KR101510922B1 - Line type illuminating device - Google Patents

Abstract

(PROBLEM TO BE SOLVED) Provided is a linear illumination apparatus capable of ensuring uniformity of light quantity in a longitudinal direction of a linear light source section.
(Solution) A linear light source unit 2 and a power source control unit for lighting and controlling the linear light source unit 2 are provided. The linear light source section 2 has a plurality of light source units 17 arranged in parallel in a predetermined direction and a plurality of dimming units 18 formed corresponding to the plurality of light source units 17. [ In each of the plurality of light source units 17, a plurality of linearly arranged LEDs 22 are formed. Each of the plurality of light modulation units 18 is provided with a light modulation circuit 27 for adjusting the light amount of light from the plurality of LEDs 22 of the corresponding light source unit 17. [ The power supply control unit is configured to independently drive and control the light control circuits 27 of the plurality of light control units 18, respectively.

Description

[0001] LINE TYPE ILLUMINATING DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear illumination apparatus used for illuminating an inspected object, for example, in an image processing inspection or the like.

Description of the Related Art [0002] Conventionally, when inspecting the quality of industrial products such as sheet-like paper, glass substrates, and steel sheets, for example, scratches, irregularities, deformations, adherence of foreign substances, An image processing inspection using imaging is carried out. In this image processing inspection, a linear illumination apparatus for illuminating an inspected object placed on an irradiation surface is used.

The conventional linear illumination apparatus has a linear light source section and a power source control section for lighting and controlling the linear light source section (for example, see Patent Document 1). The linear light source section has a plurality of LEDs, a printed wiring board in which the LEDs are linearly arranged, and a cylindrical lens concentrically formed in front of the LEDs. The power control unit includes light amount setting means for setting the light amount of the light from the LED and dimming means for lighting and controlling the LED with the set light amount.

Japanese Patent Application Laid-Open No. 2001-215115

The above-described dimmer means regards all of the LEDs as one light source, and controls the LED as a whole, collectively. As a result, the following problems arise. First, a variation occurs in the amount of light from each LED due to the individual difference of the LED, so that the amount of light in the longitudinal direction of the linear light source portion may be varied. Even if the light quantity of all of the plurality of LEDs is increased in this state, the relative deviation of the light quantity is generated as it is and the uniformity of the light quantity in the longitudinal direction of the linear light source portion can not be ensured. Second, in a linear light source system in which LEDs are linearly arranged, the amount of light decreases at both end portions in the longitudinal direction, irrespective of the variation in the light amount of each LED. In this state, even if the light amount of the LED as a whole is increased, the amount of light at both ends remains relatively lowered, and the uniformity of the light amount in the longitudinal direction of the linear light source portion can be ensured none.

SUMMARY OF THE INVENTION An object of the present invention is to provide a linear illumination device capable of ensuring uniformity of light quantity in a longitudinal direction of a linear light source portion.

In the linear illumination apparatus of the present invention, in a linear illumination apparatus including a linear light source section and a power source control section for controlling lighting of the linear light source section,

Wherein the linear light source unit has a plurality of light source units arranged in parallel in a predetermined direction and a plurality of light modulation units formed corresponding to each of the plurality of light source units, and each of the plurality of light source units has a plurality of linearly arranged light source units Wherein each of the plurality of dimming units is provided with a dimming circuit for adjusting the amount of light from the plurality of LEDs of the corresponding light source unit, And the light control circuit is individually and independently controlled to be driven.

Each of the plurality of light control units further includes a printed wiring board on which the light control circuit is mounted, and the printed wiring board of each of the plurality of light control units is connected to the power control unit via a plurality of control wirings And connected in a line-sequential manner.

The light-source control unit may further include light-modulating unit selecting means for selecting a specific light-modulating unit among the plurality of light-modulating units, light amount setting means for setting a light amount of light from the plurality of LEDs of the light source unit corresponding to the specific light- Dimming signal generating means for generating a dimming signal corresponding to the set light amount and dimming signal output means for outputting the dimming signal to the dimming circuit of the specific dimming unit,

And the dimming signal from the dimming signal outputting means is outputted to the dimming circuit of the specific dimming unit via the control wiring.

According to the linear illumination apparatus of the present invention, the linear light source section has a plurality of light source units arranged side by side in a predetermined direction, and a plurality of light modulation units formed corresponding to each of the plurality of light source units. Since the power control unit independently drives and controls the light control circuit of each of the plurality of light control units individually, for example, due to the variation of the light amount due to the individual difference of the LED, the LED The amount of light is increased by driving and controlling the light modulation circuit of the light modulation unit disposed at the predetermined portion to ensure the uniformity of the amount of light in the longitudinal direction of the linear light source portion, . In addition, since the amount of light of the light source units at both end portions in the longitudinal direction of the linear light source portion can be increased, the light amounts at both end portions can be made uniform.

According to the linear lighting apparatus of the present invention, since the printed wiring board of each of the plurality of light control units is connected in a line-like shape to the power supply control unit via the plurality of control wiring lines, Can be reduced, and the wiring state can be simplified.

According to the linear illumination apparatus of the present invention, the light-modulating unit selecting means selects a specific light-modulating unit from among the plurality of light-modulating units, and the light amount of the LED of the light source unit corresponding to the specific light- Thus, a dimming signal corresponding to the set light amount is generated by the dimming signal generating means, and the dimming signal is output to the dimming circuit of the specific dimming unit by the dimming signal output means. In this manner, the light control signal can be reliably output to the light control unit corresponding to the light source unit having a low light amount.

1 is a perspective view showing a linear illumination apparatus according to an embodiment of the present invention.
Fig. 2 is an exploded perspective view showing a part of the linear light source unit in an exploded manner. Fig.
Fig. 3 is an enlarged partial perspective view of a part of the linear light source unit of Fig. 2; Fig.
4 is a cross-sectional view of the linear light source section taken along the line AA in Fig.
Fig. 5A is a diagram showing the illuminance distribution in the longitudinal direction of the irradiation surface, and Fig. 5B is a sectional view of the linear light source section taken along line BB in Fig.
6 is a block diagram briefly showing a circuit configuration of the linear light source section and the power source control section.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, one embodiment of a linear illumination apparatus according to the present invention will be described with reference to the accompanying drawings. 2 is an exploded perspective view showing a part of a linear light source unit, and Fig. 3 is an enlarged view of part of the linear light source unit of Fig. 2 FIG. 5A is a view showing the illuminance distribution in the longitudinal direction of the irradiation surface, and FIG. 5B is a view showing the illuminance distribution in the longitudinal direction of the irradiation surface. Fig. 6 is a block diagram schematically showing the circuit configuration of the linear light source section and the power source control section. Fig. 6 is a cross-sectional view of the linear light source section taken along line BB in Fig.

The linear illumination apparatus 1 of the present embodiment includes a linear light source section 2 and a power source control section 3 for lighting and controlling the linear light source section 2. [ The linear light source unit 2 and the power source control unit 3 are connected to each other via a cable 4 (see Fig. 1). Hereinafter, the configuration of the linear illumination apparatus 1 will be described in detail.

The linear light source section 2 has a casing 5 and a cover 6 having a U-shaped cross section which is freely detachably mounted on the casing 5. As shown in Fig. The casing 5 includes a horizontally elongated bottom plate 7, a side plate 8 extending substantially vertically from one side end of the bottom plate 7, and a side plate 8 extending substantially vertically from the other end of the bottom plate 7 (9) and a pair of end plates (10) extending substantially vertically from both ends of the bottom plate (7). The plurality of support plates 9 are arranged at intervals in the longitudinal direction of the bottom plate 7. The casing 5 is formed in a box shape whose upper surface is opened by the bottom plate 7, the side plate 8, the plural support plates 9 and the pair of single plates 10. On the outer surface of the bottom plate 7, heat dissipating fin groups 11 are formed in the longitudinal direction. The casing 5 is made of a highly heat-radiating metal such as aluminum.

The cover 6 has a horizontally long top plate 12 and a pair of side plates 13 and 14 extending substantially vertically from both side ends of the top plate 12. In the top plate 12, an irradiation window 15 having a rectangular shape and a long side is formed. The height of one side plate (13) is higher than the height of the other side plate (14). When the cover 6 is mounted on the casing 5, the top surface of the casing 5 is covered by the top plate 12, and one side surface of the casing 5 (that is, The surface on which the plurality of support plates 9 are formed) is covered. A thin metal plate such as aluminum or iron is used as the cover 6 in consideration of heat radiation and durability.

In the casing 5 described above, a condenser lens 16, a plurality of light source units 17, and a plurality of dimming units 18 are accommodated. The condenser lens 16 is formed in a cylindrical shape, and a convex lens surface 19 is formed on the emission side thereof. On both sides of the condenser lens 16, a pair of support pieces 20 extending leftward and rightward outward are formed. The pair of support pieces 20 are arranged on the upper side of the opening of the casing 5 (concretely, the side plate 8 and the plurality of support plates 9 ) On the upper side). The convex lens surface 19 of the condenser lens 16 protrudes slightly outward through the irradiation window 15 of the cover 6. [

The light source unit 17 has a printed wiring board 21 and a plurality of LEDs 22 mounted linearly on the printed wiring board 21 in a line. The LED 22 is composed of a high-power LED. The printed wiring board 21 is made of aluminum. The printed wiring board 21 of each light source unit 17 is mounted adjacent to the inner surface of the bottom plate 7 of the casing 5 (see Fig. 5 (b)). As a result, the plurality of LEDs 22 of the linear light source unit 2 are arranged in a straight line as a whole. Heat from the LED 22 is transmitted to the bottom plate 7 of the casing 5 through the printed wiring board 21 and is radiated to the outside of the casing 5 by the group of heat dissipation fins 11. [

Further, a pair of printed wiring boards 21 adjacent to each other are electrically connected via a pair of power supply wirings 23 (see Fig. 3). A pair of power supply wirings 24 extending from the printed wiring board 21 on the most upstream side (the rightmost side in Fig. 5 (b)) passes through the end plate 10 of the casing 5, To the power supply means 37 (see Fig. 6). As a result, the plurality of LEDs 22 of each light source unit 17 are electrically connected in parallel to the power supply means 37. When the driving power from the power supply means 37 is supplied to each light source unit 17 through the pair of power source wiring lines 23 and 24, the LED 22 of each light source unit 17 is turned on.

The light modulation unit 18 is formed corresponding to each light source unit 17. The light modulation unit 18 has a printed wiring board 25 and a plurality of electronic components 26 mounted on the printed wiring board 25. The dimmer circuit 27 (see Fig. 6) for adjusting the light amount of the light from the LED 22 is constituted by the plurality of electronic components 26. Fig. The printed wiring board 25 of each of the light modulation units 18 is mounted adjacent to the inner surface of the side plate 8 of the casing 5. The printed wiring board 21 of the light source unit 17 and the printed wiring board 25 of the light control unit 18 corresponding thereto are electrically connected via the connection wiring 28. [ The printed wiring board 25 adjacent to each other is electrically connected via a control wiring 29. [ The control wiring 30 extending from the most upstream printed wiring board 25 passes through the end plate 10 of the casing 5 and is connected to the dimming signal output means 40 (see Fig. 6) of the power source control unit 3, As shown in Fig. The printed wiring board 25 of each of the light control units 18 is connected to the light control signal output means 40 through a plurality of control wirings 29 in a line- The dimming circuit 27 is electrically connected to the dimming signal output means 40 in parallel. The pair of power supply wirings 24 and control wiring 30 described above are accommodated in the cable 4 in a tied state.

The power control unit 3 has a housing 31. The front panel of the housing 31 is provided with a dimming unit selection switch 33 (constituting a dimming unit selection means), a light amount setting switch 34 A light amount setting means), a display panel 35, and a power switch 36 (see Fig. 1). The light modulation unit selection switch 33 is for selecting a specific light modulation unit 18 corresponding to the light source unit 17 to be controlled in light quantity among the plurality of light modulation units 18. [ The light amount setting switch 34 is for setting the light amount of the light from the LED 22 with respect to the selected specific light control unit 18. [ By operating the light amount setting switch 34, the light amount level is set in the range of, for example, 0 to 100. [ The display panel 35 is provided with a unit number (e.g., " CH1 ") of the light control unit 18 selected by the light control unit selection switch 33 and a light amount level set by the light amount setting switch 34 &Quot; 50 ") are digitally displayed.

A power supply means 37 and a controller 38 are incorporated in the housing 31 (see Fig. 6). The power supply means 37 supplies driving power (for example, 24 V direct current power) to the LED 22 of each light source unit 17 through a pair of power supply wirings 23 and 24. When the power switch 36 is turned on, the drive power from the power supply means 37 is supplied to the LED 22 of each light source unit 17, and when the power switch 36 is turned off, The supply of the drive power from the drive motor 37 is interrupted.

The controller 38 has a dimming signal generating means 39 and a dimming signal output means 40. [ The dimming signal generating means 39 generates a dimming signal corresponding to the light amount set by the light amount setting switch 34. [ This dimming signal is composed of, for example, a DC voltage signal of 0 to 5 V. When the set light quantity is a maximum value (for example, the light quantity level is 100), the dimming signal becomes 5 V, And the light amount level is 0), the dimming signal becomes 0V. The dimming signal outputting means 40 outputs a dimming signal to the dimming circuit 27 of the specific dimming unit 18 through the control wirings 29 and 30.

Next, dimming of the LED 22 by the linear illumination apparatus 1 of the present embodiment will be described. When the power switch 36 is turned on, the driving power from the power supply means 37 is supplied to the LED 22 of each light source unit 17, and the LED 22 is turned on. In this initial state, the light control signal generating means 39 generates, for example, a light control signal (2.5 V) corresponding to the light amount level 50, and the light control signal outputting means 40 outputs the light control signal to each light control unit 18 to the light modulation circuit 27. [ As a result, the LED 22 of each light source unit 17 is turned on at the light amount level of 50. The light emitted from the LED 22 is converged on the irradiation surface 32 in the form of a band by the condenser lens 16 to be irradiated (see Fig. 5 (a)).

For example, as shown by the one-dot chain line in Fig. 5 (a), when the illuminance at both end portions in the longitudinal direction of the irradiation surface 32 is low, dimming is performed as follows. First, the light control unit selection switch 33 is operated to select the most upstream light control unit 18, and the light amount setting switch 34 is operated to raise the light amount level from 50 to 70, for example. The dimming signal generating means 39 generates a dimming signal corresponding to the light amount level 70 and the dimming signal outputting means 40 outputs the dimming signal to the dimming circuit 27).

Subsequently, the light-modulating unit selection switch 33 is operated to select the light-modulating unit 18 on the most downstream side (leftmost in FIG. 5 (b)) and the light amount setting switch 34 is operated to set the light- Raise it from 50 to 70. The dimming signal generating means 39 generates a dimming signal corresponding to the light quantity level 70 and the dimming signal outputting means 40 outputs the dimming signal to the dimming circuit 27).

The LED 22 of the light source unit 17 on the most upstream side and the LED 22 of the light source unit 17 on the most downstream side are turned on at the light amount level of 70 respectively and the LEDs 22 of the two light source units 17 (22) are lighted at the light amount level of 50 each. As a result, as shown by the solid line in Fig. 5 (a), the illuminance at both end portions in the longitudinal direction of the irradiation surface 32 becomes high. Therefore, in the linear illuminator 1 of the present embodiment, the uniformity of the light quantity in the longitudinal direction of the linear light source portion 2 can be ensured.

As described above, one embodiment of the linear illumination device according to the present invention has been described. However, the present invention is not limited to these embodiments, and various modifications and modifications can be made without departing from the scope of the present invention.

In the above-described embodiment, the case where the illuminance at both end portions in the longitudinal direction of the irradiation surface 32 is low has been described in the above embodiment. However, the variation in the amount of light due to the individual difference of the LED 22, The light modulation unit selection switch 33 is operated to select the two intermediate light modulation units 18 respectively and the LEDs 22 of the two intermediate light modulation units 18 ) Is increased.

In the above embodiment, four light source units 17 and four light modulation units 18 are used, respectively. However, the number of the light source units 17 and the light modulation units 18 can be appropriately set according to the use of the linear illumination device 1. [ As a result, the linear light source portion 2 having various lengths can be easily manufactured.

In the above-described embodiment, the LED 22 is formed of a chip-type power LED, but may be a shell-type LED.

In the above-described embodiment, the condensing lens 16 of a rectangular shape mounted on the casing 5 is accommodated. However, instead of the condensing lens 16, a Fresnel lens, a translucent plate, or the like may be accommodated.

1: linear illumination device
2: linear light source part
3: Power controller
17: Light source unit
18: Light control unit
22: LED
25: printed wiring board
27: dimming circuit
29, 30: Control wiring
33: Light control unit selection switch
34: Light quantity setting switch
39: dimming signal generating means
40: dimming signal output signal

Claims (3)

A linear illumination apparatus comprising a linear light source section and a power source control section connected to the linear light source section via a cable for lighting control of the linear light source section,
The linear light source portion includes a light source unit in which a plurality of LEDs are linearly arranged on a first printed wiring board and a light modulation circuit for adjusting the light amount of light from the plurality of LEDs of the light source unit are formed on a second printed wiring board A light control unit,
In addition, the linear light source unit may be configured such that a plurality of the light source units are arranged side by side in a predetermined direction in a casing constituting the linear light source unit, so that all the LEDs of each light source unit are linear in the predetermined direction , The same number of the light control units as the light source unit are arranged in the casing in the predetermined direction and the first and second printed wiring boards of the light control unit and the light control unit corresponding to each other are connected And is electrically connected via a wiring for use,
The second printed wiring board of each of the plurality of light control units is connected to the power supply control unit in a line-like shape via a plurality of control wirings,
A pair of first printed wiring boards adjacent to each other among the first printed wiring boards of the light source unit are connected to each other via a power supply wiring and the first printed wiring board at the most upstream side is connected to the power supply control unit through the cable And,
Wherein the power control section supplies driving power to each of the plurality of light source units through the cable and the power supply wiring and controls the dimming circuits of each of the plurality of dimming units independently of each other via the plurality of control wirings Wherein the control unit controls the driving of the linear illumination apparatus. The method according to claim 1,
A light amount setting unit configured to set a light amount of light from the plurality of LEDs of the light source unit corresponding to the specific light control unit; A light control signal generating means for generating a light control signal corresponding to the set light amount and a light control signal output means for outputting the light control signal to the light control circuit of the specific light control unit,
And the dimming signal from the dimming signal outputting means is outputted to the dimming circuit of the specific dimming unit via the control wiring. delete

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