KR20120001260U - Using the temperature sensor on cooling and hot the skin temperature control device and method - Google Patents

Abstract

The present invention provides a medical cooling stimulator, a thermal stimulator, and an electrical stimulator using a contact or non-contact skin temperature sensor, or simultaneously provides a skin temperature sensor to quickly measure skin temperature in real time to fit a treatment lesion. The present invention relates to a temperature control device and a method for maintaining an optimal skin cold temperature, and does not control the temperature of a cold delivery medium during cold treatment of an existing patient, but rather to adjust the temperature of the treatment target, that is, by body part and measurement surrounding environment. Because there is a difference in body temperature according to different factors and seasons, age, sex, or person, and temperature variation by body part from head to toe, the skin temperature sensor is used to measure skin temperature in real time to control and control the cold temperature. To control and adjust the optimal cold temperature for the lesion It relates to a method.

Description

Using the temperature sensor on cooling and hot the skin temperature control device and method}

The present invention provides a medical cooling stimulator, a thermal stimulator, and an electrical stimulator, respectively, using a contact or non-contact skin temperature sensor during cold and cold treatment using thermoelectric elements, or at the same time. It relates to a temperature control device and method that can maintain the skin cold temperature of the skin. Currently, in the case of a cold device using a thermoelectric element, since the temperature of the electrical stimulation unit or the cold carrier is measured and controlled, there is a difference that is substantially different from the skin cold temperature required for treatment . In order to achieve optimal cold treatment for the lesion, the skin temperature required for optimal lesion is quickly detected in real time to control and adjust the intensity of cold temperature. Medical electrical stimulator, a cooling stimulator and a thermal stimulator according to the present invention and a medical electrode for generating a stimulation by supplying electricity with a contact or non-contact skin temperature sensor device; A thermoelectric element configured like the medical electrode and supplying cold air or heat to the medical electrode; Contact or non-contact skin temperature that is in contact with the other side or the other side of the contact with the medical electrode, the skin temperature sensor is integrated with the electrical stimulation unit, the thermoelectric element or separately to measure the skin temperature in real time Detection sensor; The skin temperature sensor may be configured to control the temperature of the skin in real time to control the temperature of the thermoelectric element in real time to maintain a constant temperature for treating the lesion rapidly in response to the temperature value; A heat shield for preventing the skin temperature sensor from being affected by temperature changes in the device or the peripheral device, the power supplied to the medical electrode, the pumping means, a device for cooling the heat exchange liquid, and the thermoelectric element according to the temperature. And a controller for controlling the temperature value detected by the power supply and the skin temperature sensor.

Cold temperature equipment using the conventional thermoelectric element is the most important for the treatment by measuring the temperature of the device that delivers cold temperature to the skin, instead of controlling and controlling the appropriate cold temperature in real time during the cold treatment There is a problem in that the temperature of the object (skin) cannot be appropriately maintained . In addition, there are numerous papers and scholarships related to the optimal cold treatment temperature according to the lesion, but the skin temperature cannot be maintained at the proper temperature. The method of maintaining an application | coating titration temperature etc. is performed. Since there is no way to maintain and control the skin temperature for the target and the lesion, the best cold treatment is difficult and there is a risk of adverse effects. The most important part of the present invention is the cold temperature treatment method that controls and regulates the optimum skin temperature of skin suitable for the treatment of skin temperature in real time. It is most important to accurately detect and control the skin temperature value in real time according to the skin area and environment.However, in the case of the cold treatment device, the temperature of the mechanical device is measured. this problem can now be treated by a situation that現existing equipment, as well as hot and cold therapy applied once or twice like ice, hot pack in a towel because they can not be maintained, controlling the constant temperature of the skin for the treatment of patients with lesions. In addition, in the case of the existing cold and hot equipment, there is a difference from the skin temperature suitable for the lesion to measure and control the temperature of the electrical stimulation part or the temperature carrier. Since the control is not easy, the optimal cold treatment is difficult. Conventional thermotherapy devices using thermoelectric elements also have a problem that it is difficult to optimally treat the cold temperature for a target because it does not control the temperature of the skin in real time.

The present invention aims to precisely control and control the temperature and temperature of the part and the object that need optimal temperature control by measuring the skin temperature for the treatment of lesions in real time. For example, cold stimulation of the external receptors on the skin directly affects the muscles and motor nerves, reducing sensitivity and reducing muscle tension. Slowing nerve speeds in peripheral nerves and neuromuscular junctions and causing blood vessel contractions in blood vessels reduces edema and bleeding. When a subcutaneous temperature of 15 degrees hunting action, subcutaneous temperature 13 degrees pain caused, paralysis, and 13 degrees or less when the other pain caused, and severe skin cells can cause damage to the exact skin temperature control during the treatment is to further enhance the therapeutic effect In addition, it is possible to prevent the adverse effects of the treatment in advance to maintain and control the skin temperature for the correct treatment of the lesion .

The present invention is to measure the skin temperature in real time by adjusting the intensity of the cold temperature device to be treated according to the lesion, the cold temperature treatment according to the body parts, the environmental factors and seasonal differences between each person, age, age, or body temperature Because of the difference in temperature and the temperature deviation of body parts from head to toe, accurate skin temperature measurement and temperature control according to the temperature measurement are important. Unlike conventional cold devices, which measure the temperature of a cold device, the skin temperature of the target is measured directly in real time.In order to adjust and control the intensity of cold temperature, it is important to control and control the temperature value in real time quickly and accurately. Through the agent, it is protected from the direct heat transfer and the interference with the cold and heat transfer medium to achieve the optimum cold and temperature control.

Conventionally, it is not possible to freely control and control the temperature of various cold treatments such as skin care, soothing or inflammation treatment, and pain treatment, and some cold treatment devices also measure the temperature of the device that delivers the cold temperature. There is a deviation. Therefore, it is difficult to provide an optimal cold temperature treatment for patient lesions. By measuring the skin temperature in real time and controlling the optimal cold temperature, it is possible to maximize the convenience and the efficiency of treatment. It is possible to combine with various medical devices, and to control the optimal cold temperature in real time for the patient's treatment. The adjustable equipment is in an infinite state, so the domestic and international spillover effect and its scope of application will be very large. In particular, skin care, orthopedic, pain clinic, rehabilitation treatment, nursing home, oriental medicine, sports clinic, etc. The use and scope of the business is diverse and the scope of application is infinite.

1 is a representative view forming a configuration according to the present invention.
2 is a block diagram constituting the configuration according to the present invention.
3 is a contact, non-contact skin temperature sensor installation according to the present invention.

The present invention will be described in detail with reference to the accompanying drawings. A medical electric stimulator using a contact or non-contact skin temperature sensor, a medical electrode for generating stimulation by receiving electricity from a cooling stimulator and a thermal stimulator, and a skin temperature sensor device; A thermoelectric element configured like the medical electrode and supplying cold air or heat to the medical electrode; Contact or non-contact skin temperature sensing, which is in contact with the other side or a different surface of the contact with the medical electrode, the skin temperature sensor is integrated with or separately from the electrical stimulation unit, the thermoelectric element to measure the skin temperature in real time sensor; The skin temperature sensor may be configured to detect the temperature of the skin in real time to control the temperature of the thermoelectric element in real time to quickly maintain a constant temperature for treating the lesion in response to the temperature; A heat shield for preventing the skin temperature sensor from being affected by temperature changes in the device or the peripheral device and the environment, the power supplied to the medical electrode, the pumping means, a device for cooling the heat exchange liquid, and the thermoelectric according to the temperature And a controller for controlling the temperature value detected by the power supplied to the device and the skin temperature sensor. Here, the skin temperature sensor is mounted on one or more of the medical electrode unit or mounted separately; A heat exchange block in contact with the thermoelectric element and having a flow path through which the heat exchange liquid flows; An upper cover fastened to the lower block to seal the heat exchange block; And an outlet port and an inlet port which are connected to the pipe and allow the heat exchange liquid to enter and exit, wherein the heat exchange liquid is an antifreeze liquid. In addition, the medical electrical and cold stimulation apparatus according to the present invention may further include flipping means for flipping (turning over) the thermoelectric element. Preferably, the thermoelectric element is a Peltier element, and the pumping means is preferably a circulation pump. Medical electrical and cold stimulation device according to the present invention is a medical electrode for generating stimulation by receiving electricity; A thermoelectric element contacting a rear surface of the medical electrode and supplying cold air or heat to the medical electrode; A heat exchange block in contact with a surface opposite to a surface in contact with the medical electrode and performing heat exchange using a flow of air; Ventilation means for supplying air to the heat exchange block; It may include a temperature sensing means for sensing the temperature of the medical electrode to generate an electrical signal corresponding to the temperature; And a control unit for controlling the power supplied to the thermoelectric element according to a temperature by calculating a temperature calculation value of the power supplied to the medical electrode, the ventilation means, and the skin temperature sensor. Here, the heat exchange block may be provided with a plurality of cooling fins, the ventilation means may comprise a fan. Medical electrical and cold stimulation apparatus according to the present invention may further include a flipping means for flipping the thermoelectric element, the thermoelectric element is preferably a Peltier element. Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention in detail. Representative diagram is a representative diagram showing a medical electrical and cold stimulation device using a cold temperature skin temperature control device and method using a skin temperature sensor according to the present invention. Representative diagram, medical electrical and cold stimulation apparatus according to the present invention is a control unit 100, thermoelectric element 110, heat exchange block 120, medical electrode 130, pumping means 140, piping 150 ), A heat shield 160 and a contactless non-contact skin temperature sensing means 170. Hereinafter, the components of the cold and hot stimulation apparatus through the cold and hot skin temperature control device and method using the temperature sensor according to the present invention will be described in detail. The control unit 100 controls the temperature calculation value of the skin temperature sensor according to the present invention and each component of the medical electrical and cold stimulation device and the overall system. Specifically, the control unit 100 calculates the temperature calculated value of the skin temperature sensor 170, the thermoelectric element (according to the power supplied to the medical electrode 130, the ON / OFF and the temperature of the pumping means 140 and the thermoelectric element ( 110 to control the power supplied. Contact or non-contact skin temperature sensor 170 is protected from heat shield 160 for the calculation of the subject's exact temperature value. The thermoelectric element 110 is in contact with a rear surface or a different surface of the medical electrode 130 and supplies cold air or heat to the medical electrode 130. The medical electrical and cold stimulation apparatus according to the present invention may further include flipping means (not shown) for flipping the thermoelectric element 110 so that the thermoelectric element 110 can adequately supply the cold stimulation and the warm stimulation. The flipping means flips (overturns) the thermoelectric element 110 at the request of the user, so that the cold and warm stimuli can be alternately provided as necessary. In addition, the thermoelectric element 110 is preferably a Peltier element. The heat exchange block 120 is in contact with a surface opposite or in contact with the medical electrode 130 and performs heat exchange using a heat exchange liquid. Specifically, as shown in FIGS. 1 and 2, the heat exchange block 120 is in contact with the thermoelectric element 110, and has a lower block 121 having a flow path through which the heat exchange liquid flows, and a lower block ( 121 is connected to the upper cover 125 and the pipe 150 which is fastened to the heat exchange block 120 to seal the heat exchange block 120 and is composed of an outlet and an inlet 128 through which the heat exchange liquid enters and exits. The heat exchange liquid is introduced to the inlet side and the introduced liquid passes through the heat exchange block 120 along the flow path and then flows out through the outlet. Heat exchange may occur while the heat exchange liquid flows along the flow path to adjust the temperature of the thermoelectric element 110. Here, it is preferable that the heat exchange liquid contains an antifreeze liquid having a very low freezing point. The skin electrode 120 of the skin temperature sensor 170 controls the skin temperature value through the control unit 100 to generate electricity and generate stimulation, and transmits a cold or warm stimulus generated in the thermoelectric element 110 to the patient. . Pumping means 140 for circulating the heat exchange liquid is connected to the outlet and inlet of the heat exchange block 120 via the pipe 150. Here, the pumping means 140 is preferably a circulation pump for circulating the heat exchange liquid. The skin temperature detecting unit 170 transmits the temperature of the object to the measurement control unit 100 in real time. The control unit 100 receives the control unit 100 controls the current supplied to the thermoelectric element 110 along with the medical electrode 130, or controls the pumping means 140 to adjust the temperature. Although not shown, other embodiments according to the present invention may use a heat exchange block and a ventilation means using a flow of air instead of the heat exchange block 120, the piping 150 and the pumping means 140 and Follow. Another embodiment of the skin temperature sensor 170 is described above except for the temperature of the skin to adjust the temperature of the measurement target, the control 100 heat exchange block 120, the piping 150 and the pumping means 140 Since the same as the embodiment according to the present invention, a detailed description of the same parts will be omitted. First, the heat exchange block 120 according to another embodiment of the present invention is in contact with the other side or the other side of the surface in contact with the medical electrode 130, and performs the heat exchange using the flow of air. For efficient heat exchange, the heat exchange block 120 may include a plurality of metal cooling fins. The ventilation means supplies air of constant temperature to the heat exchange block 120. When air is supplied to the heat exchange block 120 by means of a ventilation, heat exchange takes place and the heat exchange block 120 can be maintained at a constant temperature by said heat exchange. Here, the ventilation means is preferably a fan. The control suitably controls the power supplied to the thermoelectric element 110 according to the ventilation means and the temperature according to the temperature value provided by the skin temperature sensing means 170.

100 control unit
(110) thermoelectric elements
(120) heat exchange block
130 medical electrodes
140 pumping means
150 piping
160 heat shields
(170) Contact, non-contact skin temperature sensor

Claims (8)

A device for detecting the skin temperature value through a non-contact or contact skin temperature sensor to generate an electrical signal corresponding to the temperature. A thermal barrier shield that protects the skin temperature sensor from the effects of direct or indirect ambient temperature; A medical electrode configured to receive the electricity and generate a stimulus; A thermoelectric element contacting a rear surface or an upper surface of the medical electrode and supplying cold air or heat to the medical electrode; A heat exchange block in contact with a surface opposite to the surface in contact with the medical electrode and performing heat exchange using a heat exchange liquid; Piping and pumping means connected to the heat exchange block to circulate a heat exchange liquid; Medical electrical and cold stimulation apparatus comprising a control unit for controlling the power supplied to the thermoelectric element and the power supplied to the medical electrode, the pumping means according to the skin detection temperature. The apparatus of claim 1, wherein the heat exchange block comprises: a lower block in contact with the thermoelectric element and having a flow path through which the heat exchange liquid flows; An upper cover fastened to the lower block to seal the heat exchange block; And an outlet and an inlet through which the heat exchange liquid enters and is connected to the pipe, and a temperature sensor and a skin temperature sensor for measuring a temperature of a cold / hot carrier for efficient temperature control of cold or hot air to the medical electrode. Medical electrical and cold stimulation device provided with a. The medical electrical and cold stimulation apparatus according to claim 1, wherein the pumping means is a circulation pump for circulating the heat exchange liquid, wherein the heat exchange liquid includes an antifreeze liquid. The medical electrical and cold stimulation apparatus according to claim 1, further comprising flipping means for flipping (inverting) the thermoelectric element. The apparatus of claim 1, further comprising a device capable of automatically controlling and adjusting the power supplied to the thermoelectric element and the power supplied to the medical electrode according to the skin detection temperature, respectively, through a manual program according to the lesion. Medical electrical and cold stimulation device. A device for generating an electrical signal corresponding to the temperature by detecting the skin temperature value through a non-contact or contact skin temperature sensor. A thermoelectric element contacting a rear surface or an upper surface of the medical electrode and supplying cold or hot air and a medical electrode to generate the electrical stimulation; A heat exchange block having a surface opposite to or in contact with a surface of the medical electrode in contact with the surface to perform heat exchange using a flow of air; Ventilation means for supplying air to the heat exchange block; A medical electrical device generating an electrical signal corresponding to the temperature through the skin temperature sensor; And a control unit for controlling the power supplied to the medical electrode, the ventilation means, and the power supplied to the thermoelectric element in accordance with the temperature. The medical electrical and cold stimulation apparatus of claim 6, wherein the heat exchange block includes a plurality of cooling fins. 8. The medical electrical and cold stimulation apparatus according to claim 7, wherein the ventilation means comprises a fan.

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