SE521065C2 - Optical detector arrangement for detecting and registering incident ultraviolet radiation has sensors, which when activated, continuously measure and indicate changes of UV radiation passing through applied protective agent on covering - Google Patents

Abstract

The arrangement (10) includes sensors (11,12) and device for generating a detection signal. A covering (15) covers the sensors and applicable with a protective agent, and that the sensors, when activated, are arranged to continuously measure and indicate changes of ultraviolet radiation passing through the applied protective agent on the covering. An Independent claim is included for: (a) a method of detecting and registering incident UV radiation and characteristics of a protective agent applied on the detector arrangement.

Description

25 30 35 40 .. ...-- = '* ^ *,'. '.. - * 521 oss ~ =, ~ - * f_,' f, .xv- "... _ _.... Several devices have previously been proposed for measuring the sun's UV radiation, in particular for sunbathers.

US 5,986,273 discloses a UV radiation sensor consisting of a thin transparent semi-transparent membrane and an indicator. The membrane is adhesive and can be worn on the skin to indicate exposure to UV radiation and consists of inks that change color gradually. The UV radiation sensor shows the user, such as the sunbather, when exposure to sunlight should end and / or sunscreen should be applied. In addition, the sensor can also be provided with means for receiving and absorbing a sunscreen so that the user knows when to apply additional sunscreen. Thus, the sensor shows the absorbent properties of the sunscreen on human skin by emulating the manner in which the sunscreen is absorbed by the skin. As the general degeneration through solar radiation increases, the sunscreen slowly becomes less and less effective in preventing the transmission of UV light through the membrane to the sensor indicator. Finally, the membrane gradually changes color to indicate that more sunscreen should be applied. Finally, said UV sensor is only preset for different radiation levels.

US 4,985,632 discloses an electronic watch comprising a photodiode for detecting skin damaging UVB ultraviolet tanning beam. Some of the parts of the watch interact so that the UVB radiation intensity immediately incident on the detector gives a divisible value of the UVB radiation, i.e. not UVA and UVC radiation. In addition, the watch also shows the maximum time a user can be safely exposed to UVB radiation, which, however, is calculated initially, advantageously by means of a computer.

However, the effect of the sunscreen is not taken into account.

US 5,008,548 discloses a miniaturized, portable, battery powered radimeter with a combined power and energy measurement, which provides means for determining the direction of the maximum UV source and also the measurement of the total energy, i.e. doses. The miniaturized portable device consists of an alarm upon reaching the predetermined dose set by the user. No account is taken of the effect of the sunscreen.

US 5,365,068 discloses a portable device for calculating the optimum safe SPF solar oil to be applied by the user under local environmental conditions. The user enters the skin type and the time the user wants to be under the sun. The device comprises a photovoltaic (PV) cell for self-supply and a back-up battery.

Patent application no. 0102226-8, incorporated herein by reference, by the same applicant also discloses a UV detection sensor for detecting and detecting incident UV radiation, a protective agent such as an SPC, and finally degenerating said SPC. However, the device is used to detect degeneration of the protective agent. 10 15 20 25 30 35 40 Ã Q. Brief Description of the Invention The main object of the present invention is to provide an optical detector device and the detection of incident UV radiation. which allows detection of the quality of the protective agent.

Thus, the initially mentioned optical detector device comprises at least two sensors, each connected to an electrical circuit for generating a detection signal.

One of the at least two sensors is arranged as a reference sensor and the other as an indicator sensor for application with a protective agent. Said electrical circuit is arranged to compare signals from said reference and indicator sensors and emit a signal corresponding to said properties of said protective means. The properties include at least one of the effectiveness or degeneration of said protective agent.

The device further comprises a housing for covering said sensors. The casing comprises parts consisting of areas in said casing, which are transparent to UV radiation passing through them. The parts are arranged to exhibit properties similar to a human skin by absorption, permeability, thickness, or the like.

The device also provides the amount of UV radiation. The properties are optionally arranged as a value for the accumulated total dose and / or as a real-time value.

The sensors are arranged with optical filters in such a way that incident UV radiation that passes through the parts initially hits the optical filters and then hits the sensors. The active elements are photodiodes. The optical filters are arranged for one of UVA or UVB radiation. A reference diode is blocked against incident UV radiation.

The UVA radiation has wavelengths within about 400 and 320 nm and the UVB radiation consists of wavelengths within about 320 and 280 nm.

The electrical circuit includes amplifier, analog-to-digital converter, an integrator, a switching unit, computing units, an oscillator, a memory unit, a drive unit and a display unit.

It also includes data representing different skin types. The protective agent is a sunscreen, such as a sunscreen, sunscreen or the like. The effectiveness of the protective agent consists of SPC. The device can be set for different skin types. The device comprises an alarm unit. Preferably, the device is waterproof fed with solar cells.

The invention also relates to a method for detecting and recording incident ultraviolet (UV) radiation and properties of a protective agent applied to the detector device. The method involves arranging at least two sensors each connected to an electrical circuit for generating a detection signal, one of the at least two sensors being arranged 40 n. ,. i t. 521 us; of said protective agent.

Brief Description of the Drawings In the following, the invention will be described in more detail and in a non-limiting manner with reference to the accompanying drawings, in which: Fig. 1 shows a perspective view of a preferred embodiment of the invention, Fig. 2 shows a schematic cross-sectional view. view through a UV detector, according to the invention, comprising active elements, according to a preferred embodiment of the invention.

Fig. 3 shows a wiring diagram of the sensor according to Fig. 2.

Description of Preferred Embodiments In the first preferred embodiment, as shown in Fig. 1 and a cross section in Fig. 2, an optical detector device 10 comprises five active elements 11, 12, 13, 14 and 22, which are arranged on a carrier 15 placed under an envelope 23. The active elements 11 and 13 are arranged with optical filters 16 and 18 so that an incident UV radiation passes through the optical filters 16 and 18 and then hits the active elements 11 and 13. The optical filters are intended for UVB radiation centered around about 300 nm with a full width at half the maximum of about 30 nm. The active elements 12 and 14 are arranged with optical filters 17 and 19, so that the incident UV radiation passes through the optical filters 17 and 19 and hits the active elements 12 and 14. The optical filters 17 and 19 are intended for UVA radiation and therefore consists of a bandpass filter for UVA radiation centered around 360 nm with a full half width of about 80 nm.

The element 22 is a reference diode, which is also arranged on the carrier 15.

The UV detector sensor 10 comprises the parts 20 and 21, which can be applied with a protective agent, such as a sunscreen, sunscreen or sunscreen. The parts 20 and 21 are transparent to UV radiation and thus function as a window for UV radiation. The windows 20 and 21 are arranged communicating with the active elements 11 and 12 and 13 and 14, respectively, between the incident UV radiation and the optical filters 16, 17, 18 and 19, so that the incident UV radiation passes through the parts 20 and 21 and then hits the optical filters 16, 17, 18 and 19 and but not the reference diode 22.

In addition, the windows 20 and 21 show essentially the same properties as human skin, such as in the absorption and transparency of UV radiation, the thickness of the windows 20 and 21, and so on. 10 15 20 25 30 35 40 521 0 65 ß: lï fi š- ... u The wiring diagram for the electrical device of a UV detector sensor according to Fig. 2 is shown in Fig. 3. According to this embodiment, the active elements 11, 12, 13 and 14 as well as the reference diode 22 first to the signal amplifiers 61, 62, 63, 64 and 65, respectively. Advantageously, the active elements 11, 12, 13 and 14 and the reference diode 12 are directly connected to an operational amplifier 66, 67, 68 and 69. The operational amplifiers 66 , 67, 68 and 69 are in turn connected to an ADC 70, which in turn is also connected to an integrator 71 and a computing unit 76.

In addition to the operational amplifiers 66, 67, 68 and 69, the input signal units are connected to the integrator 71, advantageously a drive unit 73 and a reset unit 74. An oscillator 45 is in turn connected to the drive unit 73.

The integrator 71 is also connected to a computing unit 75. An oscillator unit is also connected to the drive unit 73.

Furthermore, an integrator output 71 is connected to a computing unit 75. The output of the first computing unit 75 is connected to a first drive unit 81, which in turn is connected to a display unit 82. A memory unit is also connected to the first computing unit 75. A supply unit 79 is further connected to the memory unit 78.

The ADC 70 is further connected to a second computing unit 76, which is connected to a second drive unit 83 in the same manner as the first computing unit 75, which in turn is connected to the display unit 84. The computing units 75 and 76 are also connected to a memory unit 77.

The UV detection sensor 10 is adjustable for different skin types in an embodiment of the invention, i.e. the sensor 10 comprises said data unit 78 comprising data representing different skin types (mJ / cm 2), and also said input unit 79 for selecting the desired individual skin types with regard to the maximum UV radiation dose (mJ / cm 2). In an alternative embodiment, different UV detector rose sensor units 10 for different skin types with respect to the UV radiation dose (mJ / cm 2) can be provided.

The UV detector device 10 can be provided with an alarm unit, which alarms when the maximum UV radiation dose is reached (not shown in the figures). The UV detector device 10 may be provided with an RF unit 85 for wireless communication of stored data with an external computer / display unit (not shown in the figures).

The UV detector device 10 according to the embodiment of the invention operates as follows: If necessary, the UV detector device 10 is initially set for the desired skin type, as above. Then, the UV detector sensor 10 is reset. The user, such as a sunbather, applies his body and one of the windows 20 of the UV detector sensor 10 with a protective agent. 10 15 20 25 30 35 40 r: -, ¿«~ _-_:.” ._ "VI ¿'; ¿__'. L.-_ B -" ° '_.' I. First, the display unit 82 of the sensor 10 indicates substantially immediately and continuously the total UVA and UVB radiation dose by the integrator 71 and the calculation unit 75, since the measured UVA and UVB radiation of the active elements 11 and 12 is an immediate measurement of the accumulated total UVA and UVB radiation dose. The total UVA and UVB radiation dose is represented compared to the total dose for the currently selected skin type. However, it is possible to display UVA and UVB radiation as a real-time measurement, ie. it is possible to show how the incoming UV radiation varies with time.

Second, the display unit 84 of the sensor 10 indicates substantially immediately and continuously the relationship between the element 11 (UVA) and the element 13 (UVB) and the element 12 (UVA) and the element 14 (UVA), respectively, by the calculation unit 76, which ratio is the measurement of the sun protection factor. In this way, the window 20 applied with the protective agent is compared with the window 21 which is not applied with the protective agent. The degeneration of the preservative can also be obtained in such a way, as a whole value or in real time.

An alarm signal can be generated when the maximum dose of UVA and UVB radiation for the selected skin type is reached. In one embodiment, the alarm unit alerts when a predetermined value for the degeneration of SPC is reached.

The optical detector device according to the first and second preferred embodiments can be arranged as a part of a membrane, watch, button, sticker, etc., which can be worn by an individual, such as a sunbather.

The active elements 11, 12, 13, 14, and 22 are UV indicators such as photodetectors or photodiodes operating in the UV radiation range. The filters 16, 17, 18 and 19 are advantageously optical filters, which mainly only transmit specific wavelengths.

The UV detector sensor 10 is advantageously waterproof, so that they can be used when bathing, which also degenerates the sunscreen.

Wiring diagrams are not limited to the examples shown. The type and coupling of the components can be varied in various ways within the knowledge of a person skilled in the art, as long as the function of the couplings is within the teachings of the invention. the invention is not limited to the embodiments shown but can be varied in a number of different ways, for example by combining the illustrated embodiments without being removed from the scope of the appended claims, and the device and method can be implemented in different ways depending on application, functional units, needs and requirements, etc.

Claims (1)

1. 0 15 20 25 30 35 40. . =,. 1 = * "'.i - * I., .... 2 1-; N ..« _ .... V - _,,,. 1' - '1. Z. - - ~ PATENTKRAV En optical detector device (10) for detecting and detecting incident ultraviolet (UV) radiation and properties of a protective agent applied thereto, characterized in that the device comprises at least two sensors (11, 12, 13, 14, 22) each connected to an electrical circuit for generating a detection signal, one of the at least two sensors being arranged as a reference sensor (22) and the other as an indicator sensor (11, 12, 13, 14) for application with a protective means, and said electrical circuit is arranged to compare signals from said reference and indicator sensors and emit a signal corresponding to said properties of said protective means An optical detector device according to claim 1, characterized in that said properties comprise at least one of efficiency or degeneracy of said protective means. An optical detector device according to claims 1 and 2, characterized in that said device further comprises a housing (23) for covering said sensors (11, 12, 13, 14, 22). An optical detector device according to claim 3, characterized in that said housing comprises parts (20, 21) consisting of areas in said housing (23) which are transparent to UV radiation passing through them. An optical detector device according to any one of the preceding claims, characterized in that said parts (20, 21) are arranged arranged to exhibit properties similar to a human skin by absorption, permeability, thickness, or the like. An optical detector device according to claims 2 and 3, characterized in that said device further provides the amount of UV radiation. An optical detector device according to claim 1 or 6, characterized in that said properties are optionally arranged as a value for the accumulated total dose and / or as a real-time value. 10 15 20 25 30 35 40 10. 11. 12. 13. 14. 15. 16.,,. . . I '* °' - li <= - .v ',. y ... u,,, _. .i i »l i ', x, ~, .-, -: J, ~ v v' Å:,,» | 1 @: ', »,, i vf K' _ ': _» .. »f | . . -. «=; ~ «. . » An optical detector device according to any one of claims 3 to 7, characterized in that said sensors (11, 12, 13, 14, 22) are arranged with optical filters (16, 17, 18, 19) in such a way that incident UV radiation passing through the parts (20, 21) initially hits the optical filters (16, 17, 18, 19) and then hits the sensors (11, 12, 13, 14). An optical detector device according to any one of the preceding claims, characterized in that said active elements (11, 12, 13, 14, 22) are photodiodes. An optical detector device according to claim 6, characterized in that said optical filters (16, 17, 18, 19) are arranged for one of UVA or UVB radiation. An optical detector device according to any one of claims 1 to 10, characterized in that a reference diode (22) is blocked against incident UV radiation. An optical detector device according to claim 1, characterized in that the UVA radiation has wavelengths within about 400 and 320 nm and said UVB radiation consists of wavelengths within about 320 and 280 nm. An optical detector device according to claim 1, characterized in that it comprises amplifiers (61, 62, 63, 64, 65, 66, 67, 68, 69), analog-to-digital converter (70), an integrator (71), a conversion unit (74), calculation units (75, 76), an oscillator (72), memory unit (78), drive unit (73, 81, 83) and display unit (82, 84). An optical detector device according to any one of the preceding claims, comprising data representing different skin types. An optical detector device according to any one of the preceding claims, characterized in that the protective agent is a sunscreen, such as a sun control agent, sunscreen or the like. An optical detector device according to any one of the preceding claims, characterized in that the effectiveness of the protective means consists of SPC. An optical detector device according to any one of the preceding claims, characterized in that said device can be set for different skin types. An optical detector device according to any one of the preceding claims, characterized in that it comprises an alarm unit. An optical detector device according to any one of the preceding claims, characterized in that the device (10) is waterproof. An optical detector device according to any one of the preceding claims, characterized in that the device (10) is supplied with solar cell. A method for detecting and recording incident ultraviolet (UV) radiation and properties of a protective agent applied to the detector device, characterized in that arranging at least two sensors (11, 12, 13, 14, 22) each connected to an electrical circuit for generating a detection signal, one of the at least two sensors being arranged as a reference sensor (22) and the other as an indicator sensor (11, 12, 13, 14) for application with a protective means, arranging the electrical circuit to be compared signals from said reference and indicator sensors and emit a signal corresponding to said properties of said protective means.