KR100875876B1 - A sensor cover unit - Google Patents

Abstract

The cover unit for the sensor extending the lifetime is provided to prevent the contamination by spatter and damage by the interference of the sensing part in the welding process of the sensors. The cover unit for sensor comprises as follows. The body are formed into the cylindrical shape in order to surround the body and the sensing part(23) of sensor. The slot block(15) is formed along the outer circumference of the shear. The glass slot (S) is formed in the slot block. The protecting duct has the screw hole(17) on one side of the outer circumference center. The protective glass(13) is mounted on the front of the protecting duct and has the installation handle. The penetration hole is formed for inserting the protecting duct in one side. The mounting bracket is for forming the bolt hole(41) for assembles of jig(3).

Description

Sensor Cover Unit {A SENSOR COVER UNIT}

The present invention relates to a cover unit for a sensor, and more particularly, a sensor having a wide sensing part is generated in a welding process or the like to detect the presence or absence of a panel on a jig or a specification such as a welding bolt or nut that is weld-mounted to a panel or the like. The present invention relates to a sensor cover unit for preventing damage caused by contamination of a spatter or interference caused by an interference with a sensing part and extending its life.

In general, in order to detect whether the part is normally seated in the specification or a specific position of the part, as shown in FIG. 1, the proximity sensor 100 is mainly used.

As such, the proximity sensor 100 used in the industrial field is usually classified into three types, such as a high frequency oscillation type, a capacitive type, and a magnetic lead type.

First, the high frequency oscillation type detects a metal and emits a high frequency fine electric signal. When the metal approaches, the metal is detected by using a principle in which an eddy current is formed in the metal itself to cause a loss in the electric signal. The distance can be used from 2mm to 20mm depending on the diameter of the sensor.

In addition, the capacitive type uses a polarization phenomenon, and when a sensor emits a positive signal, a positive signal is induced by an object's electrostatic induction, and the positive signal moves to a negative emission. (+) Changes to (-), which catches and detects this signal.

In the case of the digital lead type, the magnetic lead type is a method of attaching and detaching a contact with a magnet.

In the proximity sensor as described above, in particular, the high frequency oscillation type proximity sensor 100, as shown in Figure 1, the thread (N) is processed along the outer peripheral surface of the body 101, the body of the 101 In front of the front surface and the outer peripheral surface of one side thereof is formed by the sensing unit 103, the rear end of the body 101 is configured with a wire 105 for electrically connecting to the controller.

In addition, as shown in FIG. 2, two mounting nuts for fastening in a state where the body 101 is fitted to the mounting bracket 113 formed on the jig 111 or the like are mounted on the thread N of the body 101. 107 is fastened.

Therefore, such a proximity sensor 100, as shown in Figure 2, the body 101 is inserted into the mounting bracket 113 fastened to one side of the jig 111, the upper surface of the mounting bracket 113 and The nut 107 is fastened to the bottom surface, and when a metal component such as the panel 109 is close to the bottom surface, the nut 107 is detected to output the detection signal to the controller.

However, the conventional proximity sensor as described above is installed in a jig or the like with the body and the sensor formed wide, and are particularly contaminated or broken by interference with a spatter or sensing component generated in a welding process, and thus its life is short. Has its drawbacks.

Therefore, the present invention has been invented to solve the above-mentioned drawbacks, and an object of the present invention is to detect the presence or absence of the mounting of the panel on the specification or jig, such as welding bolts or nuts that are welded to the panel, etc. It is to provide a cover unit for the sensor to extend the life of the sensor is formed by a wide range of sensors to prevent damage caused by spatter generated in the welding process or interference by the interference with the sensing parts and the like.

Sensor cover unit of the present invention for achieving the above object is formed in a cylindrical shape to surround the body and the sensor of the sensor, and forms a slot block over a semi-circular section along the outer peripheral surface of the front end, the slot block in the glass slot Forming, the protective tube for forming a screw hole on one side of the outer peripheral surface; Is inserted through the glass slot of the protective tube is mounted in front of the protective tube, one side of the circular protective glass is installed integrally with the installation handle; It forms a through-hole for installing the protection tube by inserting on one side, the other side includes a mounting bracket for forming a bolt hole for assembling on the jig.

In the slot block of the protective tube further includes a support means for supporting one side of the installation handle protruding into the glass slot is mounted to the glass slot.

The support means is a ball housing is inserted into one side of the slot block is installed; A spring inserted into the ball housing; Inside the ball housing, a portion is projected into the glass slot is characterized in that it is composed of a support ball acting on the support groove formed on one side of the installation handle in a state that is elastically supported by the spring.

And the protective tube is characterized in that the glass fitting groove corresponding to the glass slot is formed along the inner circumferential surface of the remaining section in which the glass slot is not formed, the protective tube is cut in a certain section at the rear to check the indicators of the sensors Characterized in that the display window is further formed.

In addition, the mounting bracket is characterized in that to form a screw hole connected to the through hole on one side and the other side of the front end.

According to the sensor cover unit of the present invention made as described above, the proximity sensor body and the sensing unit is wrapped through a cylindrical protective tube, the welding is welded to the panel or the like by inserting a protective glass to the protective tube to protect the front of the sensing unit In the process of detecting the mounting of the panel on the specification or jig of the bolt or nut, etc., the sensing unit of the proximity sensor is completely blocked from the spatter generated in the welding process, etc. to prevent contamination of the sensing unit. Even if there is slight interference with a sensing part such as a nut or the like, there is an effect of preventing the body from being damaged to the maximum and extending its life.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described in detail.

3 is a side view of the jig to which the cover unit for the sensor according to the embodiment of the present invention is applied, and FIG. 4 is an exploded perspective view of the cover unit for the sensor according to the embodiment of the present invention.

As shown in FIG. 3, the sensor cover unit 1 according to the embodiment of the present invention is installed on the one side of the jig 5 through the mounting bracket 3 in a state where the proximity sensor 10 is fitted. It is mounted so that the proximity sensor 10 can detect one side of the panel 7 seated on the jig (5).

As shown in FIG. 4, the cover unit 1 is largely composed of a protective tube 11, a protective glass 13, and a mounting bracket 3.

First, the protective tube 11 is formed in a cylindrical shape to surround the body 21 and the sensing unit 23 of the proximity sensor 10.

The front end of the protective tube 11 is formed along the outer peripheral surface thick slot block 15 over a semi-circular section, the slot block 15 is formed with a glass slot (S) penetrated throughout the entire period.

In addition, a screw hole 17 is formed at one central side of the outer circumferential surface of the protective tube 11.

The protection tube 11 is formed with a glass fitting groove 19 corresponding to the glass slot S along the inner circumferential surface of the remaining section in which the glass slot S is not formed.

Here, the glass fitting groove 19 is preferably formed in a width larger than the thickness of the protective glass 13 described above.

In addition, the protective tube 11 is preferably further formed on the rear side of the display window 25 to check the indicator (not shown) of the proximity sensor 10 is cut in a certain section is mounted.

And the protective glass 13, as shown in Figure 5, is inserted through the glass slot (S) of the protective tube 11 is mounted in front of the protective tube 11, as shown in Figure 6, On one side, the installation handle 27 is integrally installed.

That is, the installation handle 27 is integrally installed over the semi-circular section along the circular arc surface of the protective glass 13, and forms a circular support groove 29 in the central side of the rear surface.

The protective glass 13 is preferably made of a transparent glass material, but is not limited thereto. If the protective glass 13 may perform the function of the protective glass 13, the protective glass 13 may be applied to a transparent plastic material.

In addition, the protective glass 13 is inserted into the support groove 29 of the installation handle 27 installed in the glass slot S by protruding into the glass slot S in the slot block 15 of the protective tube 11. The support means 31 for supporting) is configured.

The support means 31 is installed by inserting the ball housing 33 into one side of the slot block 15, the spring 35 is inserted into the ball housing 33. In addition, in the ball housing 33, the support ball 37 is a part of the protruding into the glass slot (S) to be elastically supported by the spring 35, the support groove of the installation handle (27) 29).

And the mounting bracket (3), as shown in Figure 4, to form a through hole 39 for installing the protective tube 11 on one side thereof, the other side to be assembled to the jig (5) To form a bolt hole 41 for.

The mounting bracket 3 forms a screw hole 43 connected to the through hole 39 on one side and the other side of the front end thereof.

Therefore, the sensor cover unit 1 having the configuration as described above, as shown in Figure 4, the protective glass 13 through the glass slot (S) of the protective tube 11, the protective tube 15 The sensor 23 of the proximity sensor 10 is mounted to correspond to the protective glass 13 by inserting the proximity sensor 10 from the rear of the backplane.

At this time, the protective glass 13, the installation handle 27 is fitted through the glass slot (S) on the slot block 15, the support ball (29) in the support groove 29 formed in the installation handle (27) 37 is inserted and installed on the protective tube 11 without shaking.

In addition, the proximity sensor 10 is inserted into the protective tube 11, and is firmly mounted in the protective tube 11 by a screw 45 fastened to the screw hole 17 on the protective tube 11.

In this state, the protective tube 11 is fitted into the through hole 39 of the mounting bracket 3, and is mounted by the screw 47 fastened to the screw hole 43 on the mounting bracket 3. It is fixed to (3).

As described above, the protective tube 11 having the proximity sensor 10 installed therein is fastened to the mounting bracket 3, as shown in FIG. 7, through the other side of the mounting bracket 3. It is mounted on one side of the jig (5), and in this state, the proximity sensor (10) is welded or mounted on the panel 7 or the like through the protective glass 13, such as a welding bolt or nut, or on the jig (5) It supports to detect the presence or absence of the panel (7).

At this time, the proximity sensor 10 is protected from the spatter generated in the welding process, etc. by the protective glass 13, the sensor 23, even if interfered by parts such as the panel 7, bolts, etc. The protective tube 11 is to protect the body 21 of the proximity sensor 10 to prevent damage.

On the other hand, the protective glass 13 can be easily replaced using the installation handle 27, when the contamination degree is severe, such as by welding spatter, thereby maintaining a good sensitivity of the proximity sensor 10 .

1 is an external perspective view of a general proximity sensor.

2 is a side view of a jig showing a mounting state of a conventional proximity sensor.

3 is a side view of a jig to which a cover unit for a sensor according to an embodiment of the present invention is applied.

4 is an exploded perspective view of a cover unit for a sensor according to an embodiment of the present invention.

5 is a cross-sectional view taken along the line A-A of FIG.

6 is a perspective view of a protective glass applied to the present invention.

7 is a state diagram used in the cover unit for the sensor according to an embodiment of the present invention.

Claims (11)

It is formed in a cylindrical shape to surround the body and the sensor of the sensor, forming a slot block over a semi-circular section along the outer circumferential surface of the front end, forming a glass slot in the slot block, the protective tube for forming a screw hole on the central side of the outer surface; Is inserted through the glass slot of the protective tube is mounted in front of the protective tube, one side of the circular protective glass is installed integrally with the installation handle; A cover unit for a sensor comprising a mounting bracket on one side to form a through-hole for installing the protection tube, and on the other side to form a bolt hole for assembling on a jig. The method of claim 1, Inside the slot block of the protective tube The cover unit for a sensor, characterized in that it further comprises a support means for supporting one side of the installation handle is mounted to the glass slot protruding into the glass slot. The method of claim 2, The support means A ball housing inserted into one side of the slot block and installed; A spring inserted into the ball housing; The cover unit for the sensor, characterized in that consisting of a support ball in the ball housing, a part protruding into the glass slot to be elastically supported by the spring, acting on the support groove formed on one side of the installation handle. The method of claim 1, The glass slot A cover unit for a sensor, characterized in that formed between the whole along the slot block. The method of claim 1, The sheath The cover unit for the sensor, characterized in that the glass fitting groove corresponding to the glass slot is formed along the inner peripheral surface of the remaining section in which the glass slot is not formed. The method of claim 5, The glass fitting groove The cover unit for a sensor, characterized in that the width is formed larger than the thickness of the protective glass. The method of claim 1, The sheath The cover unit for a sensor, characterized in that the display window which is cut in a certain section at the rear to confirm the indicators of the sensors. The method of claim 1, The installation handle The cover unit for a sensor, characterized in that integrally mounted over a semi-circular section along the arc surface of the protective glass. The method of claim 1, The protective glass Cover unit for the sensor, characterized in that made of a transparent glass material. The method of claim 1, The protective glass Sensor cover unit, characterized in that made of a transparent plastic material. The method of claim 1, The mounting bracket The cover unit for a sensor, characterized in that to form a screw hole connected to the through hole on one side and the other side of the tip.

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