JPH10270175A - Fluorescent lamp illuminator with remote control function and infrared remote controller used in it - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fluorescent lamp illuminator with a remote control function so that a remote controller can be surely operated even when the remote controller is operated immediately after the fluorescent lamp is lighted or at the time of low temperature. SOLUTION: A fluorescent lamp illuminator 1 with a remote control function includes a receiver 4 attached to an illuminator main body 3 having a fluorescent lamp 2 as a light source, and also includes a transmitter 5 provided in the receiver 4 for the purpose of transmitting infrared rays. In this case, the transmitter 5 is so constituted as to transmit infrared rays having a luminescence center wavelength of 870 to 890 nm, and a light reception window of the receiver 4 is provided with an optical filter for mostly intercepting light having a wavelength other than that of 860 to 900 nm.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a fluorescent lighting device with a remote control function and an infrared remote control device used therefor.

[0002]

2. Description of the Related Art A conventional infrared remote control device used for a fluorescent lighting device with a remote control function has an emission center wavelength of 950 nm.
The transmitting device includes a GaAs LED that emits m infrared rays, and a receiving device disposed inside the lighting device. An optical filter that blocks light other than 950 ± 20 nm is provided on the light receiving surface of the receiving device so that infrared light from the transmitting device can be effectively received. The light transmission region of the optical filter has a half-value width of ± 20 n even if it has high accuracy.
m, the receiving apparatus receives light of 930 to 970 nm.

On the other hand, as shown in FIGS. 3 and 4, light generated from a fluorescent lamp mainly has a spectrum of Ar, Hg, etc.
In particular, as shown in FIG. 3, the light output is large immediately after lighting or at a low temperature. In the conventional device, when the remote control is operated immediately after lighting or at a low temperature, the optical noise of the fluorescent lamp,
Under the influence of optical noise having a light emission center wavelength around 6 nm, there is a problem that an operation failure of the remote control device (operation failure such as no operation at all or a short reach distance) occurs. In recent years, fluorescent lamps having a small tube diameter and twice the brightness of conventional fluorescent lamps have been developed, and specifications required for remote control devices have become stricter than ever.

[0004]

SUMMARY OF THE INVENTION Accordingly, the present invention provides a fluorescent lamp illuminating device with a remote control function that can reliably operate a remote control even when the remote control is operated immediately after the fluorescent lamp is turned on or at a low temperature. It is a main object to provide an infrared remote control device used therefor.

[0005]

A fluorescent lamp lighting apparatus with a remote control function according to the present invention has a receiving device mounted on a main body of a lighting device using a fluorescent lamp as a light source, and a transmitting device for transmitting infrared rays to the receiving device. In the fluorescent lighting device with remote control function provided with the device, the transmitting device has an emission center wavelength of 870.
It is configured to transmit infrared rays of up to 890 nm, and the receiving device is provided with an optical filter in a light receiving window that substantially blocks light having a wavelength other than 860 to 900 nm.

A remote control device for a fluorescent lamp illuminating device according to the present invention comprises a receiving device mounted on a main body of an illuminating device using a fluorescent lamp as a light source, and a transmitting device for transmitting infrared rays to the receiving device. In a remote control device for a lamp lighting device, the transmitting device transmits infrared light having a light emission center wavelength of 870 to 890 nm, and the receiving device has an optical window for substantially blocking light having a wavelength other than 860 to 900 nm. It is characterized by having a filter.

[0007]

Embodiments of the present invention will be described below with reference to the drawings. Fluorescent lighting device 1 with remote control function
As shown in FIG. 1, a main body 3 of a lighting device provided with a fluorescent lamp 2 and a remote control receiving device 4 built in the main body 3
And a remote control transmitting device 5 for transmitting infrared rays to the remote control receiving device 4. The remote control receiving device 4 and the remote control transmitting device 5 constitute an infrared remote control device 6.

The infrared remote controller 6 will be described with reference to FIG. First, the remote control transmitting device 5 is configured to transmit infrared light having a light emission center wavelength of 870 to 890 nm.
An infrared light emitting diode mainly made of 80 nm GaAlAs, that is, a GaAlAs infrared LED 51 is mounted. In the GaAlAs infrared LED 51, the emission center wavelength slightly fluctuates depending on the temperature, but even if it fluctuates, the emission center wavelength falls within the range of 870 to 890 nm. In addition to the infrared LED 51, the transmitting device 5 is a GaAl
A drive circuit 52 for driving the As infrared LED 51 to transmit a signal of a predetermined format, an operation switch 53 for performing operations such as turning on / off the fluorescent lamp 2 and the like are provided. The GaAlAs infrared LED 51 employs a double heterostructure or the like to provide a conventional GaAs infrared LED.
Compared to ED (about optical output P _O = 12 mW), it is possible to increase the light output (light output P _O = about 20mW is obtained) makes it possible to increase also the S / N ratio by increasing the transmission output, The remote control operating characteristics can be greatly improved.

In the remote control receiver 4, a light receiving element 43 such as a photodiode is disposed in a shield case 42 having a light receiving window 41 as desired in the light receiving window 41,
The light receiving window 41 is provided with an optical filter 44 for substantially blocking light having a wavelength other than 860 to 900 nm. In the receiving device 4, a reception processing circuit 45 for electrically processing a received output signal of the LED 51 is disposed inside the shield case 42, and the reception processing circuit 45 is disposed outside the shield case 42. May be.

The receiving device 4 is used by being mounted on a predetermined position of the lighting device main body 3 so that the transmission from the transmitting device 5 can be received through the light receiving window 41. By using the lighting device main body 3 incorporating the receiving device 4 together with the transmitting device 5, the lighting device 1 having the remote control function is provided.
Can be configured.

By configuring the lighting device 1 with the infrared remote control device 6 as described above, the operation characteristics of the remote control for the lighting device 1 can be stabilized. That is, immediately after the fluorescent lamp 2 is turned on or in a state where the ambient temperature is low (see FIG. 3), there is more light noise from the fluorescent lamp 2 than in a steady state (see FIG. 4). Since the wavelength of the light to be transmitted is set to 870 to 890 nm, and the wavelength of the light to be received by the receiving device 4 is set to 860 to 900 nm, as is clear from FIGS. In addition, remote control transmission and reception can be performed using a wavelength range of 860 to 900 nm, which hardly occurs even at low temperatures. As a result, not only at room temperature, but also under specific conditions in which light noise from the fluorescent lamp 2 is large, such as immediately after the fluorescent lamp 2 is turned on or in a low temperature state.
Remote control transmission / reception can be performed almost without being affected by light noise from the fluorescent light 2, and the occurrence of malfunctions due to the light noise of the fluorescent light 2 is greatly reduced. Remote control operability can be greatly improved.

[0012]

As described above, the fluorescent lamp lighting apparatus with a remote control function of the present invention has a receiving device mounted on a main body of a lighting device using a fluorescent lamp as a light source, and a transmitting device for transmitting infrared rays to the receiving device. In the fluorescent lighting device with a remote control function provided with the device, the transmitting device has an emission center wavelength of 870 to 870.
890 nm infrared light is transmitted, the receiving device is provided with an optical filter for substantially blocking light having a wavelength other than 860 to 900 nm in a light receiving window, and a remote control for a fluorescent lighting device of the present invention is provided. The device is a remote control device for a fluorescent lamp illuminating device including a receiving device mounted on a main body of an illuminating device using a fluorescent lamp as a light source, and a transmitting device for transmitting infrared rays to the receiving device. The infrared ray having a central emission wavelength of 870 to 890 nm is transmitted, and the receiving device has a wavelength of 860 to 900 n in a light receiving window.
Since the optical filter is provided with an optical filter that substantially blocks light other than light, a wavelength range in which optical noise hardly occurs even when a remote control operation is performed immediately after lighting of a fluorescent lamp with much optical noise or at a low temperature is 860 to 900 nm. Remote control transmission and reception can be performed using the wavelength region, and the remote control operation of the lighting device can be reliably performed without being substantially affected by the optical noise of the fluorescent lamp. Therefore, the operability of the remote control of the lighting device can be improved.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing one embodiment of a fluorescent lamp lighting device with a remote control function of the present invention.

FIG. 2 is a partially cutaway front view showing one embodiment of the infrared remote controller of the present invention.

FIG. 3 is a (low temperature) characteristic diagram of wavelength-light output of a fluorescent lamp.

FIG. 4 is a characteristic diagram of wavelength-light output (normal temperature) of a fluorescent lamp.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Fluorescent lamp illumination device with remote control function 2 Fluorescent lamp 3 Illumination device main body 4 Remote control receiving device 5 Remote control transmitting device 6 Infrared remote control device 41 Light receiving window 42 Shield case 43 Light receiving element 44 Optical filter 45 Reception processing circuit 51 Infrared light emitting diode 52 drive circuit

Claims (2)

[Claims] 1. A fluorescent lighting device with a remote control function, comprising: a receiving device mounted on a main body of an illuminating device using a fluorescent lamp as a light source; and a transmitting device for transmitting infrared rays to the receiving device. Means that the emission center wavelength is 870 to 8
A fluorescent lamp illuminating device with a remote control function, characterized in that it is configured to transmit 90-nm infrared light, and the receiving device includes an optical filter in a light-receiving window that substantially blocks light having a wavelength other than 860 to 900 nm. 2. A remote control device for a fluorescent lamp illuminating device, comprising: a receiving device mounted on a main body of an illuminating device using a fluorescent lamp as a light source; and a transmitting device for transmitting infrared rays to the receiving device. Means that the emission center wavelength is 870 to 890
An infrared remote controller for a fluorescent lighting device, characterized in that it is configured to transmit infrared light of nm, and the receiving device is provided with an optical filter in a light receiving window that substantially blocks light having a wavelength other than 860 to 900 nm.