KR200345785Y1 - Permeating type photoelectronic sensor - Google Patents

Abstract

The present invention relates to a transmissive photo sensor, and an object thereof is to provide a transmissive photo sensor for installing a detachable lens in a case according to a light source mounted inside the transmissive photo sensor. In the case of a transmissive photo sensor having a printed circuit board in which a light source is installed in the case and a lens is installed in the case, the lens spherical surface of the lens is protruded to a through hole formed in front of the case. In order to install the lens detachably according to a light source, the coupling protrusion formed in the case is coupled to the coupling groove formed on the outer circumferential surface of the lens.

Description

Transmissive Photoelectric Sensor {PERMEATING TYPE PHOTOELECTRONIC SENSOR}

The present invention relates to a transmissive photosensor, and more particularly to a transmissive photosensor to install a detachable lens in the case according to the light source mounted inside the transmissive photosensor.

In general, photoelectric sensors are sensors that detect the presence or absence of objects using light, and are widely used in industrial facilities such as automation facilities, parking facilities, logistics systems, conveyor conveying lines, etc. It can be classified as a direct reflection type.

The transmissive photo sensor detects an object between the light transmitting part and the light receiving part, and the reflecting mirror type photo sensor detects an object through the reflecting mirror while the light transmitting part and the light receiving part coexist. The object is identified by detecting the amount of hitting the object and returning.

1 is a view showing an example of a conventional transmissive photosensor.

As shown in the drawing, a conventional transmissive photo sensor is separated into a light emitter 1 and a light receiver 2, and the other one is fixed up and down in a state in which either one of the light emitter 1 and the light receiver 2 is fixed. It adjusts to the left and right to check the range in which the operation indicator (not shown) lights up, and sets it to the center position.

Since the light emitter and the light receiver have the same structure as described below, the light emitter will be described with reference to FIG. 2, and the printed circuit board 1c having the light source 1b installed therein will be embedded in the case 1a. The lens 1d is installed in 1a according to the light source 1b.

The light source 1a includes an infrared light source and a red light source. Accordingly, a lens 1d suitable for each light source should be selected.

That is, the lens in the infrared light source is red, and the lens in the red light source is purple.

However, the lens 1d installed in the conventional transmissive photosensor is formed integrally with the case 1a, so that the case 1a must be manufactured separately according to the infrared light source and the red light source.

That is, there is a problem that the case (1a) of the infrared light source and the red light source are not compatible.

The present invention has been made to solve such a conventional problem, and an object thereof is to provide a transmissive photo sensor for installing a detachable lens in a case according to a light source mounted inside the transmissive photo sensor.

1 is a view showing an example of a conventional transmissive photosensor.

2 is a cross-sectional view of a conventional transmissive photosensor.

Figure 3 is an exploded perspective view showing a transmissive photosensor according to the present invention.

Figure 4 is a front view showing a transmissive photosensor according to the present invention.

5 is a cross-sectional view showing a transmissive photosensor according to the present invention.

(Explanation of symbols for the main parts of the drawing)

10: Case 11: Through Hole

12: engaging projection 20: printed circuit board

21: light source 30: lens

31: spherical lens 32: coupling groove

The present invention for achieving the above object is a transmissive photo sensor having a built-in printed circuit board installed with a light source in the case, the lens is installed in accordance with the light source, the through hole formed in the front of the case the lens Combining the lens spherical surface of the, and coupled to the engaging projection formed in the case to the coupling groove formed on the outer peripheral surface of the lens to install the lens detachably according to the light source.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view showing a transmissive photosensor according to the present invention, Figure 4 is a front view showing a transmissive photosensor according to the present invention, Figure 5 is a cross-sectional view showing a transmissive photosensor according to the present invention.

As shown, the photosensor of the present invention has a printed circuit board 20 in which the light source 21 is installed inside the case 10, and the lens 30 is disposed in the case 10 according to the light source 21. It is the same as that provided.

However, the photosensor of the present invention is characterized in that the lens 30 is formed to be detachable to be installed on the case 10 in accordance with the light source 21.

That is, the lens spherical surface 31 of the lens 30 is protruded into the through hole 11 formed at the front of the case 10, and the coupling groove 32 formed on the outer circumferential surface of the lens 30 The coupling protrusion 12 protruding inside the case 10 is to be coupled.

The photosensor configured as described above is to mount the lens 30 of the violet or red, respectively, to the case 10 in accordance with the infrared light source and the red light source.

The photo sensor configured as described above is in the state in which the lens 30 of the infrared light source or the red light source is coupled to the coupling groove 32 of the lens 30 and the coupling protrusion 12 of the case 10. When the printed circuit board 20 is installed inside the case 10 and the outside thereof is molded by epoxy or the like, the photosensor is completed.

On the other hand, reference numeral 40 denotes a stability indicator, reference numeral 41 denotes a control indicator, and reference numeral 42 denotes a connector for connecting a power source.

In addition, as described above, the photosensor is separated into a light emitter and a light receiver by using the same, and when the power is connected through the connector 42 in a state in which the photosensors are set to face each other, the safety indicator 40 is Lights up.

In this state, while one of the transmitter and the receiver is fixed, the other side is adjusted up, down, left, and right to check the range in which the control indicator 41 lights up and set at the center position thereof. The object is placed on the optical axis and checked for operation.

The transmissive photosensor of the present invention as described in detail above to project the spherical surface of the lens to the through-hole formed in the front of the case, and to engage the engaging projection projecting inside the case to the coupling groove formed in the outer peripheral surface of the lens By doing so, the lens according to the light source can be selected and coupled to the case so that the lens can be interchangeably coupled to the case.

Claims (1)

In the case of a transmissive photoelectric sensor in which a printed circuit board 20 provided with a light source 21 is installed in the case 10, and a lens 30 is installed in the case 10 according to the light source 21. The lens spherical surface 31 of the lens 30 is protruded into the through hole 11 formed at the front of the case 10, and the case is formed in the coupling groove 32 formed in the outer circumferential surface of the lens 30. 10) Transmissive photoelectric sensor, characterized in that for coupling the protruding coupling projections (12) inside the lens 30 to be detachably installed in accordance with the light source (21).