JP5448212B2 - Luminance sensor holding device and luminance sensor holding method - Google Patents

Description

  The present invention relates to a technique for directly measuring each brightness of a display constituting a multi-display system using a contact-type brightness sensor, and the brightness sensor can be easily and reliably installed on the display. The present invention relates to a holding device and a luminance sensor holding method.

  2. Description of the Related Art Conventionally, there has been known a multi-display system that can display an image as a whole by arranging a plurality of displays in close contact as shown in Patent Document 1. In such a multi-display system, it is possible to realize a large screen that is many times larger than the size of each display, so that it is being used in various fields.

  Furthermore, in these multi-display systems, by reducing the number of image non-display parts on the front surface of the display, it is required to reduce the non-display parts due to the frames of the displays generated when used as a multi-display. Technology is also developed.

Also, in such a multi-display system, it is necessary to adjust the brightness of a liquid crystal display used as a video display device uniformly using a brightness sensor, but there are various ways to fix the brightness sensor to the display. A brightness sensor holding device is provided.
Patent Documents 2 to 5 disclose techniques for fixing a luminance sensor to a display using holding means such as a shaft and an arm. For example, in the brightness measuring apparatus 50 for a liquid crystal display disclosed in Patent Document 2, as shown in FIG. 6, a fixed portion 51 attached to the upper side of the outer frame F of the display D, and a display D supported by the fixed portion 51. The brightness sensor S is supported by a fixing means 53 including an arm portion 52 arranged so as to protrude from the surface. As a sensor for measuring the brightness of the display, a contact-type brightness sensor S excellent in price and handling performance is exclusively used.

JP 2003-46751 A JP 2003-294528 A International Publication WO 2004-97510 JP 2009-14699 A JP-A-9-243512

By the way, when measuring the luminance of a display constituting a multi-display system, it is necessary to adjust the luminance of a plurality of displays, so that it takes many times longer than the luminance adjustment of a single display.
However, in such a multi-display system, since the frame of each display is in close contact with the frame of the adjacent display, there is no gap for attaching the above-described holding device to each display. Therefore, in the brightness sensor holding device having the configuration shown in Patent Documents 2 to 5, there is a problem that the brightness sensor attaching operation to the display cannot be performed and the brightness measurement of each display is hindered.

  Furthermore, in addition to using the brightness sensor holding device as shown in Patent Documents 2 to 5, as shown in FIGS. 7 and 8, the bottom surface of the suction cup is brought into close contact with the liquid crystal screen and fixed on the display D. However, it is difficult to bring the brightness sensor S into close contact with the display D with only the suction force of the suction cups. In some cases, troubles occurred.

  The present invention has been made in consideration of such circumstances, and a brightness sensor can be easily and reliably installed for each display constituting a multi-display system, and the brightness of each display is accurately measured. An object of the present invention is to provide a luminance sensor holding device and a luminance sensor holding method that can be used.

  In order to achieve the above object, the present invention provides a luminance sensor holding device for holding a luminance sensor for measuring each luminance of a display constituting a multi-display system, wherein the luminance sensor is provided at one end. A plurality of support members that support the sensor holding unit to be held and are detachably engaged with the gaps of the corners of the display at the other end, the support members being provided at the corners of the display. The luminance sensor held by the sensor holding part at the one end is positioned at the center of the display with the other end attached to at least two.

  Further, the present invention is a luminance sensor holding method for holding a luminance sensor for measuring each luminance of a display constituting a multi-display system, wherein the luminance sensor is located at a central portion of the display Thus, the luminance sensor is supported by the one end portions of the plurality of support members via the sensor holding portion, and the other end portions of the support member are respectively engaged with at least two gaps at the corners of the display. Thus, the support member is supported.

  In the luminance sensor holding device and the luminance sensor holding method of the present invention, by supporting the sensor holding portion at one end of each of the plurality of support members and engaging the gap at the corner of the display at the other end, A brightness sensor can be easily and reliably installed at the center of each display constituting the multi-display system, and the brightness of each display can be accurately measured. At this time, by applying an elastic force to the support member to urge the sensor holding portion toward the surface of the display, the luminance sensor installed in the sensor holding portion is brought into close contact with the surface of the display. As a result, the brightness of the display can be accurately measured by the brightness sensor.

1 is a perspective view showing a state in which a luminance sensor holding device according to an embodiment of the present invention is attached to one display in a multi-display system. It is sectional drawing of the location shown by II in FIG. It is a perspective view which shows the attachment state with respect to the display of the brightness | luminance sensor holding | maintenance apparatus shown in FIG. It is a front view of a brightness sensor holding device. It is a side view of a luminance sensor holding device. It is a figure which shows the engagement protrusion located in the other end part of a brightness | luminance sensor holding | maintenance apparatus. It is an enlarged view of the part shown with the dashed-dotted line of FIG. 5A. It is a side view which shows the conventional brightness | luminance sensor holding | maintenance apparatus. It is a perspective view which shows a contact-type brightness | luminance sensor. It is a perspective view which shows the state which attached the brightness | luminance sensor shown in FIG. 7 to the display.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. The embodiment described below shows an example of the present invention, and the present invention is not limited to this embodiment.

  FIG. 1 shows a multi-display system 100 that can display an image as a whole by arranging a plurality of displays D in close contact with each other. In this example, nine displays D are arranged in three vertical and horizontal directions (3 in the vertical direction). An example in which three units are arranged side by side in the horizontal direction is shown.

FIG. 1 shows an example in which the luminance sensor holding device 1 according to the present invention is attached to one of the nine displays D located at the center. As shown in FIGS. 2 to 4B, the luminance sensor holding device 1 supports the attachment 2 (sensor holding unit) that holds the luminance sensor S at one end 3A, and the other end 3B on the display D. The four support members 3 are detachably engaged with the gaps 10 at the respective corners D1, and the attachment 2 is provided at one end 3A where the four support members 3 are combined. ing.
The attachment 2 holds the luminance sensor S on the inner side so that the luminance sensor S measures the luminance of the display D.

  In such a luminance sensor holding device 1, the luminance sensor S held by the attachment 2 of the one end 3 </ b> A is displayed with the other end 3 </ b> B attached to the gap 10 of each corner D <b> 1 of the display D. It is made to position in the center part of D. Here, the corner D1 of the display D constituting the multi-display system 100 is a portion where the corners D1 of the four displays D are abutted, and is formed at the center as shown in FIG. The other end 3B of the support member 3 is inserted into and engaged with the gap 10.

Each of these support members 3 is formed of a thin rod-like body having appropriate flexibility and elasticity, and is held inside the attachment 2 while being attached to the gap 10 of the display D. The luminance sensor S is urged toward the display D side so as to be in close contact with the surface of the display D.
Further, as shown in detail in FIGS. 2 to 4B, the other end 3B of the support member 3 that is detachably engaged with the gap 10 of the display D has a main body (indicated by reference numeral 3C). A bent structure is formed, and an engaging protrusion 4 that is engaged with the gap 10 at the corner D1 of the display D is formed on the other end 3B. The engagement protrusion 4 is formed in a brush shape as shown in FIG. 5B, and in a state of being inserted into the gap 10 of the display D, the frictional force with each corner 10 of the display D. This makes it difficult for the support member 3 to come out of the gap 10.

  In addition, as a material for the support member 3, plastic can be used in addition to metal. Further, as the luminance sensor S, a close contact type excellent in price and handling performance is used. In addition, the brightness sensor S is held on the surface of the display D by the brightness sensor holding device 1, and its detection unit is arranged to face the image surface of the display D so that the brightness of the display D can be measured. It has become.

  Further, in each support member 3, the main body 3 </ b> C positioned between the one end 3 </ b> A and the other end 3 </ b> B is arranged along the diagonal line of the display D, and the lengths thereof are set equal. As a result, the attachment 2 positioned at the one end 3A of the support member 3 can be positioned at the center of the display D.

In the luminance sensor holding device 1 configured as described above, the attachment 2 is supported by the one end 3A of the four support members 3, and each other end 3B is supported by the gap 10 of the corner D1 of the display D. The brightness sensor S held by the attachment 2 can be positioned in the center of the display D by being engaged with the inside of the display D, and in this state, the detection unit of the brightness sensor S arranged to face the display D The brightness of the image surface of the display D is measured.
The luminance data measured by the luminance sensor S is supplied to the PC 6 via the USB cable 5 as shown in FIG. 1, and then the value is displayed on the PC 6 monitor. The brightness of the display D is adjusted while referring to the brightness data on the monitor. Such brightness adjustment is performed for each of the displays D constituting the multi-display system 100, and thereby the overall brightness of the display D is uniformly adjusted.

  As described in detail above, in the luminance sensor holding device 1 shown in the present embodiment, the attachment 2 is supported by the one end 3A of each support member 3, and the corner D1 of the display D is supported by the other end 3B. By engaging with the gap 10, the brightness sensor S can be easily and reliably installed at the center of each display D constituting the multi-display system 100, and the brightness of each display D can be accurately set. It becomes possible to measure. At this time, the luminance sensor S installed in the attachment 2 is brought into close contact with the surface of the display D by applying an appropriate urging force to the support member 3 toward the surface of the display D. Accordingly, the luminance measurement of the display D by the luminance sensor S can be accurately performed.

In the above embodiment, the display D may be a liquid crystal method or a plasma method, and any method may be used. Further, the arrangement of the display D may be either horizontally long or vertically long.
Further, in the above embodiment, the luminance sensor holding device 1 is configured with the four support members 3 as a set. However, the four support members 3 are engaged with the upper part of the display D (for example, the display D). Further, a support member that is engaged (for example, by providing an engagement hole in the upper part of the screen) may be added, and the luminance sensor S may be supported on the display D in a more stable state.
Moreover, in the said embodiment, although the engagement protrusion 4 engaged with the gap | interval 10 of the corner part D1 of the display D was provided in the other end part 3B of the support member 3, providing this engagement protrusion 4 is essential. Instead, if the other end 3B of the support member 3 is engaged with the gap 10 of the corner D1 of the display D only by the frictional force, the engagement protrusion 4 may be omitted as appropriate.
Further, in the above-described embodiment, the four support members 3 are set as one set and engaged with each corner of the display D. However, the two or three support members 3 are set as one set, and the display You may make it engage with at least 2 or more corners of D.

Moreover, although the said embodiment shows about the structure of the brightness | luminance sensor holding | maintenance apparatus 1, such a structure is "in the state which located the brightness | luminance sensor S in the center part of the display D, of the four support members 3". The luminance sensor S is supported by the one end 3A via the attachment 2, and each other end 3B of the support member 3 is engaged with the gap 10 of each corner D1 of the display D, thereby This is obtained by applying the “luminance sensor holding method for supporting the support member 3”.
In such a brightness sensor holding method, the attachment 2 is supported by the one end 3A of each support member 3, and the other end 3B is engaged with the gap 10 of the corner D1 of the display D. The brightness sensor S can be easily and reliably installed at the center of each display D constituting the multi-display system 100, and the brightness of each display D can be accurately measured.

DESCRIPTION OF SYMBOLS 1 ... Luminance sensor holding device 2 ... Attachment (sensor holding part)
DESCRIPTION OF SYMBOLS 3 ... Support member 3A ... One end part 3B ... Other end part 3C ... Main-body part 4 ... Engagement protrusion 10 ... Gap 100 ... Multi-display system D ... Display D1 ... Corner part S ... Luminance sensor

Claims (5)

A brightness sensor holding device for holding a brightness sensor for measuring each brightness of a display constituting a multi-display system,
A plurality of support members that support the sensor holding unit that holds the luminance sensor at one end and are detachably engaged with the gaps at the corners of the display at the other end,
The support member positions the luminance sensor held by the sensor holding portion of the one end portion at a central portion of the display in a state where the other end portions are respectively attached to at least two corner portions of the display. A brightness sensor holding device. The luminance sensor holding device according to claim 1, wherein the support member is formed of an elastic material so as to bias the sensor holding portion located at one end portion toward the surface of the display.   The support member is arranged along the diagonal line of the display with respect to the display, and the length from one end where the sensor holding unit is installed to the other end installed at the corner of the display is equal. The brightness sensor holding device according to claim 1, wherein the brightness sensor holding device is set.   The engagement protrusion for improving the frictional force with each corner | angular part of the said display is provided in the other end part of the said supporting member, The any one of Claims 1-3 characterized by the above-mentioned. Brightness sensor holding device. A brightness sensor holding method for holding a brightness sensor for measuring each brightness of a display constituting a multi-display system,
In a state where the luminance sensor is positioned at the center of the display, the luminance sensor is supported via a sensor holding portion at one end of a plurality of supporting members, and each other end of the supporting member is A luminance sensor holding method, wherein the support member is supported by engaging with at least two gaps at the corners of the display.

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