KR101246591B1 - Handgun for inspecting platpanel glass - Google Patents

Abstract

The present invention relates to a flat glass inspection handgun that can be applied to various kinds of flat glass, and is applied at a low cost to the implementation of lighting that requires a high brightness light source, and can be used anywhere.
To this end, the main body 11, the moving wheel 12 provided on the lower end of the main body 11 and the power supply device 13 provided inside the main body 11 and the front portion of the main body 11 A cart (10) comprising a control device (14) located at the bottom and an input / output terminal (15) located at the lower end of the rear surface of the main body (11); And an LED 22 connected to the cart 10 and a connection line 30 and provided inside the handgun body 21 and the handgun body 11 and providing a light source and adjacent to the LED 22. The heat dissipation plate 23 and the heat dissipation fan 24 positioned adjacent to the heat dissipation plate 23, the amplification lens 25 in contact with the light emitting part of the LED 22, and the amplification lens 25. To provide a flat glass inspection handgun consisting of a handgun 20 consisting of a fiber optic bundle 26 and a lens 27 to be positioned.

Description

HANDGUN FOR INSPECTING PLATPANEL GLASS}

The present invention relates to a handgun for inspecting flat glass, which is capable of inspecting flat glass using a high-efficiency three-color LED as an illumination.

Typically flat glass is used in various display devices. For example, LCD, LED and PDP are representative.

In the case of the flat glass used in such a display device has a polarizing function that transmits light of a specific wavelength depending on the characteristics of the many, the inspection of the flat glass is very important when commercializing.

For this reason, a method of inspecting flat glass is to determine whether there are any defects through visual inspection after irradiating light of a specific wavelength on the surface of the flat glass, which is called vision inspection. Such vision inspection includes inspection through visual acuity of the examiner and image analysis through a sensor and a camera for detecting light.

The light source used in most vision inspection has to use a high-brightness light source and to inspect various kinds of flat glass, so there is a problem that a light source having a specific wavelength (color) must be applied.

Due to these problems, when a high brightness light source is to be used, a special light source such as a halogen bulb must be used, which increases the operating cost thereof and also increases the defensive cost due to frequent failures.

In addition, there is a problem in that a device for providing a light source having a high brightness and various wavelengths is enormous and a place to be used is limited. The background technology of the present invention is disclosed in Korean Patent Publication No. 10-2011-052255 (published May 18, 2011).

In order to solve the above problems, an object of the present invention is to provide a flat glass inspection handgun that uses a high-brightness light source using an LED and is easy to move and use.

Still another object of the present invention is to provide a flat glass inspection handgun capable of providing illumination of various wavelengths so as to correspond to the characteristics of the flat glass for inspection.

In order to achieve the above object, the present invention consists of a cart 10 and a handgun 20, the cart 10 is provided with a movable wheel 12 at the lower end of the main body 11 to facilitate movement. A power supply device 13 is provided on the inside, and a control device 14 for controlling the hand gun 20 is provided, and an external input / output terminal 15 for communication with the hand gun 20 and the outside is provided. It is provided. In addition, the movement handle 16 is further provided on one side to facilitate the movement of the cart 10, the handgun 20 is a light source on the flat glass for inspection by the power and transmission signals supplied from the cart 10 To supply. To this end, the LED 22 and the heat sink 23 for dissipating heat generated from the LED 22 and the heat sink 23 for supplying a light source to the inside of the handgun body 21 are positioned adjacent to the heat sink 23. The optical fiber bundle 26 and the optical fiber for transmitting the amplified light through the amplification lens 25 and the amplifying lens 25 for amplifying the light emitted from the heat radiating fan 24 and the LED 22 It is possible by providing a flat glass inspection handgun composed of a lens 27 through which light transmitted through the bundle 26 is emitted to the outside.

By providing the handgun for inspecting the flat glass of the present invention, it can be applied to various kinds of flat glass, there is an effect that can be applied at a low cost to the implementation of the lighting that requires a high brightness light source.

By providing the flat glass inspection handgun of the present invention, there is an effect that can be used anywhere.

1 is a configuration diagram of the present invention.
2 is a perspective view of a cart 10 of the present invention.
3 is a rear perspective view of the cart 10 of the present invention.
4 is an enlarged view of the control device of the cart 10 of the present invention.
5 is a perspective view of handgun 20 of the present invention.
6 is a cutaway view of a handgun 20 of the present invention.
7 is an exemplary view showing a utilization state of the present invention.

It will be described in detail below with reference to the drawings so that the hand gun for inspecting the flat glass of the present invention can be easily carried out.

1 is a block diagram of the present invention, Figure 6 is a cutaway view of the handgun 20 of the present invention.

1 and 6, the handgun for inspecting the flat glass of the present invention is to inspect the flat panel display and the flat glass, and is easy to move so that it can be used in a place where the installation of the lighting device is difficult. , The cart 10 and the handgun 20.

The cart 10 is provided with a moving wheel 12 at the lower end of the main body 11 to facilitate movement, the power supply device 13 is provided on the inside, and a control device for controlling the handgun 20 ( 14) is provided, the hand gun 20 and the external input and output terminal 15 for communication with the outside is provided. In addition, the movement handle 16 is further provided on one side to facilitate the movement of the cart 10.

The hand gun 20 is to supply a light source to the flat glass for inspection by the power and transmission signal supplied from the cart (10). To this end, the LED 22 and the heat sink 23 for dissipating heat generated from the LED 22 and the heat sink 23 for supplying a light source to the inside of the handgun body 21 are positioned adjacent to the heat sink 23. The optical fiber bundle 26 and the optical fiber for transmitting the amplified light through the amplification lens 25 and the amplifying lens 25 for amplifying the light emitted from the heat radiating fan 24 and the LED 22 It consists of a lens 27 for the light transmitted through the bundle 26 is emitted to the outside.

2 is a perspective view of the cart 10 of the present invention, FIG. 3 is a rear perspective view of the cart 10 of the present invention, and FIG. 4 is an enlarged view of the control device of the cart 10 of the present invention.

When described in detail with reference to Figures 2 to 4, the cart 10 of the present invention is to be used in a narrow place or to use the power supply is not easy, it is formed to be easy to move.

To this end, the cart 10 is provided with a moving wheel 12 at the lower end of the main body 11 to facilitate movement, the power supply device 13 is provided on the inside, for the control of the handgun 20 The control device 14 is provided, and the handgun 20 and the external input and output terminal 15 for communication with the outside is provided. In addition, the movement handle 16 is further provided on one side to facilitate the movement of the cart 10.

The lower end of the main body 11 is provided with a moving wheel 12 to facilitate movement. This is for the user to move the cart 10 can be used even where the power is not easy to use. This is possible by a rechargeable battery (not shown) provided inside.

The power supply device 13 provided inside the main body 11 inputs normal AC power, and operates using an external power source in a place where power supply is easy, and in a place where external power supply is not easy. After supplying power to a rechargeable battery (not shown) provided inside it is to use this.

The control device 14 provided in the main body 11 is located in the front part of the main body 11, where the control device 14 is provided with a display device.

The control device 14 controls the operation of the hand gun 20, and is provided with a main power switch 141 and a manual selection button 142. The manual selection button 142 is a form that can adjust the volume, the user can selectively adjust the color and illuminance of the LED according to the flat glass to be inspected, the remote control by operating the manual selection button 142 Is to make it possible. In more detail, when the remote control function is selected, a color and illuminance suitable for the flat glass to be inspected are set by using a communication network at a long distance.

Here, the illuminance and the amount of light of the LED controlled by the controller 14 can be adjusted over a total of eight steps.

The external input / output terminal 15 is for receiving a signal from the outside or transmitting a signal to the handgun, the output is composed of three ports. The same applies to the connection line 30 (see FIG. 1) provided in the cart 10. In more detail, the connection line 30 also transmits three output signals to the handgun 20.

 It is composed of three ports as described above to control the LED according to each color, specifically because it is completed by arranging a plurality of LED of three colors of R (red), G (green), B (blue). to be. Here, configuring the output of the external input / output terminal 15 into three ports controls LEDs for each color individually, because the characteristic values of the respective LEDs are different, and the amount of light is controlled by controlling the voltage. To adjust.

As described above, the external input / output terminal 15 may be connected to the handgun 20 using a separate wire. More specifically, the external input / output terminal 15 may be connected to the cart 10 in one piece. In case of extending the length of), a separate extension line (not shown) can be used.

The movable handle 16 is to facilitate the movement of the cart 10, it is formed so that the length can be adjusted by the user. When moving, the user expands and moves the movable handle 16 provided on one side of the cart 10, and when storing is completed after the movement is completed, the movable handle 16 is reduced and stored again.

In addition, one side of the movable handle 16 is further provided with a hand gun cradle 161 to mount the hand gun 20. This is to mount the handgun 20 during the work, and the height can be adjusted according to the operator to work more efficiently using the handgun 20. In more detail, according to the physical condition of the operator to selectively apply a high position or a low position, such as to enable the operator to use the hand gun 20 more easily.

5 is a perspective view of the handgun 20 of the present invention, and FIG. 6 is a cutaway view of the handgun 20 of the present invention.

5 and 6, the hand gun 20 connected through the cart 10 and the connection line 30 provides more efficient lighting using high brightness LEDs on the flat glass for inspection. It can be provided.

To this end, the handgun 20 is a heat dissipation plate 23 and a heat dissipation plate 23 for dissipating heat generated from the LED 22 and the LED 22 for supplying a light source to the inside of the hand gun body 21. The optical fiber bundle which transmits the amplified lens 25 and the amplified lens 25 for amplifying the light emitted from the heat dissipation fan 24 and the LED 22 positioned adjacent to the 23. And a lens 27 which emits light transmitted through the optical fiber bundle 26 to the outside, and further includes a rechargeable battery (not shown).

The LED 22 used as the light source of the handgun 20 uses three colors of LEDs of R (red), G (green), and B (blue). Various colors can be realized by combining three color LEDs of R, G, and B. By implementing a total of 256 ^three colors, it is possible to investigate the appropriate color according to the different types of flat glass that is inspected.

This is possible by controlling the illumination of 256 levels by controlling the voltage of each LED, it is possible by combining the light of the three types of LED corresponding to each color of the controlled LED.

It is applicable to various kinds of flat glass inspection through the above combination, which is intended to remedy the disadvantage that the conventional light irradiator had to apply the filter.

For example, increasing the voltage of the power supplied to the R (red) LED causes red light to be irradiated, and equalizing the voltage to the three colors (R, G, B) LED makes the white light irradiated. Will be.

At this time, since the LED 22 uses a high brightness LED, high heat is generated. Therefore, the heat sink 23 is provided on one side of the circuit board on which the plurality of LEDs are disposed so as to quickly dissipate high temperature heat, and a heat dissipation fan 24 is further provided adjacent thereto. This is to expedite the high temperature heat generated from the high brightness LED as described above. Since the heat sink 23 and the heat radiation fan 24 are well known technologies, detailed description thereof will be omitted.

The amplification lens 25 is disposed adjacent to the light emitting portion of the LED 22 as described above. This is to concentrate the light emitted from the LED 22.

Here, the amplifying lens 25 is an amplifying condensing lens, and narrows the light directing angle of the LED to improve the light quantity. That's more than six times better.

This is to obtain a high efficiency light source using a small number of LEDs because a large number of heat is generated when a plurality of LEDs are used to obtain a high efficiency light source. Further, by arranging the amplifying lens 25, the distance from the optical fiber bundle 26 can be narrowed, so that the amount of optical fiber used can be significantly reduced.

The optical fiber bundle 26 is disposed adjacent to the amplifying lens 25. More specifically, the optical fiber bundle 26 is laminated to the inside of the frame to complete the optical fiber bundle 26. At this time, one end of the optical fiber is disposed adjacent to the amplification lens 25, and the other end is adjacent to the lens 27 for irradiating the light source to the outside, and transmits the light emitted from the LED 22 Will be done.

At this time, the optical fiber bundle 26 is to facilitate the detachment to the handgun 20, so that each of the optical fiber is defective to facilitate replacement.

One side of the optical fiber bundle 26 is in contact with the lens 27 is a conventional convex lens is used to irradiate the light transmitted from the optical fiber bundle 26 to the outside. This is because when light is irradiated on the surface of the flat glass as an object, it must be concentrated on a specific area. These specific sites are concentrated in the range of 100Ø to 150Ø.

To this end, the barrel 28 in which the lens 27 and the optical fiber bundle 26 are located is formed to enable a zoom function. Since the zoom function as described above is a known technology applied to a lens of a conventional camera, a detailed description thereof will be omitted.

In addition, the grip 29 formed at the lower end of the case 21 is formed to facilitate the user grip.

7 is an exemplary view showing a utilization state of the present invention.

Referring to Figure 7 in detail, when providing a certain level of illumination on the surface of the flat glass for vision inspection, when the inspection place is narrow or the power supply is not easy, the user moves the cart 10 to the inspection place After moving, the handgun 20 is used to provide illumination to the inspection object.

At this time, when the inspection place is narrow and installation of large-scale inspection equipment such as a vision inspection machine is not easy, after supplying external power to the cart 10, the connection line 30 integrally provided with the cart 10 is handed. Coupled to the gun 20. When the coupling is completed as described above through the control device 14 of the cart 10 to select the appropriate lighting for the inspection object to provide the illumination through the hand gun 20. When the above method is applied, the manager may remotely control the setting suitable for each test object through the external computer network when the external communication network is accessible. In addition, when the separation distance between the cart 10 and the handgun 20 is a long distance, a separate extension line may be connected to the external input / output terminal 15 to be used.

In addition to the case where the external power can be supplied as described above, when it is difficult to supply the external power to the inspection place, the battery 10 can be used by a storage battery (not shown) provided inside the cart 10 and the handgun 20. Before using the cart 10 is applied to external power to charge the storage battery is used.

In this case, the storage battery is provided in the cart 10 and the handgun 20, respectively, by using the power supply separately or in parallel with the cart 10 and the handgun 20 so as to increase the service life. It is for.

It is possible to provide an illumination for inspecting the defect of the flat glass by the above method.

10: cart 11: body
12: mobile wheel 13: power supply
14: control device 15: external input and output terminal
16: hand grip 20: hand gun
21: handgun body 22: LED
23: heat sink 24: heat sink
25: amplification lens 26: optical fiber bundle
27: lens 28: barrel
29: grip 30: connecting line

Claims (7)

In the flat glass inspection hand gun that provides lighting for inspecting the flat glass,
Located in the main body 11, the front wheel of the moving wheel 12 provided on the lower end of the main body 11 and the power supply device 13 provided inside the main body 11 and the main body 11 A cart 10 composed of a control device 14 and an external input / output terminal 15 located at a lower end of a rear surface of the main body 11; And
Connected to the cart 10 and the connection line 30, the LED 22 and the terminal portion of the LED 22 and the inside of the hand gun body 21 and the hand gun body 21 to provide a light source A heat dissipation plate 23 disposed adjacent to the heat dissipation fan 24, a heat dissipation fan 24 positioned adjacent to the heat dissipation plate 23, an amplifying lens 25 in contact with a light emitting part of the LED 22, and the amplifying lens 25. Handgun for inspection of the flat glass, characterized in that consisting of a handgun (20) consisting of the optical fiber bundle 26 and the lens 27 positioned adjacent to.
The handgun for inspecting a flat glass of claim 1, wherein a moving handle (16) is further provided at one side of the cart (10).
3. The handgun for inspecting flat glass according to claim 2, wherein the movable handle (16) is further provided with a hand gun holder (161).
According to claim 1, The control unit 14, the main power switch 141 for controlling the power and the color and illuminance of the LED 22 can be adjusted according to the flat glass to be inspected in the form of volume, the remote control Hand selection for flat glass inspection, characterized in that the manual selection button 142 is further provided to transmit and set the color and illuminance according to the flat glass to be inspected using a communication network at a long distance by selecting a function.
The flat hand glass inspection handgun according to claim 1, wherein the external input / output terminal (15) is for receiving a signal from the outside or for transmitting a signal to the handgun.
The flat panel according to any one of claims 1 to 5, wherein the LED 22 is completed by arranging LEDs of three colors of R (red), G (green), and B (blue) in combination. Handgun for glass inspection.
Of claim 6, wherein the LED (22) a through 256 ³ kinds of flat plate of the implement color, characterized in that to investigate the appropriate color according to the flat panel glass of different types to be the inspection target glass test handguns for.

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