JP2003344266A - Light source for analyzer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To keep the luminescence of a light emitting element constant and easily detect the life of the light emitting element. <P>SOLUTION: A light source 1 for an analyzer is installed or mounted on the analyzer and emits light to a test object installed on a test object installation unit 10. The light source 1 comprises a light emitting element 2, a light receiving element 3, a guide means (half mirror) 4, a current adjusting means 5 for adjusting an amount of current supplied to the light emitting element 2, and a monitor terminal 9. The current adjusting means 5 comprises a current/voltage converter circuit 6, an error amplifier 7 and a transistor 8. When an amount of light received by the light receiving element 3 decreases, the error amplifier 7 outputs more difference voltage Vs, thereby increasing current Ie supplied to the light emitting element 2. Therefore, the luminescence of the light emitting element 2 is kept constant. The monitor terminal 9 detects (monitors) the current Ie. When the current Ie increases to a certain point, it is determined that the life of the light emitting element 2 ends (time for replacement). <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light source for an analyzer, which is installed in various analyzers and projects light onto an inspection object.

[0002]

2. Description of the Related Art As an analyzer, an apparatus is known which optically reads and analyzes the turbidity of a sample (liquid). The light emitting / receiving unit of this analyzer includes a light emitting element for projecting light onto the sample and a light receiving element, and the sample contained in a light-transmissive container is placed between the light emitting element and the light receiving element. The light transmitted from the light emitting element through the sample is received by the light receiving element, the amount of the received light is photoelectrically converted, and the light transmittance of the sample is detected.

By the way, an inexpensive light emitting diode is often used as a light emitting element in the light emitting / receiving section of such an analyzer, but the brightness (emission light amount) is reduced due to the temperature coefficient of the light emitting diode, deterioration over time, and the like. , It may adversely affect the analysis result. Therefore, it is possible to provide a constant current circuit in the power supply circuit to the light emitting diode to keep the brightness constant, but even in this case, it is possible to know the degree of deterioration of the light emitting element, that is, the life (replacement time). There is a problem that you cannot do it. Continued use of a deteriorated light emitting element causes an adverse effect such as increased power consumption.

[0004]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a light source for an analyzer which can keep the brightness of a light emitting element constant and can easily know the life (replacement time) of the light emitting element. is there.

[0005]

The above objects are achieved by the present invention described in (1) to (9) below.

(1) Installed or mounted on an analyzer,
A light source for an analyzer for projecting light onto an inspection object,
A light emitting element, a light receiving element, a light guide means provided on the front side of the light emitting element, for guiding a part of the light emitted from the light emitting element to the light receiving element, and keeping the brightness of the light emitting element constant. As described above, the light source for an analyzer, comprising: current adjusting means for adjusting a current to the light emitting element according to an output of the light receiving element; and a monitor terminal for monitoring a current or a voltage to the light emitting element.

(2) The current adjusting means converts a current output from the light receiving element into a voltage, and an error in which the output from the current / voltage converting circuit is one input. The light source for an analyzer according to (1) above, which comprises an amplifier.

(3) The light source for an analyzer according to the above (2), wherein the current adjusting means has a transistor whose base voltage is the output of the error amplifier.

(4) The light source for an analyzer according to any one of the above (1) to (3), wherein the light guiding means is an optical element that splits incident light into transmitted light and reflected light.

(5) The light source for an analyzer according to (4), wherein the light receiving element mainly receives the reflected light from the optical element.

(6) The light source for an analyzer according to any one of (1) to (5), wherein the light emitting element is a light emitting diode.

(7) A current or a voltage is detected at the monitor terminal, and when the current or the voltage exceeds a predetermined threshold value, it is recognized that the light emitting element is at the end of its life. ) A light source for an analyzer according to any one of (1) to (4).

(8) The light source for an analyzer according to any one of the above (1) to (7), which has a notifying means for notifying that the light emitting element has reached the end of its life.

(9) The light source for an analyzer according to the above (8), wherein the notifying means notifies by turning on a pilot lamp.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION The light source for an analyzer of the present invention will be described below in detail with reference to the preferred embodiments shown in the accompanying drawings.

FIG. 1 is a circuit diagram showing an embodiment of a light source for an analyzer according to the present invention. Light source 1 for analyzer shown in FIG.
Is a light source for an analyzer, which is installed or attached to the analyzer and projects light onto an inspection target (sample). here,
The analysis method and analysis items (analysis contents) of the analysis device are not particularly limited.

As shown in FIG. 1, the light source 1 for an analyzer is
A light emitting element 2, a light receiving element 3, a light guiding means 4, a current adjusting means 5 for adjusting a current (driving current) to the light emitting element 2,
A monitor terminal 9 for monitoring current or voltage (output) to the light emitting element 2 is provided.

The light emitting element 2 is preferably composed of a light emitting diode, and the light guiding means 4 is installed on the front side (right side in FIG. 1) thereof. The light guide unit 4 in the present embodiment uses a half mirror (beam splitter) as an optical element that splits incident light into transmitted light and reflected light.

On the front side of the light emitting element 2, a sample setting section 10 and a light receiving element (for collecting analysis data) 11 are provided. In the sample setting unit 10, for example, a sample (liquid, gel, etc.) contained in a container having light transmittance is set.

Light emitted from the light emitting element 2 in the front direction (to the right in FIG. 1) passes through the light guide means (half mirror) 4 and further passes through the sample set in the sample setting section 10. The light is received by the light receiving element 11. When the brightness of the light emitting element 2 (amount of emitted light) is constant, the amount of received light at the light receiving element 11 changes according to the turbidity of the sample. Therefore, the amount of light received at the light receiving element 11, that is, the photoelectrically converted voltage (the amount of received light) It becomes possible to know the turbidity of the sample.

The light receiving element 3, which is preferably a photodiode, photoelectrically converts the received light and outputs a current according to the amount of received light.

A part of the light emitted from the light emitting element 2 in the front direction is reflected by the light guide means (half mirror) 4, and the optical path is bent substantially at a right angle. The reflected light reflected by the light guide means 4 is received by the light receiving element 3. The light receiving element 3 outputs a current according to the amount of received light.

The current adjusting means 5 has a function of adjusting the current to the light emitting element 2 according to the output of the light receiving element 3 so as to keep the brightness (light emission amount) of the light emitting element 2 constant. A current / voltage conversion circuit (opamp) 6 for converting the current output from the element 3 into a voltage, and an error amplifier (differential amplifier) 7 having the output from the current / voltage conversion circuit 6 as one input , A transistor 8 using the output of the error amplifier 7 as a base voltage.

The current output from the light receiving element 3 is
The voltage is converted into a voltage by the voltage conversion circuit 6 and input to one input terminal of an error amplifier (differential amplifier) 7. The reference voltage V _C2 is input to the other input terminal of the error amplifier 7. The reference voltage V _C2 can be set to, for example, about 1 to 10V. The error amplifier 7 outputs a voltage corresponding to the difference between the output voltage from the current / voltage conversion circuit 6 and the reference voltage V _C2, and this output voltage is applied to the base 81 of the transistor 8.

Further, a driving voltage V _C1 for driving (emits) the light emitting element 2 is applied to one terminal of the light emitting element 2 via the resistor R2. The drive voltage V _C1 can be set to, for example, about 5 to 24V. The other terminal of the light emitting element 2 is connected to the collector 82 of the transistor 8.

The emitter 83 of the transistor 8 has a resistor R
1 to ground. Emitter 83
Between the resistor R1 and the resistor R1, a monitor terminal 9 for monitoring (detecting) the output voltage (emitter voltage or current) from the emitter 83, that is, the current Ie to the light emitting element 2 is provided.

When a predetermined drive voltage V _C1 is applied to obtain the target brightness (appropriate brightness), the light emitting element 2 emits light.
A part of the light emitted from the light emitting element 2 is guided to the light receiving element 3 by the light guide means (half mirror) 4, and the light receiving element 3 responds to the received light amount (proportional to the luminance of the light emitting element 2). Current is output. This current is converted into a voltage by the current / voltage conversion circuit 6 and then compared with the reference voltage V _{C2 by the} error amplifier 7, and the difference voltage Vs is compared with the reference voltage V _C2.
Applied to the base 81 of the.

Here, for example, when the light emitting element 2 is deteriorated (especially with time) and the brightness of the light emitting element 2 is lowered due to this, the amount of light received by the light receiving element 3 is also reduced, and the current / voltage is reduced. The output voltage from the conversion circuit 6 also decreases.
As a result, the differential voltage Vs applied to the base 81 of the transistor 8 increases and the current Ie to the light emitting element 2 increases, so that the brightness of the light emitting element 2 increases (recovers). As the brightness of the light emitting element 2 increases, the amount of light received by the light receiving element 3 increases accordingly, the output voltage from the current / voltage conversion circuit 6 increases, and the voltage (current) Vs to the base 81 increases. Stops and converges to a certain value, so that the brightness of the light emitting element 2 becomes stable. In this way, the brightness of the light emitting element 2 is kept constant.

The monitor terminal 9 detects (monitors) the current Ie constantly or at a predetermined time. As described above, the brightness of the light emitting element 2 is kept constant, but when the light emitting element 2 deteriorates, the current Ie increases. Therefore, the current I
By monitoring e, the degree of deterioration of the light emitting element 2, that is, the life of the light emitting element 2 (replacement time) can be known. For example, when the current Ie exceeds a predetermined value (threshold value), it can be recognized that the light emitting element 2 has reached the end of its life and needs to be replaced.

FIG. 2 is a circuit diagram showing an example of the configuration of an informing means for informing the life of the light emitting element. The notification means 12 is composed of a comparator (comparator) 13 and a pilot lamp 14. The pilot lamp 14 is composed of a light emitting element such as a light emitting diode.

Current Ie output from monitor terminal 9
Is input to one input terminal of the comparator 13.
The reference current I _{C3 serving as} a threshold value is input to the other input terminal of the comparator 13.

In the comparator 13, the input current I
e and the reference current I _C3 are compared, and the current Ie is the reference current I
_{When C3} or less, a Low signal (zero) is output, and when the current Ie exceeds the reference current I _C3 , a Hi signal is output.
These signals (Low signal or Hi signal) are input (applied) to the pilot lamp 14. When the Low signal is output from the comparator 13,
The pilot lamp 14 does not light up, and when the Hi signal is output, the pilot lamp 14 lights up (emits light). It can be seen that the lighting of the pilot lamp 14 causes the light emitting element 2 to reach the end of its life and needs to be replaced.

The monitor terminal 9 and the resistor R1 in FIG. 1 constitute a current (or voltage) detection circuit. The specific circuit configuration of this current (or voltage) detection circuit is as shown in the figure. However, it is not limited to the above, and any one can be used as long as it can detect a current (or voltage).

For example, the monitor terminal 9 has a voltage (Ve)
May be detected. In this case, the notification means 12 may be configured to compare the detected voltage Ve with the reference voltage V _C3 and output a Low signal or a Hi signal according to the result.

Further, the monitor terminal 9 as in the present embodiment
Is configured to monitor the current Ie, this current Ie
e is converted to a voltage Ve, and a comparator 13 similar to the above is used.
Thus, the voltage Ve and the reference voltage V _C3 are compared with each other, and the Low signal or the Hi signal is output according to the result.

It goes without saying that the notification by the notification means 12 as described above is not limited to the lighting of the pilot lamp 14. Further, the light source for an analyzer of the present invention may not have such a notification means.

Although the light source for the analyzer of the present invention has been described with reference to the illustrated embodiment, the present invention is not limited to this, and each unit constituting the light source for the analyzer exhibits the same function. It can be replaced with any possible configuration. Moreover, you may add the thing of arbitrary structures.

For example, a reflector (reflector) may be provided so as to cover the rear and side portions of the light emitting element 2 in order to improve the light utilization efficiency. The light guide means may have a lens (condensing lens), a prism, an optical fiber, or the like.

[0039]

As described above, according to the present invention, the brightness of the light emitting element can be kept constant, and
It is possible to easily know the degree of deterioration of the light emitting element, particularly the life of the light emitting element (replacement time). As a result, it also contributes to energy saving.

Further, such an effect can be obtained with a simple structure and inexpensive parts, which contributes to cost reduction.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of a light source for an analyzer of the present invention.

FIG. 2 is a circuit diagram showing a configuration example of an informing means for informing the life of the light emitting element.

[Explanation of symbols]

1 Light source for analyzer 2 light emitting element 3 Light receiving element 4 Light guiding means 5 Current adjustment means 6 Current / voltage converter 7 Error amplifier 8 transistors 81 base 82 collectors 83 Emitter 9 Monitor terminal 10 Sample setting section 11 Light receiving element 12 Notification means 13 Comparator 14 pilot lamp

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Kyoyuki Yoshimura             6-22-1, Mure, Mitaka City, Tokyo Aloka             Within the corporation F term (reference) 2G059 AA01 BB04 CC19 EE01 GG02                       GG05 JJ22 KK03 MM05 NN05                       PP02

Claims (9)

[Claims] 1. A light source for an analytical device, which is installed or attached to an analytical device and projects light onto an inspection object, comprising: a light emitting element, a light receiving element, and a light emitting element provided in front of the light emitting element. A light guiding means for guiding a part of the light emitted from the element to the light receiving element, and a current for adjusting the current to the light emitting element according to the output of the light receiving element so as to keep the brightness of the light emitting element constant A light source for an analyzer, comprising: an adjusting unit; and a monitor terminal for monitoring a current or a voltage to the light emitting element. 2. The current adjusting means converts a current output from the light receiving element into a voltage, and an error amplifier having one input of an output from the current / voltage converting circuit. The light source for an analyzer according to claim 1, further comprising: 3. The current adjusting means has a transistor whose base voltage is the output of the error amplifier.
A light source for an analyzer according to item 1. 4. The light source for an analyzer according to claim 1, wherein the light guide means is an optical element that splits incident light into transmitted light and reflected light. 5. The light source for an analyzer according to claim 4, wherein the light receiving element mainly receives the reflected light from the optical element. 6. The light source for an analyzer according to claim 1, wherein the light emitting element is a light emitting diode. 7. The current or voltage is detected at the monitor terminal, and when the current or voltage exceeds a predetermined threshold value, it is recognized that the light emitting element has reached the end of its life.
7. The light source for analytical device according to any one of 6 to 6. 8. The light source for an analyzer according to claim 1, further comprising a notification means for reporting that the light emitting element has reached the end of its life. 9. The light source for an analyzer according to claim 8, wherein the notifying means notifies by turning on a pilot lamp.