KR101327691B1 - Microscope - Google Patents

Abstract

The present invention relates to a microscope, the illumination is turned on in close proximity to the eyepiece for observation of the microscope to operate the power saving.
That is, in the microscope, in the microscope, the solar cell provided on one side of the microscope body, the LED lamp and the observer provided in the dimming unit detects when the eyepiece is close to the eyepiece for sample observation, the eyepiece observation so that the LED lamp is turned on It is provided with a sensing light means.
Accordingly, the present invention is provided with an LED lamp in the light control unit and the eyepiece detection and lighting means to minimize the power consumption by the LED lamp of the light control unit is turned on when the observer observes the sample through the eyepiece. It is possible to smoothly observe the sample with electricity alone.

Description

Microscope

The present invention relates to a microscope, and more particularly, to a microscope, including a solar cell and an eyepiece detecting and lighting means, so that the illumination is turned on when the eyepiece is approached for microscopic observation so as to save power. .

In general, a microscope is to allow the viewer to see the magnification at a high magnification.

The microscope as described above is provided with a pedestal provided at the lower part of the microscope body, a sample stand installed at the center of the microscope body and the sample is placed thereon, a lens unit installed at the upper part of the microscope body and allowing the observer to enlarge the sample and It is provided on the upper surface of the seat is composed of a light control unit for irradiating light from the lower portion of the sample table.

On the other hand, the lens unit is composed of an objective lens provided on the sample side to high magnification of the image, and an eyepiece lens provided to be inclined toward the observer side so that the viewer can see the image of the sample enlarged by the objective lens.

The conventional microscope provided as described above is to put a slide plate provided with a sample on the sample stage and focus on the sample to observe the sample, and to illuminate the light control unit provided at the bottom to observe the sample on the sample stage.

The microscope as described above has a problem in that it is impossible to observe a sample unless a power source is provided for the lighting operation of the lighting unit. Thus, a microscope has been developed and used to illuminate the lighting unit using a solar cell.

However, the microscope having a conventional solar cell as described above is configured so that the lighting of the light control unit is turned on even when the user does not observe the sample through the eyepiece, so that power consumption is fast and sufficient power is supplied to observe the sample. There is a problem that does not fall, its use is limited and there is a problem to provide a separate external power source.

Thus, in the present invention, as described above, the microscope having a conventional solar cell is simply not sufficient as the main power source of the light control unit, and its use is limited, and a separate external power source is provided, and the lighting of the light control unit is not substantially observed. There was a problem causing power loss, not always made.

That is, in the microscope, in the microscope, the solar cell provided on one side of the microscope body, the LED lamp and the observer provided in the dimming unit detects when the eyepiece is close to the eyepiece for sample observation, the eyepiece observation so that the LED lamp is turned on It is provided with a sensing light means.

Accordingly, the present invention is provided with an LED lamp in the light control unit and the eyepiece detection and lighting means to minimize the power consumption by the LED lamp of the light control unit is turned on when the observer observes the sample through the eyepiece. It is possible to smoothly observe the sample with electricity alone.

1 is a perspective view showing an embodiment according to the present invention.
Figure 2 is a side shave showing an embodiment according to the present invention.
3 is a circuit diagram showing an embodiment according to the present invention.
Figure 4 is a perspective view of the other embodiment according to the present invention is provided with a peripheral illumination detection means.
5 is a schematic diagram of the main circuit according to FIG.
Figure 6 is a perspective view showing a condensing supply means according to another embodiment of the present invention.
7 is a main circuit diagram according to FIG.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to enable the observation of the sample by the solar cell is a low power generation without supply of external power.

That is, the present invention, as shown in Figure 1 and 2, the seat 210 is provided in the lower portion of the microscope body, the sample stage 220 is installed on the center of the microscope body and the sample is placed, the upper portion of the microscope body It is installed in the lens unit consisting of the objective lens and eyepiece 230 and the observer to enlarge the sample to view, the light control unit provided on the upper surface of the seat 210 to irradiate light from the lower portion of the sample stage 220 ( In a microscope composed of 240); The solar cell 110 is provided on one side of the microscope body to generate electricity by ambient light, the secondary battery 150 storing electricity generated by the solar cell 110, and the dimming part 240. LED lamp 130 that is turned on by the power supplied from the secondary battery 150 and the observer detects when the eyepiece 230 is close for the sample observation, the electricity of the secondary battery 150 is the LED lamp 130 It is provided with the eyepiece observation detection lighting means to control the lighting to supply.

Here, the eyepiece observation detection light means is an eyepiece approach detection means 120 for detecting the observer approaching the eyepiece 230 as shown in Figure 3, the detection signal input from the eyepiece approach detection means 120 By the dimming lighting control unit 140 to control the power supply to the LED lamp 130 by.

The eyepiece approach detecting means 120 is an eyepiece approach provided at the top of the lens side of the eyepiece so that the ultrasonic sensor provided on one side of the eyepiece, the infrared sensor and the observer's eyes can be detected when contacting the eyepiece. Any one of the sensing switches can be selected and configured.

On the other hand, in the practice of the present invention, as shown in Figure 4 and 5 can be carried out with a peripheral illuminance detection means for displaying whether the ambient illuminance is sufficient illuminance for power generation by the solar cell 110. It is.

The peripheral illuminance detection means detects an ambient illuminance sensor 151 for detecting an ambient illuminance and an illuminance signal input through the peripheral illuminance sensor 151 to detect and compare the illuminance display lamp having three colors of red, green, and yellow ( 153 may be configured by the illuminance notification control unit 152 for controlling selection lighting.

Here, the illuminance notification control unit 152 causes the green light to be turned on when the illuminance signal input through the peripheral illuminance sensor 151 is sufficient for generation of the solar cell 110, and when the generation of the solar cell is not sufficient. The yellow is to be turned on, when the power generation of the solar cell 110 is not possible to turn on the red.

In addition, in the practice of the present invention, as shown in Figure 6 it can be carried out with a condensing supply means for collecting the surrounding light to the dimming unit 240 and irradiated.

Here, the condensing supply means includes a condensing plate 161 provided on an upper portion of the pedestal 210, a condensing irradiator 163 provided on the LED lamp 130 side of the light control unit 240, and the condensing plate 161. It can be configured by the light tube body 162 for transferring the collected light to the light condensing irradiator 163.

Meanwhile, in the embodiment of the present invention, as shown in FIG. 7, the light is supplied to the light dimming unit 240 by the light condensing supply unit and the illuminance is sensed by the LED lamp 130. It is provided with a dimming light intensity sensor 170 to reduce power consumption by maintaining only the appropriate illuminance, according to the illuminance signal input from the dimming light intensity sensor 170 is the dimming light control unit 140 of the LED lamp 130 It can be configured to adjust the brightness.

Hereinafter, the operation of the present invention will be described.

In the microscope as described above, the solar cell 110 is provided on one side of the microscope body to generate power by the ambient light, the secondary battery 150 for storing the generated electricity to the solar cell 110, The LED lamp 130 and the observer provided in the dimming part 240 and turned on by the power supplied from the secondary battery 150 sense when the eyepiece 230 approaches the sample for observation of the secondary battery 150. And eyepiece detection and lighting means for controlling the electricity supplied to the LED lamp 130 to be turned on, wherein the eyepiece detection and lighting means is eyepiece approach detection means 120 for detecting the observer approaching the eyepiece 230; By using the microscope to which the present invention is configured by the dimming light control unit 140 for controlling the power supply to the LED lamp 130 by the detection signal input from the eyepiece approach detecting means 120, the observer eyepiece for sample observation Eye in lens 230 When accessed, the eyepiece approach detecting means 120 detects it and applies the detected signal to the dimming lighting control unit 140.

The dimming lamp control unit 140 receives the eyepiece approach detection signal from the eyepiece approach detecting unit 120, the dimming unit 240 is turned on by supplying the rechargeable battery 150 to the LED lamp 130. Thus, the light which can observe the sample is irradiated to the sample stage 220, so that the sample can be observed.

Further, in another embodiment of the present invention, the peripheral illuminance detection means for displaying whether or not the ambient illuminance is enough illumination for the power generation by the solar cell 110, the peripheral illuminance detection notification means is to measure the ambient illuminance The illuminance notification control unit for comparing and detecting the ambient illuminance sensor 151 and the illuminance signal inputted through the peripheral illuminance sensor 151 to select and illuminate the illuminance display lamp 153 composed of three colors of red, green, and yellow. 152, the peripheral illumination sensor 151 detects the illuminance of the place where the microscope to which the present invention is applied is applied to the illuminance notification control unit 152 and the current illuminance through the illuminance display lamp 153. The observer recognizes that the state is sufficient for the development of the solar cell 110 so that the microscope can be moved when the ambient light is not sufficient, so that the secondary battery 150 of the solar cell 110 can be moved. The entire state is capable of maintaining a sufficient condition.

On the other hand, it is possible to determine whether the place where the flowers are located by the control of the roughness detection means is a place where sufficient illumination is secured for the growth of the flowers.

In addition, in the practice of the present invention, the light collecting unit 240 is provided with a light collecting means for collecting and irradiating the surrounding light, the light collecting unit is a light collecting plate 161 is provided on the top of the pedestal 210 And a light condensing irradiator 163 provided on the LED lamp 130 side of the light control unit 240, and an optical tube body 162 for transmitting the light condensed on the light condensing plate 161 to the light condensing irradiator 163. In this case, the surrounding light may be utilized, and the dimming unit illuminance sensor 170 is provided at the dimming unit 240, and according to the amount of light supplied to the dimming unit 240 through the condensing supply unit, the LED lamp may be used. The brightness of the 130 can be adjusted to minimize power consumption.

110: solar cell
120: safety approach means
130: LED lamp
140: dimming light control unit
150: secondary battery
151: Ambient light sensor 152: Illumination alarm control unit 153: Illuminance display lamp
161: light collecting plate 162: light tube body 163: light collecting unit
170: Illumination Ambient Light Sensor
210: left arm 220: sample stand
230: eyepiece 240: light control unit

Claims (4)

A seat 210 provided at the bottom of the microscope body, a sample stand 220 installed at the center of the microscope body, and a sample being placed thereon, and an objective lens installed at the top of the microscope body to allow the observer to enlarge the sample. In the microscope consisting of a lens unit consisting of the eyepiece 230, and a light control unit 240 provided on the upper surface of the pedestal 210 to irradiate light from the lower portion of the sample stage 220;
The solar cell 110 is provided on one side of the microscope body to generate electricity by ambient light, the secondary battery 150 storing electricity generated by the solar cell 110, and the dimming part 240. LED lamp 130 that is turned on by the power supplied from the secondary battery 150 and the observer detects when the eyepiece 230 is close for the sample observation, the electricity of the secondary battery 150 is the LED lamp 130 Eyepiece detection and lighting means for controlling the supply to turn on;
The eyepiece observation lighting means means the eyepiece approach detection means 120 for the observer to approach the eyepiece 230 and the power to the LED lamp 130 by the detection signal input from the eyepiece access detection means 120. It is composed of a dimming light control unit 140 for controlling the supply;

It is provided with a light converging supply means for irradiating by collecting light around the dimming unit 240, the light converging supply means is a light collecting plate 161 is provided on the top of the pedestal 210 and the LED of the light control unit 240 A light condensing irradiator 163 provided on the lamp 130 side, and an optical tube body 162 for transmitting the light condensed on the light condensing plate 161 to the condensing irradiator 163;

Dimming part illuminance sensor to detect the illuminance by the light supplied to the dimming part 240 by the condensing supply means and the LED lamp 130, the dimming part 240 to reduce the power consumption by maintaining only the illuminance suitable for sample observation And a light control unit (140) configured to adjust the brightness of the LED lamp (130) according to the illumination signal input from the light control unit illuminance sensor (170).
The method of claim 1, further comprising:
The eyepiece approach detecting means 120 is an eyepiece approach provided at the top of the lens side of the eyepiece so that the ultrasonic sensor provided on one side of the eyepiece, the infrared sensor and the observer's eyes can be detected when contacting the eyepiece. Select one of the detection switch to configure,
Although the peripheral illumination is provided with a peripheral illumination detection means for displaying whether the illumination state sufficient for power generation by the solar cell 110,
The peripheral illuminance detection means detects an ambient illuminance sensor 151 for detecting an ambient illuminance and an illuminance signal input through the peripheral illuminance sensor 151 to detect and compare the illuminance display lamp having three colors of red, green, and yellow ( 153 is configured by the illuminance notification control unit 152 for controlling selection lighting,
The illuminance notification control unit 152 turns on the green light when the illuminance signal input through the peripheral illuminance sensor 151 is sufficient for the generation of the solar cell 110, and yellow when the solar power generation is not sufficient. The light source, when the power generation of the solar cell 110 is impossible, the microscope, characterized in that configured to light red.

delete delete

Images