KR20160049262A - A heat radiation zone temperature detection and feedback module for phototherapy apparatus and a heat radiation zone radiation dos - Google Patents

Abstract

The present invention relates to a module for detecting and feeding back a temperature of an irradiation zone of a phototherapy apparatus. The corresponding phototherapy apparatus is an apparatus which irradiates a laser or pulse to the dermal layers of skin to obtain a beauty treatment effect. The module for detecting and feeding back a temperature of an irradiation zone is connected to a laser or pulse irradiation head and one control unit of an electric furnace phototherapy apparatus, and includes one non-contact type temperature detecting apparatus and a feedback unit. The non-contact type temperature detecting apparatus detects an actual temperature of the dermal layers of skin of an irradiation zone by corresponding to a laser or pulse irradiation zone. The feedback unit is connected to the electric furnace non-contact type temperature detecting apparatus and the control unit of the phototherapy apparatus to receive a temperature signal transmitted by the non-contact temperature detecting apparatus, determines a difference between the actual temperature of the dermal layers and a basic set temperature, generates one feedback signal, and transmits the feedback signal to the control unit, Accordingly, the corresponding control unit adjusts a laser beam or pulse irradiation output based on the feedback signal.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a photodetecting apparatus, a temperature detection feedback module, and an irradiation zone irradiating control method,

The present invention proposes a phototherapy apparatus irradiation zone temperature detection feedback module and irradiation zone irradiation amount control method, and mainly uses a kind of non-contact type temperature detector to measure the actual dermal layer temperature of the skin zone irradiated with the laser or pulse of the phototherapy apparatus A feedback signal is generated and transmitted to the control unit of the phototherapy apparatus, and the control unit detects the irradiation output of the laser or pulsed light irradiation head To maintain a stable dermal laser or pulsed light dose.

The present invention relates to a phototherapy apparatus, and relates to an irradiation zone temperature detection feedback module and irradiation zone dose control method of a phototherapy apparatus.

Currently, relatively common in laser phototherapy is the Fraxel laser and the skin laser. Skin laser surgery is a non-invasive laser aesthetic technique, based on the unusual behavior of different wavelengths of light in the skin, including toning and whitening lasers. The whitening laser deeply acts on the dermis to stimulate the dermis cell tissue and apply the vibration to the melanin pigment, effectively eliminating the uneven skin color and making bright skin, stabilizing pigment deposition, improving melanin pigment deposition Effect.

The operation of the laser phototherapy apparatus is controlled by a physician controlling the laser irradiation head and moving the irradiation head within the irradiation area by manual or automatic control method, and irradiating the skin with the laser light energy to perform the cosmetic treatment. The effect of laser phototherapy is determined by the influence of phototherapy device energy control and light irradiation depth control. For safe and stable effect, current phototherapy device can set the irradiation depth and range in computer, Fixing the treatment depth does not cause side effects that will darken the skin again.

Phototherapy devices can be used to set the depth and range of irradiation using a computer, but in fact, when irradiating the skin with a laser, the skin surface and the temperature of the dermal layer are routinely different. Laser phototherapy mainly stimulates collagen protein proliferation of the dermis, which affects the effect of phototherapy when the actual light irradiation temperature of the dermis is lower than the computer setting. Therefore, a phototherapy device having a temperature detection function has been developed. For example, US Pat. No. 8439045, US6413255, M246583, Publication No. 200831152, CN90107543.4, CN90107189.7, CN90107456.X, CN200510053757.8 and CN201110376475. 7 섟 CN201310113506.9.

However, the US patent is equipped with a skin temperature sensing technology, but the temperature sensing part is a pin inserted into the dermal layer and it is an invasive design, and the temperature sensing of the PRC and China related patents is also a contact type design. In the direction of development.

Therefore, the inventor of the present invention has been studying the problems faced at present based on the experience of engaged in research and development and production of related industries for a long time, proceeding researches and prototypes after a long effort, and filed the present invention.

The main object of the present invention is to propose an irradiation zone temperature detection feedback module and irradiation zone dose control method of a phototherapy apparatus, which is a method of detecting the actual dermal layer temperature in a noncontact manner, And the temperature difference between the skin surface and the dermal layer can be adjusted so that the physician can conveniently use it as a basis for increasing or decreasing the dose in the course of the patient's treatment so as to maintain a stable dermal laser or pulsed light dose, It is possible to perform accurate and stable cosmetic treatment, and it is possible to secure the effect of cosmetic treatment, so that it has high commercial value.

In order to achieve the above object, the present invention proposes an irradiation zone temperature detection feedback module of a phototherapy apparatus. The phototherapy apparatus irradiates a laser or a pulse to the skin dermis layer to obtain medical and cosmetic effects. The irradiation zone temperature detection feedback module is connected to a laser or pulse irradiation head and a control unit of an electrophotolithography apparatus, and includes a non-contact temperature detection device and a feedback unit. The non-contact temperature detection device is connected to a laser or pulse light irradiation zone And the feedback unit is electrically connected to the control unit of the corresponding non-contact temperature detecting device and the phototherapy device to receive the temperature signal transmitted from the corresponding non-contact temperature detecting device, The difference between the temperature and the default set temperature is determined, Generating a signal and transmitted to the control unit, the control unit is based this is to adjust the laser output or a pulse irradiation.

In addition, the present invention proposes a phototherapy apparatus irradiation zone irradiation amount control method. First, the actual dermal layer temperature of the phototherapy apparatus laser or pulse irradiation zone is detected by the noncontact type temperature detection method, and the actual dermis layer temperature and the basic set temperature And when a difference between the actual dermal layer temperature and the predetermined temperature is generated, a feedback signal is transmitted to the phototherapy apparatus control unit, and the control unit adjusts the irradiation power of the laser or pulse irradiation head to maintain a stable dermal layer laser or pulsed dose .

Figure 1 is a system diagram of one relatively preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The following is a detailed description of two comparatively preferred embodiments of the present invention and the accompanying drawings:

1, in the irradiation zone temperature detection feedback module 10 of the phototherapy apparatus 1 of the preferred embodiment of the present invention, the phototherapy apparatus 1 is a medical beauty apparatus which obtains medical and cosmetic effects through skin laser irradiation or pulse light irradiation (Not shown), that is, one irradiation head 12 and one control unit 14, and the laser or pulsed light is irradiated onto the corresponding irradiation head 12, and the control unit 14 can control the irradiation output of the irradiation head 12. The irradiation zone temperature detection feedback module 10 is connected to an electric furnace laser or pulse light irradiation head 12 and a control unit 14. The features of the present invention also include the following contents.

A non-contact type temperature detecting device 16, and an infrared non-contact type temperature measuring sensor, which are provided corresponding to a phototherapy self-leveling laser or pulse irradiation zone (a zone irradiated by the irradiation head 12) to detect the actual dermal layer temperature of the irradiation zone.

A feedback unit 18, a corresponding non-contact temperature detection device 16, and a control unit 14, which may be a calculation software or a control chip. Which may be embedded in the control unit 14 or separately installed at the appropriate site of the phototherapy device. Calculate the difference between the actual dermal layer temperature of the irradiation zone and the default setting temperature before manipulating the phototherapy device.

The characteristics and effects of the irradiation zone temperature detection feedback module 10 of the phototherapy apparatus of the present invention are as follows:

When the phototherapy apparatus is operated, the noncontact type temperature detecting apparatus 18 detects the actual temperature of the laser or pulsed irradiation area dermis layer (between 0.3 mm and 3 mm in thickness), transmits the actual dermis temperature signal to the feedback unit 18, The unit 18 determines the difference between the actual dermal layer temperature and the basic set temperature before the operation of the phototherapy apparatus by calculation. If the value is positive, the irradiation output of the laser or pulsed irradiation head 12 is decreased. If the value is negative, The irradiation power of the pulse irradiation head 12 is increased. If there is no difference between the actual dermal layer temperature and the default setting temperature, the output of the laser or pulse is maintained.

In detail, in medical and cosmetic use, laser or pulsed light irradiation is used to stimulate the growth of dermal collagen, and the temperature range is about 45 to 60 ° C. The basic temperature set by the doctor or the operator before operating the phototherapy apparatus is 50 DEG C (the scheduled temperature at which the laser or the pulsed light irradiates the dermal layer of the skin), and the actual dermal layer temperature detected by the noncontact type temperature detection device 16 is 40 ° C, the feedback unit 18 determines that the difference between the actual dermal layer temperature and the basic set temperature is negative (40-60 = -20), and the control unit 14 causes the laser unit to move the laser or pulsed irradiation head 12 The irradiation output is increased so that the actual dermal layer temperature detected by the noncontact type temperature detecting device 16 approaches and rises to 50 DEG C. If the opposite is true, the laser unit reduces the irradiation power of the laser or pulsed light irradiation head 12, The actual dermal layer temperature detected by the temperature detecting device 16 approaches and decreases to 50 deg. C, thereby realizing the complementary effect of the temperature difference.

Of course, when the feedback unit 18 judges the difference between the actual dermal layer temperature and the basic set temperature before operation of the phototherapy apparatus, it is also possible to set a constant temperature range (absolute value) without being limited to positive or negative judgment. That is, when the default setting temperature before the physician or operator operates the phototherapy apparatus is an intermediate value between 45 and 60 ° C (52.5 ° C), the difference value is also set to 7.5 (absolute value of 60-52.5 or 45-52.5) And when the difference between the actual dermal layer temperature and the basic set temperature is smaller than 7.5, the irradiation output of the laser or pulsed irradiation head 12 (the temperature range in which the dermal layer stimulation is still stimulated when the actual dermal layer temperature is 45 캜 or higher and 60 캜 or lower) The feedback unit 18 determines again whether the actual dermal layer temperature is higher or lower than the basic set temperature and if the difference between the actual dermal layer temperature and the default set temperature is 7.5 or more, If it is low, increase the laser or pulsed power output and if the actual dermal layer temperature is higher than the default setting temperature, reduce the laser or pulsed power output The difference between the actual dermal layer temperature and the default set temperature is within the corresponding temperature range. The operation of the feedback unit 18, the control unit 14, and the irradiation head 12 described above is automatically performed in the phototherapy apparatus.

As can be seen from the foregoing, the present invention proposes a phototherapy device irradiation zone dose control method, which first uses the non-contact temperature detection method to measure the actual dermal layer temperature of the phototherapy device laser or pulse irradiation zone ) And compares the actual dermal layer temperature with the basic set temperature (using the feedback unit 18). If a difference between the actual dermal layer temperature and the default set temperature occurs, the feedback unit 18 transmits a feedback signal to the control unit 14 So that the control unit 14 controls the laser or pulsed irradiation power to maintain a stable dermal layer laser or pulsed dose.

The present invention proposes a survey zone temperature detection feedback module and irradiation zone dose control method of a phototherapy apparatus which detects the actual dermal layer temperature in a noncontact manner and detects the actual dermal layer temperature and the basic setting And the control unit adjusts the laser or pulsed irradiation power to compensate for the difference between the skin surface and the dermal layer temperature so that the physician can conveniently Therefore, it is possible to maintain a stable dermal layer laser or pulsed light dose, to enable accurate and stable cosmetic treatment for the treatment area, to ensure the effect of cosmetic treatment, and to have high commercial value.

Claims (8)

In a survey zone temperature detection feedback module of a phototherapy device,
The phototherapy device is a device for obtaining a medical and cosmetic effect by irradiating a laser or a pulse to the skin dermis layer. The irradiation zone temperature detection feedback module is connected to a laser or pulse irradiation head of an electrophototherapy apparatus and a control unit Being; This includes one non-contact temperature sensing device and a feedback unit,
The noncontact temperature detecting device detects the actual dermal layer temperature of the irradiation zone corresponding to the laser or pulsed light irradiation zone; The feedback unit is electrically connected to the control unit of the corresponding non-contact type temperature detection device and the phototherapy device to receive the temperature signal transmitted from the non-contact type temperature detection device, determines the difference between the actual dermal layer temperature and the basic set temperature, The control unit generates a signal and sends it to the control unit. Based on the control unit, the irradiation unit detects the irradiation zone temperature of the phototherapy device, which maintains a stable dermal layer laser or pulsed light amount by outputting laser or pulse irradiation. 2. The phototherapy device irradiation zone temperature detection feedback module according to claim 1, wherein the non-contact type temperature detection device is an infrared non-contact type temperature measurement sensor. 2. The phototherapy device irradiation zone temperature detection feedback module of claim 1, wherein the feedback unit is capable of determining a difference between an actual dermal layer temperature and a predetermined set temperature through calculation. 4. The phototherapy device irradiation zone temperature detection feedback module according to claim 3, wherein the corresponding feedback unit can be calculation software. In a phototherapy device irradiation zone dose control method,
First, by detecting the actual dermal layer temperature of the phototherapy device laser or pulsed irradiation area by the non-contact temperature detection method and comparing the actual dermal layer temperature with the basic set temperature, if there is a difference between the actual dermal layer temperature and the basic set temperature, A phototherapy device irradiation zone dose control method wherein the control unit controls the irradiation power of the laser or pulsed irradiation head to maintain a stable dermal layer laser or pulsed dose. 6. The method of claim 5, wherein the infrared non-contact temperature measurement sensor is used for detecting the irradiation zone dermal layer temperature. 6. The method of claim 5, wherein the difference between the actual dermal layer temperature and the baseline set temperature before the phototherapy apparatus operation is determined by calculation, and if the value is positive, the irradiation power of the laser or pulsed irradiation head is decreased. If the value is negative Phototherapy device irradiation zone dose control method for increasing the irradiation power of a laser or pulse irradiation head. 8. The method of claim 7, wherein the calculation of the difference can proceed to a calculation program.

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