KR200473049Y1 - Uv-index displayer - Google Patents

Abstract

The present invention relates to an apparatus for measuring and displaying an ultraviolet ray index of sunlight, comprising: a sensor unit which measures an ultraviolet ray index and outputs the current or voltage; and an ultraviolet ray index The ultraviolet ray exponent display device comprises a ultraviolet sensor part and a display part, and displays the ultraviolet ray amount detected by the sensor part in real time on the display part. The display unit is configured such that the driving motor 27 rotates the indicating needles 16 to indicate an ultraviolet ray index (1 to 11 steps) indicated on a concentric circle on the display unit 31 and an area indicated by five colors.

Description

[0001] DESCRIPTION [0002] UV-INDEX DISPLAYER [0003]

The present invention relates to an apparatus for measuring and displaying an ultraviolet ray index of sunlight, comprising: a sensor unit which measures an ultraviolet ray index and outputs the current or voltage; and an ultraviolet ray index And a display device.

The destruction of the ozone layer becomes more severe due to the pollution of the global environment, and the amount of UV-B band (280 ~ 320nm), which is harmful ultraviolet ray of sunlight, reaches to the earth surface is increasing. UV-B ultraviolet rays have a very harmful effect on people such as skin cancer and skin aging. Therefore, when the amount of ultraviolet rays increases, the need to protect the skin is increased. To this end, an ultraviolet ray index indicating device for measuring harmful ultraviolet rays and indicating the amount of harmful ultraviolet rays is required.

The present invention relates to such an ultraviolet ray exponent display device, and relates to displaying an ultraviolet ray index in a unidirectional or bi-directional manner when the ultraviolet ray index is measured and displayed outdoors, .

As a related art related to the present invention, Japanese Patent No. 811123 entitled "Outdoor ultraviolet ray exponent display apparatus" of the present applicant is shown in Figs. 1 and 2, which is an outdoor ultraviolet ray exponent display apparatus comprising a sensor unit and a display unit.

The sensor unit 10 is configured at the uppermost part of the apparatus. The sensor unit 10 displays the ultraviolet ray index of the voltage value. The ultraviolet ray index is divided into five levels, , 5). This technology has a peak that can see UV indices in all directions of 360 °. The sensor unit 10 includes an ultraviolet sensor capable of detecting the UV-B band, an amplification circuit, and a window and a case. Ultraviolet sensors are mainly made of SiC, GaN, GaP, ZnO, and Si, and output current in proportion to the amount of ultraviolet light.

Since the output current is very fine, it needs to be amplified but it is amplified by voltage or current. For this purpose, an amplifier circuit is constructed on the PCB board. The ultraviolet sensor is covered with a window and protected by a case so that ultraviolet rays can be measured easily. The window uses quartz or sapphire, and a Teflon membrane is built in front of the sensor to improve the cosine properties. The output of the sensor unit thus configured is connected to a control board for driving the LED. The control board consists of a module for changing the output of the sensor part to the ultraviolet ray index and a driving part circuit for driving the LED according to the UV index.

LEDs use high brightness so that they can be seen at long distances even during the day, and they are installed in a circular body so that they can be seen from all directions of 360 °. According to the WHO standard, the ultraviolet light index is composed of 5 stages. It is indicated in green when the UV index is 2 or less, yellow in 3 to 5, orange in 6 to 7, red in 8 to 10 and purple in 11 or more . The LED is attached to the round body and then protected by a transparent window for protection. The power source uses the AC power connected to the bottom or the side, and the driving current of the solar battery or the battery is large, which limits the use. The body is made of stainless steel or plastics as appropriate for outdoor use.

In the conventional ultraviolet ray exponent display apparatus configured as described above, when the ultraviolet ray reaches the sensor unit, a current is generated in proportion to the ultraviolet ray quantity by the ultraviolet ray sensor in the sensor unit. The generated current is amplified by the voltage or current through the amplifier circuit and output to the control board. The control board receives the amplified signal and determines the UV index based on the pre-calculated data. According to the determined ultraviolet ray index, the corresponding LED or lamp of the display device divided into 5 levels is turned on. When the ultraviolet ray index changes according to the change of ultraviolet light quantity, it changes into an LED or a lamp to be displayed accordingly. The power of the device is mainly used by the AC power source.

On the other hand, since the conventional ultraviolet ray exponent display device is composed of a high-luminance LED, it is very expensive to constitute, and since LEDs classified by colors are not precisely present, it is difficult to accurately express colors because LEDs of different colors must be mixed.

In addition, in the prior art, since only AC power is required, there is a limitation in use in an area where power is not supplied. In addition, there is a disadvantage that a separate column must be always installed for installation. There is a limit to the exact representation of the exponent.

2 shows a conventional ultraviolet ray exponent display device including a sensor unit 14 and a display unit 12. The sensor unit 14 is formed on an upper portion of the sensor unit 14, In the display unit 12, the lamp 13 is used, and the color of the cover window of the lamp 13 is made to correspond to five levels. Here, the ultraviolet ray index is displayed in only one direction. The basic structure of the sensor unit 12 and the structure of the circuit are similar to those of the conventional technology described above, except that a cover window of a different color is used instead of the LED in the display unit. In addition, the ultraviolet ray index display surface is only in one direction. The power supply must use AC power as well.

Since the ultraviolet ray index is displayed only in one direction, there is a limitation in recognizing the ultraviolet ray index, there is a disadvantage that only an AC power source is required, and there is a drawback in that power consumption is high because a high output lamp must be used.

The present invention has been made in order to solve the above problems. The object of the present invention is to provide an apparatus and a method for displaying an ultraviolet ray index in a place where it is difficult to use an AC power source and can be driven by a small power source such as sunlight or wind power, Which can display the ultraviolet ray index easily so that the ultraviolet ray index can be easily recognized.

According to an embodiment of the present invention, there is provided an ultraviolet ray exponent display apparatus including an ultraviolet ray sensor unit and a display unit and displaying ultraviolet ray amount detected by the sensor unit in real time on a display unit, the apparatus comprising: The display unit is provided with an ultraviolet ray exponent display device in which the driving motor rotates the indicating needles to indicate an ultraviolet ray exponent (1 to 11 steps) indicated on a concentric circle on the display part plate and an area indicated by a five-step color.

In a preferred embodiment of the present invention, the display unit is configured to display an ultraviolet ray index in both forward and backward directions, and the display unit is driven using a solar battery or a battery as a power source so that the display unit can be used even in a place where AC power supply is difficult.

In a preferred embodiment of the present invention, the display device uses a wireless communication module to display an ultraviolet ray index on an LED / LCD display portion apart from the display device.

In the conventional technology, there is a disadvantage in that a high-intensity LED or a lamp is used for displaying an ultraviolet ray index, which consumes a lot of power and is expensive. However, in the embodiment of the present invention, since the motor is simply driven, Cheap. In addition, since the power consumption can be reduced and the solar battery or battery can be driven, it can be used in a place where the AC power is not supplied, so that there is little restriction on the location of the UV index display device. Further, in displaying the ultraviolet ray index, the ultraviolet ray index can be confirmed because it is displayed not only in five colors but also in Arabic numerals as in the conventional method. In addition, although the conventional technique has been described only in one direction, the preferred embodiment of the present invention has the effect of improving convenience for the user by displaying in two directions.

1 is a front view showing an example of an ultraviolet ray index display device according to the prior art,
FIG. 2 is a configuration diagram of an ultraviolet ray exponent display apparatus according to still another prior art,
FIG. 3 is a block diagram of a display unit of an ultraviolet ray exponent display apparatus according to an embodiment of the present invention;
FIG. 4 is an installation view of an ultraviolet ray exponent display device according to an embodiment of the present invention;
5 is a configuration diagram of a display unit and a separate display unit of an ultraviolet ray exponent display apparatus using a wireless communication module,
6 is a cross-sectional view showing the internal structure of a display unit of an ultraviolet ray exponent display apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the ultraviolet ray exponent display apparatus according to an embodiment of the present invention includes an ultraviolet ray sensor unit 15 for detecting and amplifying the ultraviolet ray light amount and an ultraviolet ray index according to an output signal, And a display body 17 for displaying an index.

The display unit displays the 5 step colors (not represented in the drawing) and the numbers (1 to 11) separately or in parallel, corresponding to the ultraviolet ray index, according to the ultraviolet intensity. Unlike the conventional technique, in the embodiment of the present invention, the UV indicator is displayed by moving the indicator 16 like an analog watch, and the UV index is displayed in both directions as shown in FIG. 6, So that it can be seen.

In the embodiment shown in FIG. 3, the sensor unit 15 is installed at the upper end of the display unit body 17 and connected directly to the display unit to transmit the measured signals to the display unit.

AC power can be used basically for the power source to be used, but solar cell or wind power generator can be used when the use of AC power is limited. The solar cell 18 can be attached directly to the display device or can be attached to the column 19 separately using the support rods 20 as shown in Fig. In this case, the rechargeable battery for receiving and charging the output of the solar cell 18 is installed in the apparatus body.

5, the wireless communication module may be installed as shown in FIG. 5 so that the ultraviolet ray index can be displayed at a distance from the apparatus without displaying the ultraviolet ray index only on the display apparatus. A wireless transmission module similar to a ZigBee or the like is installed in the body 11 and a wireless transmission antenna 21 is formed externally and a signal is transmitted to the reception module and the wireless reception antenna 23 at a place remote from the display device And a variety of separate display devices 22 including an LED or LCD display unit 24 may be installed and operated.

A detailed structure of a display device according to a preferred embodiment of the present invention is shown in FIG. 6, wherein the sensor unit 15 detects an UV-B wavelength region without a filter using an ultraviolet sensor element based on AlGaN, The ultraviolet ray exponent was increased in accuracy.

The present invention uses a sensor protection tube as a quartz hemisphere that protects the ultraviolet sensor and roughenes the surface to help ultraviolet radiation when ultraviolet rays enter the ultraviolet sensor. Since the quartz hemisphere has a transmittance of 80% or more from ultraviolet 400nm to 200nm wavelength, it has good characteristics as a protective film for ultraviolet sensor. As the protective film, polycarbonate or Teflon may be used. Of these, Teflon exhibits the lowest ultraviolet transmittance.

In the configuration of the present invention, the sensor unit 15 includes an ultraviolet B sensor element and an amplification circuit for converting the fine current signal into a current or voltage signal. Since the sensor unit 15 is also installed outdoors, it is sealed to the body with a quartz hemisphere having a good ultraviolet transmittance to protect the sensor element from the influence of the external climate.

The display unit includes a driving control PCB board 33, a driving motor 27, and an external display device having a circuit for converting an output signal of the sensor unit 15 into an ultraviolet index display signal.

The display unit body 17 is made of PVC or metal, and the driving control PCB board 33 and the driving motor 27 are installed in the inside of the display unit body 17.

The power supply is powered by AC power or by solar cells or batteries. When the solar cell is used as the power source, the solar cell is installed directly or separately on the display unit, the output of the solar cell is connected to the rechargeable battery, and the rechargeable battery is installed in the display unit body (17).

The drive control PCB board 33 receives the ultraviolet sensor signal and drives the drive motor 27 in accordance with the increase in the signal intensity to drive the indicator needle 16 to point to the ultraviolet ray exponent region defined on the display board 31. At this time, a zero point adjusting mechanism is provided for adjusting the "0" point. This zero point adjusting mechanism is composed of an optical coupler and a thin plate (30).

The display unit 31 displays ultraviolet indices ranging from 1 to 11 in a manner similar to the number of analog timepieces, that is, in a concentric position, and is also displayed in five colors in each area. The outer plate (35) of the ultraviolet ray index display part may be made of acrylic coated with ultraviolet ray film or polycarbonate.

When the solar light is incident on the ultraviolet sensor unit 15, the photocurrent is generated in proportion to the amount of ultraviolet light in the UV-B band, and the photocurrent is amplified to the sensor PCB board 26 by the voltage. The amplified voltage is transmitted to the drive control PCB board 33 to drive the drive motor 27 in proportion to the amount of ultraviolet light as previously programmed and the indication needles 16 are rotated on both sides of the display unit, ) Of the ultraviolet ray. When the power is turned on again or the "0" point is adjusted in the middle, the zero point adjusting needle 30 is adjusted to the zero point using the zero point adjusting mechanism 28.

When a solar cell is used without using an AC power source, a voltage generated in the solar panel 18 is charged by a rechargeable battery installed in the display unit body 17 as shown in FIG.

When the display unit is used in addition to the main body display unit, the ultraviolet ray holding quantity is transmitted using the transmitting module and the wireless transmitting antenna 21 as shown in FIG. 5, and the wireless receiving antenna 23 of the display unit body 22 is separately provided. And the module is used to display the ultraviolet ray index by LED or LCD.

15: ultraviolet sensor part 16: indicating needle
17: display body 18: solar panel
19: Mounting pillar 20: Solar panel support
21: radio transmission antenna 22: separate display body
23: wireless reception antenna 24: LED / LCD display
25: ultraviolet sensor part 26: sensor part PCB board
27: drive motor 28: zero point adjustment mechanism
30: Zero adjustment mechanism 31: Display board
32: Electrical connection line 33: Driving control PCB board
35: outer plate of display portion

Claims (4)

1. An ultraviolet ray exponent display device comprising an ultraviolet ray sensor part (15) and a display part, and displaying the ultraviolet ray amount sensed by the sensor part (15) on a display part in real time;
The display unit displays the ultraviolet ray index (1 to 11 steps) indicated on the concentric circle on the display board 31 by rotating the indicating needle 16 by the driving motor 27 and the area indicated by the five- And an index of the ultraviolet ray exponent is displayed. delete delete delete

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