the layer structure being at least partially flexible. As a result, the portable device can be flexibly adapted to a body region to be cooled and heat can be dissipated to the outside via the layer structure.
It is advantageous if the device is designed to be free of liquid heat transfer medium. This avoids wetting of the area to be cooled and, for example, of a plaster or other dressing material as well as the skin and hair of a patient. In addition, it is advantageous if the device is free of turbo machines such as fans, fans and the like.
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It is advantageous if a circuit board is provided. The circuit board is in particular at least partially flexible. Alternatively, this comprises, for example, two, three, four or more rigid parts which are connected to one another with flexible cables or the like. This advantageously further comprises several electronic components and extends in particular over an entire surface of the device, whereas the Peltier element is made smaller. As a result, heat to be dissipated can be distributed over a large area and efficient cooling can thus be carried out quickly. There is no liquid heat transfer medium and no fan and / or fan provided or necessary. The device is designed to cool a body region, for example a head region or nose region, in particular after an operation.
The circuit board expediently extends from one Peltier element to the next. However, the circuit board can also be interrupted by wire connections or two parts of the circuit board can be connected to a wire connection. Furthermore, it can be provided that the printed circuit board is arranged continuously over a warm side of the Peltier element. Due to the at least partially flexible design thereof, the circuit board can be adapted to a shape of the body region to be cooled, so that the body region to be cooled can be cooled individually and efficiently. The at least one Peltier element can be controlled and regulated via the printed circuit board, which enables individual cooling. A flexible insulating material can also be provided, which extends essentially over an entire surface of the device and in which the Peltier element is embedded. The insulating material is designed to protect the Peltier element and other elements of the device from damage and wear. The circuit board is advantageously arranged on the outside of the insulating material. The skin contact material preferably has a larger area than the Peltier element and extends over an underside of the insulating material in order to subsequently cool a body region. The insulating material can be formed, for example, from latex, silicone or another soft plastic or a combination of different plastics. In particular, the insulating material is formed from a thermoplastic elastomer such as a thermoplastic polyurethane. To improve heat insulation, a plastic film can also be inserted to avoid heat feedback. Furthermore, the skin contact material is always arranged on the device such that it is in direct contact with the body region to be cooled. Since temperature profiles with the / 25
Peltier element are precisely controllable, the device can also be used for slight heating, for example in a warm-cold therapy. The device is designed in particular so that cooling processes are possible. For this purpose, all cooling surfaces are freely adjustable and controllable, so that any cooling curve can be applied at a desired location.
It is further advantageous if at least one heat sink is provided in order to give off the heat dissipated from the skin to the air by heat conduction or free convection. The heat sink can be rigid or stiff or slightly flexible. This is advantageously formed from a metal, in particular from an aluminum sheet or copper sheet, which has good thermal conductivity and is not completely rigid.
It is expedient if an energy source is provided for operating the Peltier element, the energy source being connected to the Peltier element in particular via cables. Alternatively or additionally, the energy source can also be connected to the Peltier element via the printed circuit board. The energy source can be designed as an accumulator and can be indirectly connected to the Peltier element for power supply thereof via cables. In particular, an external energy source is provided. However, it can also be provided that an energy source such as one or more batteries or accumulators is embedded in the device. Cables of the Peltier element are preferably pinched close to this and electrically connected to the circuit board.
It is also expedient if a control unit is provided. The control unit is connected to the Peltier element and the energy source so that the Peltier element can be controlled and regulated. As an alternative or in addition to the control unit, a control unit can be provided. The control unit and / or regulating unit can in principle be arranged at any position, but it is expedient if it is arranged between the energy source and the device. The control unit monitors and regulates temperatures with which a body region is to be cooled. As a result, cooling processes can be designed as desired, for example, it is possible to set interval cooling or cooling at a constant temperature. In addition, the control unit allows predetermined maximum values / 25 and / or minimum values for the temperature to be specified, so that a desired temperature range can be set for an individual treatment. It is thus possible, for example, to avoid an undesired falling below a minimum temperature. Furthermore, a patient can individually adjust any treatment temperature to his condition. Temperature values and / or temperature profiles are particularly preferably variably programmable or adjustable. External signals from the body, the environment and / or the environment can also be included in a program. The device or control unit can also be designed to be capable of learning. As a result, body functions such. B. an oxygen content in the blood and / or skin resistance and external signals such as light intensity, volume and / or vibrations can be monitored. An influence of the weather can also be monitored in this way. Due to changes in temperature and / or air pressure, a probability of, for example, headache or general physical well-being varies. A control of the control unit for regulating special cooling processes is advantageously carried out via a mobile phone or the like, which, for. B. is connected to the control unit via Bluetooth Low Energy. The control unit and / or regulating unit expediently comprises an accumulator, an operating element for setting the temperature and a rectifier for generating direct current. If several Peltier elements are provided, it is expedient if they can be controlled individually or separately in order to enable different cooling curves on different areas of the body. In particular, the at least one Peltier element is driven with slow pulses of approximately 1 Hz, in particular approximately 0.7 Hz, particularly preferably approximately 0.5 Hz or less. However, the Peltier element can also be controlled with a faster pulse frequency. Furthermore, it can be provided that the device or the control unit can be controlled with an app via a mobile phone, a tablet PC or the like. Such an app offers different curves or data for different complaints, from which a patient or user can choose.
If a temperature is to be precisely controlled, it is furthermore favorable if at least one temperature sensor is provided. In particular, it is advantageous if several, for example six, temperature sensors are arranged at different locations on the device. The temperature sensors are preferably arranged near the skin and on the cooling materials. In particular, the at least partially flexible printed circuit board comprises one or more temperature sensors. Furthermore, at least one / 25th
Temperature sensor for measuring an ambient temperature. The circuit board can also include further electronic components, for example sensors for determining a light intensity or body functions. Furthermore, it can be favorable if actuator devices are provided, for example a vibration device for temple massage.
For treatments which also require the supply of medicinal products and / or disinfectants, it is expedient if a line is provided for the supply of medicinal products. This is preferably arranged on an outer surface of the skin contact material. As a result, in addition to cooling the body region, treatment-promoting substances can also be supplied at the same time. Such substances or drugs are preferably located in a tank provided for this purpose and can be delivered to the surface of the skin with targeted control.
It is advantageous if an acoustic output device is provided. This can be designed to output various parameters such as warning signals and / or a cooling progress for a patient or a treating doctor.
It is advantageous if a holder is provided for fastening the device to a body region. Basically, it is advisable to cool a body region such as a nose or forehead in a horizontal body position. However, it can also be provided to cool a body region in an upright position. For this purpose, the holder for attaching the device, for. B. formed on the head. This provides an additional hold or a special fixed fixation to enable use in a sitting or standing body position or a portable application. The holder is in particular designed in such a way that the device is prevented from slipping or wobbling. In principle, the device can also be designed with a shape that allows it to be held automatically on a region of the body, so that the device itself serves as a holder.
It is advantageous if the device is at least partially constructed in layers. In particular, the device is designed as a thermally conductive layer structure, which emits heat to the outside and is at the same time flexible. The skin contact material is connected to the inside of the Peltier element, the skin contact material being in direct or immediate contact with the body region to be cooled. The at least one Peltier element is embedded in an insulating material to which the thermally conductive connecting element or the printed circuit board is connected. The circuit board is arranged on the outside of the connecting element or vice versa. Finally, an outside is provided at least one heat sink, which is arranged above the Peltier element and can be formed as an aluminum sheet. An additional rigid cooling element can also be provided, which is conductively connected to the cooling body. In addition, a wire mesh and / or expanded metal can be provided in the same plane. On the outside of the device, the heat dissipation element is arranged, which is in particular designed as a plate made of an aluminum alloy, preferably made of the alloy AlMgSi1. This alloy has similar mechanical properties to spring steel and also has good or high thermal conductivity. The plate made of an aluminum alloy can also be coated on the outside with a thin layer of lacquer. It is expedient here if the lacquer layer is at most 60 μm, in particular at most 50 μm, preferably 40 μm, thick. The paint layer can include a primer and a paint. Furthermore, it can be provided that the heat dissipation element in particular comprises recesses such as slots, circles or the like, approximately in the center, so that the heat dissipation element is designed to be particularly flexible in this area. Alternatively, the heat dissipation element can also be made thinner in regions in order to specifically adapt it to any body shape via predetermined bending points. It is also advantageous if the device is largely flexible so that it can be adapted to the body region to be cooled. The individual layers of the device are connected to one another, in particular glued, by means of a heat-conducting adhesive, a heat-conducting film and / or a heat-conducting paste. For example, the connecting element can be designed as a thermal paste.
Further features, advantages and effects result from the exemplary embodiments presented below. In the drawings, to which reference is made, show:
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1 shows a section through a device according to the invention.
2 shows a device according to the invention;
3 shows a further device according to the invention;
4 shows a further device according to the invention;
5 shows a schematic representation of a device according to the invention;
6 shows a further schematic illustration of a device according to the invention; Fig. 7 is a schematic representation of a further device according to the invention.
1 shows a section through a device 1 according to the invention for cooling a body region, which is designed for cooling a nose area. The device 1 is layered. Two skin contact materials 2 are provided on an underside of the device 1 and can be arranged on body regions to be cooled. A Peltier element 3 is provided above the same, which directly connects to the respective skin contact material 2. The Peltier elements 3 are arranged in a flexible insulating material 11, which can be formed from latex, silicone or another soft plastic, in particular from a thermoplastic elastomer such as a thermoplastic polyurethane, and has a cold and warm side. Connected to the insulating material 11 is a connecting element designed as a heat-conducting film 5, this being designed as a graphite film or basically as a so-called heat spreader material. In principle, however, the connecting element can also be formed from thermal paste which connects the Peltier element 3 to a heat dissipation element 12. An at least partially flexible printed circuit board 4 is provided on the outside of the heat-conducting film 5. The printed circuit board 4 advantageously comprises one or more temperature sensors and / or other electronic components, not shown in FIG. 1. Both the insulating material 11 and the heat-conducting film 5 and the printed circuit board 4 are at least partially flexible or pliable, so that they adapt to a shape of the nose area. Furthermore, these elements extend essentially over an entire area of the device 1. Furthermore, two rigid heat sinks 6 are provided, between which a heat dissipation element 12, such as a wire mesh, is arranged, which closes the device 1 on the outside. Instead of the wire mesh, an expanded metal or full-surface aluminum strip can also be provided as the heat dissipation element 12. The heat dissipation element 12 is of different thicknesses, so that it can be individually adapted to a body region. An inner area of such a device 1 can also be rigid. In order to prevent the device 1 from slipping, two anti-slip elements 13 are provided. These lie on a skin surface and can be formed from latex. In principle, the device 1 can comprise any number of anti-slip elements 13. The individual layers of the device 1 are preferably at least partially bonded to one another, for example with thermal adhesive. A connecting element 14, which is formed from textile, silicone or a soft plastic, can also be arranged at two lateral ends.
In order to supply the Peltier element 3 with energy or current, an energy source 7, preferably designed as an accumulator, is provided, which is indirectly connected to the device 1 via a cable 8. Furthermore, a control unit 9 is provided, which is preferably arranged locally at the energy source 7 and connected to it and is likewise connected to the device via the cable 8. However, the energy source 7 can also be integrated directly in the device 1.
FIG. 2 shows the device 1 according to the invention for cooling a body region according to FIG. 1, which is arranged on the nose area of a patient. This comprises two skin contact materials 2 and two Peltier elements 3. The skin contact materials 2 cannot be seen in FIG. 2, since these are each arranged between a Peltier element 3 and a skin of the nose area. The device 1 further comprises two rigid cooling bodies 6, which are arranged on both sides of the nose. The insulating material 11 can also be seen in FIG. 2. Furthermore, the external energy source 7 and the external control unit 9 are shown, which are connected to the device 1 via the cable 8. The energy source 7 can be arranged, for example, in the neck of a patient, which is fixedly connected to the device 1 or can be connected to it. Furthermore, cords or the like can be provided for a size adjustability of the device 1, which can be arranged behind the patient's ears and thus fix the device 1 on the patient's head. A holder 10, not shown, can also be provided in order to attach the device 1 to the patient's head. A device 1 for cooling a nasal area can be used, for example, after a nose operation, eye bag removal, eyelid surgery or in the case of swelling in the face. Furthermore, the device 1 is suitable for promoting blood circulation and for reducing wrinkles or dark circles.
3 and 4 each show a further device 1 according to the invention for cooling a body region. These are each designed to cool a region of the forehead and temples and each comprise a plurality of skin contact materials 2 and Peltier elements 3. Cooling is advantageously carried out precisely on the forehead and on the roots of the trigeminal nerve, four cooling points being provided. For this purpose, these points are cooled with Peltier elements 3 arranged on the device. The Peltier elements 3 are supplied with energy via an energy source 7. In addition to the energy source 7, a control unit 9 is provided, via which the device 1 can be controlled and regulated. The energy source 7 and the control unit 9 are connected to the Peltier elements 3 via cables 8, cables 8 being guided within the device 1 and therefore not shown in FIG. 3. The device 1 further comprises a heat dissipation element 12, which can be designed to be bendable. The heat dissipation element 12 is particularly preferably formed as an aluminum sheet made of the alloy AlMgSi1, which has similar properties to spring steel and also conducts heat well. As a result, the device 1 can be adapted to different head shapes and head sizes. Furthermore, the device 1 can have, for example, a predetermined bending point between the forehead and temple. In addition, the device 1 shown in FIG. 3 can be fastened to the head of a patient via a holder 10. The holder 10 can be formed from a textile, silicone or a soft plastic and fixes the device to the head so that it does not slip. In contrast, the device 1 shown in FIG. 4 is designed in such a way that it can be fixed automatically to the head of a patient or user by a clip action of the heat dissipation element 12 designed as an aluminum sheet without a holder 10. This device 1 comprises a bracket with an energy source 7, the bracket being able to be arranged behind an ear of the patient in such a way that the device 1 is fixed on the patient's head. The device 1 thus has a shape similar to glasses and is flexible, so that the device 1 can be put on. In addition to a predetermined bending point between the forehead and temple, the device 1 can also have a predetermined bending point in the area of the ear. It can also be provided to integrate a device 1 into optical glasses or sunglasses.
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A device 1 shown in FIGS. 3 and 4 for cooling a region of the forehead and temples can positively influence various complaints: migraines, headaches, stress, fever, difficulty concentrating, hot flashes, circulatory problems, fatigue, energy loss, sinusitis and other complaints. In addition, such a device 1 can be used by astronauts in space, since they often suffer from pain in the head area as well as from nausea and poor orientation. Another use is for fighter pilots, snipers, air traffic controllers and similar professional groups. It can also be provided that the individual elements of the device 1 in a shell made of z. B. plastic are bordered to protect the Peltier element 3 and its thermal transitions from mechanical stress. A plastic shell advantageously has a corresponding flexibility, so that the device 1 is flexible. A plastic with a Shore hardness in the range of about 50 Shore to 70 Shore is particularly suitable for this, so that there is an optimum of adaptability and performance properties.
5 shows a schematic representation of a device 1 according to the invention, in which a layered structure of the device 1 can be seen. In order to ensure efficient heat transfers, individual layers of the device 1 are connected to one another, in particular glued, using a heat-conducting adhesive, a self-adhesive heat-conducting film, a heat-conducting pad 16 and / or a heat-conducting paste. Starting from one side lying on one of the body regions to be cooled, the layered device 1 comprises: a skin contact material 2 formed as an anodized or silver-plated aluminum plate or first silver-plated and then rhodium-plated copper plate, a Peltier element 3 embedded in an insulating material 11, a printed circuit board 4 with several electronic ones Components 15, a connecting element designed as a heat-conducting film 5 and a heat dissipation element 12, preferably made of aluminum or an aluminum alloy.
6 also shows a schematic illustration of a device 1 according to the invention. This essentially corresponds to the illustration in FIG. 5. In contrast to a device 1 shown in FIG. 5, in this device 1 the circuit board 4 runs between a warm side of the Peltier element 3 and the heat conducting film 5 or the heat dissipation element 12. Heat is thus dissipated here via printed circuit board 4 to the heat-conducting film 5 and the heat dissipation element 12.
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A schematic representation of a further device 1 according to the invention is shown in FIG. 7. This, in turn, is built up in layers and comprises a skin contact material 2, a Peltier element 3, a circuit board 4, in particular predominantly made of copper, a heat-conducting film 5 and a heat dissipation element 12. The skin contact material 2 is connected to the Peltier element 3 via a heat-conducting pad 16, which is also via Thermal pad 16 is connected to the heat dissipation element 12. An insulating material 11 is also provided. The device 1 further comprises a cavity 17 or space filled with air in order to thermally decouple a cold and warm side of the Peltier element 3 from one another.
It can further be provided that an electrical circuit board 4 is integrated in the entire device 1, which is made up of rigid and flexible parts. As a result, the electronic circuit can be built into the device 1 in a highly integrated manner. Such a printed circuit board 4 has flexibility at the desired locations, as a result of which strong bending is possible without damage. At the front of the device 1, the waste heat of the Peltier element is dissipated via a flexible part of the printed circuit board 4, which is arranged between two thermal pads. Due to the very thin design of approximately 130 μm of the flexible part of the electrical circuit board 2, the desired heat dissipation via the thermal pads to the surface of the heat dissipation element 12 is hardly impaired. The circuit board 4 further comprises copper tracks, which run through the flexible and rigid part of the circuit board and are electrically connected to one another. As a result, further electrical components such as temperature sensors can be soldered onto the printed circuit board 4. Since the copper tracks on the printed circuit board 4 also heat up, a temperature sensor soldered thereon will also assume this temperature. Temperatures at the desired locations can thus be measured easily, since the sensors on the flexible part of the printed circuit board 4 comprise thermal and electrical connections. Because of the flexibility, parts of the flexible printed circuit board 4 can be constructed in such a way that they can be bent at desired measuring points and partially clamped into the thermal layer structure. In addition, an overall heat dissipation is improved if the flexible part of the electrical circuit board 4 largely consists of copper tracks, since the heat can also be dissipated along these copper tracks or copper lines of the electrical circuit board 4. The flexible part of the circuit board 4 is consequently fundamentally designed for the electronics, the circuit board 4 due to the / 25th
Copper tracks are also thermally conductive, which is why they are also ideal for temperature measurements.
In addition to the applications already mentioned, a device 1 according to the invention can also be used for cooling, heating and / or treatment for, for example, the following further body regions and / or complaints:
- insect bites;
- on the hair area with chemotherapy to protect against hair loss;
- wound and scar cooling;
- tension headache in the neck area;
- jaw and toothache;
- Abdominal discomfort;
- swelling from broken bones;
- In the testicular area to improve sperm quality;
- epididymitis;
- testicular bruise;
- testicular rupture;
- on joints;
- sports injury;
- Muscle pain;
- thrombosis;
- Multiple sclerosis;
- tiredness.
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权利要求:
Claims (10)
[1]
claims
1. A device (1) for cooling a body region, preferably a head region, comprising at least one heat-conductive skin contact material (2) and at least one Peltier element (3), the Peltier element (3) being connected to the skin contact material (2), characterized in that a heat-conductive connecting element, in particular a heat-conducting film (5), and a heat-dissipating element (12) are provided, wherein heat given off via the connecting element via an outside of the Peltier element (3) can be distributed to the heat-dissipating element (12).
[2]
2. Device (1) according to claim, characterized in that the device (1) is designed free of liquid heat transfer medium.
[3]
3. Device (1) according to claim 1 or 2, characterized in that at least one printed circuit board (4) is provided.
[4]
4. Device (1) according to one of claims 1 to 3, characterized in that at least one heat sink (6) is provided.
[5]
5. The device (1) according to one of claims 1 to 4, characterized in that an energy source (7) is provided for operating the Peltier element (3), the energy source (7) in particular via cable (8) with the Peltier element (3 ) connected is.
[6]
6. Device (1) according to one of claims 1 to 5, characterized in that a control unit (9) is provided.
[7]
7. Device (1) according to one of claims 1 to 6, characterized in that at least one temperature sensor is provided.
[8]
8. The device (1) according to any one of claims 1 to 7, characterized in that a line is provided for the supply of pharmaceuticals.
[9]
9. Device (1) according to one of claims 1 to 8, characterized in that an acoustic output device is provided.
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[10]
10. The device (1) according to one of claims 1 to 9, characterized in that a holder (10) for fastening the device (1) is provided on a body region.
5 11. Device (1) one of claims 1 to 10, characterized in that the device (1) is at least partially layered.
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1.5

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2.5

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同族专利:

公开号 | 公开日

WO2018071933A1|2018-04-26|

JP2019531176A|2019-10-31|

AT519279B1|2019-12-15|

CN110087591A|2019-08-02|

EP3525734A1|2019-08-21|

US20190274873A1|2019-09-12|

引用文献:

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JP6259908B2|2013-05-30|2018-01-10|コーニンクレッカフィリップスエヌヴェＫｏｎｉｎｋｌｉｊｋｅＰｈｉｌｉｐｓＮ．Ｖ．|Non-invasive device for regenerating skin tissue using therapeutic pressure below ambient pressure|

AU2015204588A1|2014-01-10|2016-07-21|Marcio Marc Abreu|Devices to monitor and provide treatment at an Abreu brain tunnel|

AU2016209190A1|2015-01-23|2017-08-10|Marcio Marc Abreu|Apparatus and method for skin treatment|WO2020047175A1|2018-08-28|2020-03-05|Mmj Labs, Llc|Devices and methods for pain control|

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CN111904813A|2020-07-30|2020-11-10|上海交通大学医学院附属第九人民医院|Negative pressure scar inhibition patch and negative pressure scar inhibition assembly comprising same|

CN112402094A|2020-11-19|2021-02-26|河南省儿童医院郑州儿童医院|Cooling device for pediatric ICU|

CN113679936A|2021-10-27|2021-11-23|上海微创医疗器械（集团）有限公司|Degradable drug stent system and intranasal drug stent|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50939/2016A|AT519279B1|2016-10-17|2016-10-17|Device for cooling a region of the body|ATA50939/2016A| AT519279B1|2016-10-17|2016-10-17|Device for cooling a region of the body|

PCT/AT2017/060265| WO2018071933A1|2016-10-17|2017-10-17|Device for cooling a body region|

US16/342,403| US20190274873A1|2016-10-17|2017-10-17|Device for cooling a body region|

CN201780077814.7A| CN110087591A|2016-10-17|2017-10-17|Device for body cooling position|

JP2019541826A| JP2019531176A|2016-10-17|2017-10-17|Device for cooling the body area|

EP17791277.1A| EP3525734A1|2016-10-17|2017-10-17|Device for cooling a body region|

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