JP2014048458A - Support device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable calibration of an image display device using a color measurement sensor without tilting a screen upward.SOLUTION: A support device includes: a fixation part that places the support device on an upper part of an image displaying device so as to fix it; a holding part for holding the color measurement sensor; a suspension part that suspends the holding part from the fixation part; a first rotational mechanism that rotatably supports the suspension part around an axis in parallel with a longitudinal direction of a screen with respect to the fixation part; and a second rotational mechanism that rotatably supports the holding part around the axis in parallel with a longitudinal direction of a screen with respect to the suspension part. While a screen of the image display device is in an upright posture, a relationship of A>C-B is established where A represents a distance between a perpendicular line passing through a rotational center of the first rotational mechanism and a centroid of the color measurement sensor, B represents a distance between the perpendicular line and a light receiving surface of the color measurement sensor, and C represents a distance between the perpendicular line and the screen.

Description

  The present invention relates to a support device for supporting a colorimetric sensor used for calibration of an image display device and mounting it on the image display device.

Monitors (image display devices) are used for applications such as televisions, computer terminals, advertising media, medical equipment, and image production. Among these applications, monitors that are used in graphic relations that create and edit the texture and color of displayed images perform calibration in consideration of the brightness, color temperature, or changes over time of the operating environment. It is necessary to adjust the brightness, color temperature, color gamut, and γ value. The general work procedure for calibration is as follows.
1. Tilt the monitor screen upward.
2. Connect the colorimetric sensor to be calibrated to the USB port of the PC.
3. Launch the calibration software and set the target values for brightness, color temperature, color gamut, and γ value.
4). Perform zero calibration of the colorimetric sensor.
5. Display the measurement patch on the monitor.
6). The colorimetric sensor is brought into close contact with the screen in the displayed patch area.
7). Measurement data is transmitted from the colorimetric sensor to the PC.
8). The PC outputs calculation and correction data to the monitor based on the data.
9. The measurement data is transmitted again from the colorimetric sensor to the PC.
10. The PC calculates based on the data, and if it matches, saves the data.
11. Remove the colorimetric sensor from the monitor screen.
12 An end process is executed to remove the colorimetric sensor from the USB port.
13. Tilt the monitor screen back to the work orientation.

  FIGS. 8A and 8B are diagrams showing the monitor and the colorimetric sensor at the time of the above-described operation. FIG. 8A is a front view, and FIG. This will be described with reference to FIG. A monitor 101 represents a monitor that requires image quality adjustment by calibration work. The operator adjusts the display screen upward by tilting the stand that supports the monitor.

  A panel 102 represents an image display unit using a liquid crystal built in the monitor 101. The structure 103 is a metal part disposed at a position facing the back surface of the panel 102, and although not shown in the drawing, a female screw, a bent portion, a drawn portion, and the like are formed by pressing. The electric mounting unit 104 is formed of an electric board including a power supply circuit, an input circuit, and a control circuit, and is fixed to the structure body 103 with screws.

  The rear cover 105 is an exterior part that covers the back side of the electrical mounting portion 104, and is processed into a predetermined shape by resin molding. The bezel 106 is an exterior part that covers the side surface from the front surface of the panel 102, and is processed into a predetermined shape by resin molding. The fitting structure with the rear cover 105 is not shown. The colorimetric sensor 110 is a calibration optical sensor that combines a solid-state imaging device and a spectroscope, and has a function of measuring the emission color displayed in close contact with the panel 102.

The USB cable 111 is a communication cable for taking measurement data from the colorimetric sensor 110 into a PC (not shown). The weight 112 has a structure that allows the USB cable 111 to pass through an internal through hole, and is formed of a material that slides with a slight frictional force so that the position with respect to the USB cable 111 can be changed.

  A contact portion 113 indicates a close contact portion between the colorimetric sensor 110 and the panel 102. The colorimetric sensor 110 needs to have a light shielding property so that ambient environmental light does not enter the colorimetric sensor 110 when measuring the emission color. This is realized by the contact portion 113.

  The stand 114 is a support structure having a swivel (right and left turning function), up and down (height adjustment function), and tilt (up and down inclination adjustment function) mechanisms for ensuring the visibility of the operator who uses the monitor 101. is there. The reason why the monitor 101 is tilted upward is to ensure that the light receiving surface of the colorimetric sensor 110 is in close contact with the panel 102. Patent Document 1 proposes a calibration device for a liquid crystal display device, a measuring method thereof, and a computer program.

JP 2008-165083 A

  In the conventional calibration work described above, the following problems have occurred. First, in order to bring the colorimetric sensor into close contact with the screen, the monitor must be tilted upward. Second, in order to align the colorimetric sensor, it is necessary to adjust the weight position and the length of the hanging USB cable by the operator each time.

  Therefore, an object of the present invention is to enable calibration of an image display device using a colorimetric sensor without tilting the screen upward.

The present invention is a support device for supporting a colorimetric sensor used for calibration of an image display device and mounting it on the image display device,
A fixing part for mounting and fixing the support device on the upper part of the image display device;
A holding unit for holding the colorimetric sensor;
A suspension part for suspending the holding part from the fixing part;
A first rotation mechanism that supports the suspension part so as to be rotatable about an axis parallel to a horizontal direction of the screen with respect to the fixed part;
A second rotation mechanism for supporting the holding portion so as to be rotatable about an axis parallel to the horizontal direction of the screen with respect to the hanging portion;
With
When the screen of the image display device is in an upright posture, the distance between the perpendicular passing through the rotation center of the first rotation mechanism and the position of the center of gravity of the colorimetric sensor is A, and the perpendicular and the light receiving surface of the colorimetric sensor are Is a supporting device in which the relation of A> CB is established, where B is the distance of B and C is the distance between the perpendicular and the screen.

The present invention is a support device for supporting a colorimetric sensor used for calibration of an image display device and mounting it on the image display device,
A fixing part for mounting and fixing the support device on the upper part of the image display device;
A holding unit for holding the colorimetric sensor;
A suspension part for suspending the holding part from the fixing part;
A first rotation mechanism that supports the suspension part so as to be rotatable about an axis parallel to a horizontal direction of the screen with respect to the fixed part;
A second rotation mechanism for supporting the holding portion so as to be rotatable about an axis parallel to the horizontal direction of the screen with respect to the hanging portion;
An urging unit that generates an urging force that is rotated by the first rotation mechanism in a direction in which the suspension unit is brought close to the screen when the screen of the image display device is in an upright posture;
It is a support apparatus provided with.

  According to the present invention, it is possible to calibrate an image display device using a colorimetric sensor without tilting the screen upward.

Longitudinal cross-sectional view of the main part with the colorimetric sensor and fixing device attached to the image display device It is a three-view figure of a fixing device, (A) is a front view, (B) is a rear view, (C) is a top view. Conceptual diagram showing the positional relationship between the fixing device and the image display surface Longitudinal cross-sectional view of the main part with the colorimetric sensor and fixing device attached to the image display device It is a three-view figure of a fixing device, (A) is a front view, (B) is a side view, (C) is a top view. Front view of width adjustment of fixing device Side view of fixing device depth adjustment Figure of the conventional colorimetric sensor mounted on the image display device

Example 1
FIG. 1 is a longitudinal sectional view of a main part in which a colorimetric sensor and a support device are mounted on an image display device, which best represents the features of the present invention, and FIG. 2 is a three-view drawing of the support device of the present invention. Is a front view, (B) is a rear view, and (C) is a top view. In the top view, the colorimetric sensor is omitted. First, features of the structure will be described with reference to the above drawings.

  An image display device (hereinafter referred to as a monitor) 1 uses a thin flat panel and is connected to an image output device such as a PC to display an image based on an image signal. Up to more than 30 inches is common.

The panel 2 is a thin image display unit in which a transmissive liquid crystal panel and a backlight are combined, and an optical film is bonded to a glass flat plate surface on the front surface.
The structure 3 is a metal part arranged at a position facing the back surface of the panel 2, and although not shown in the drawing, a female screw, a bent portion, a drawn portion, and the like are formed by pressing, and the panel 2 is fixed.

The electrical mounting portion 4 is composed of an electric board including a power supply circuit, an input circuit, and a control circuit, and is fixed to a female screw provided at a bent portion of the structure 3 with a male screw.
The rear cover 5 is an exterior component that covers the back side of the electrical mounting portion 4 and is processed into a predetermined shape by resin molding.
The heat radiating holes 5-a are a plurality of through portions provided near the upper portion of the rear cover 5, and are arranged for the purpose of releasing heat generated in the internal electrical mounting portion 4 and the panel 2.

The bezel 6 is an exterior component that covers the front surface, upper surface, and side surfaces of the panel 2 and is processed into a predetermined shape by resin molding. The fitting structure with the rear cover 5 is not shown.
The support device 7 is a device for mounting a colorimetric sensor 20 described later on the monitor 1 and can be attached and detached without the need for fastening means such as screws.
The fixing portion 8 is a part of a constituent unit of the support device 7 placed on the top surface portion of the bezel 6, and is processed into a predetermined shape by resin molding.

The hook 8-a is a metal part having a hook shape welded and fixed to the rear of the fixing portion 8, and can be fixed by hooking the tip inside the heat radiation hole 5-a. Although it is a metal material, it is soft and can be bent by hand like a wire, so it can be adapted to various monitor shapes. Further, an insulating film is formed on the surface. The hook 8-a is an elastically deformable member that can be locked to the image display device by being deformed according to the shape or structure (opening, recess, projection, etc.) of the exterior part of the image display device by the user. Can be configured.
The hanging part 9 is a resin-molded part with a U-shaped cross-section that is fastened in front of the fixed part 8 and is subjected to a graining process to maintain the appearance quality when viewed from the front of the monitor 1. .

The first hinge 10 is a first rotation mechanism integrally formed in front of the fixed portion 8, and has a rotation shaft (not shown) that penetrates the suspension portion 9.
The holding part 12 is a component provided at the lower end inside the U-shaped section of the hanging part 9 and is processed with a thermoplastic polyester elastomer to have elasticity.
The second hinge 13 is a rotating shaft bonded to the lower end inside the U-shaped section of the hanging part 9, fits in the upper through hole of the holding part 12, and the holding part 12 can rotate with respect to the hanging part 9. To be concluded.

The cable clamp 14 is a convex part integrally formed inside the U-shaped section of the hanging part 9 and has a function of sandwiching a USB cable described later.
The colorimetric sensor 20 is a measuring device incorporating a light receiving element, an optical system, and an electric circuit, which will be described later, and various products having different measurement accuracy, size, and price are commercially available.
The light shielding part 21 is an annular part for the purpose of preventing ambient light from entering the optical system of the colorimetric sensor 20, and is formed of a soft rubber material so as to be in close contact with the display surface of the panel 2.

The optical system 22 is a unit in which lenses are combined in order to collect light emitted from the panel 2 onto a light receiving element described later, and the lens is arranged in a cylindrical portion of a low reflection material.
The light receiving element 23 is an optical sensor that is optimal for calibration combining a solid-state imaging device and a spectroscope, and converts the light emitted from the received panel 2 into R, G, and B colors and then converted into electrical signals.
The amplifier circuit 24 is an electric circuit having a function of amplifying and outputting electric signals of R, G, and B colors converted by the light receiving element 23 and a function of supplying power to the light receiving element 23.

The case 25 is an exterior part that houses the optical system 22, the light receiving element 23, and the amplifier circuit 24, and has a structure that prevents dust and moisture from entering the inside.
The USB cable 26 is a communication cable for taking in an output signal amplified by the amplifier circuit 24 of the colorimetric sensor 20 to a PC (not shown), and also has a function of supplying power to the colorimetric sensor 20.
Next, the features of the structure of the present invention will be described with reference to a conceptual diagram (vertical section) showing the positional relationship between the fixing device and the image display surface in FIG. FIG. 3 shows a state in which the screen of the image display apparatus is in an upright posture.

The perpendicular line 30 is an imaginary perpendicular line that passes through the rotation center of the first hinge 10 (the center at which the hanging portion 9 rotates). Here, the perpendicular line 30 is a straight line (one point in FIG. 3) perpendicular to the rotation axis of the first hinge 10 (straight line perpendicular to the paper surface of FIG. 3) and parallel to the display surface of the panel 2 and intersecting with the rotation axis of the first hinge 10. Means a chain line). The vertical line 30 is parallel to the vertical direction with the panel 2 standing upright on the horizontal installation surface.
The center of gravity 31 represents the position of the center of gravity of the colorimetric sensor 20.
A represents the distance between the vertical line 30 and the center of gravity 31, B represents the distance between the vertical line 30 and the tip (light receiving surface) of the light-shielding part 21 of the colorimetric sensor 20, and C represents the distance between the vertical line 30 and the display surface of the panel 2. It represents the distance. The above three values A, B, and C satisfy the following relationship.

A> C-B

The procedure of the operator when the colorimetric sensor is mounted on the monitor and calibration is performed using the fixing device having the above configuration will be described.
1. The support device composed of the fixing part 8, the hanging part 9 and the holding part 12 is taken out.
2. A commercially available colorimetric sensor 20 is taken out.
3. 3. Widen left and right curved parts of the holding part 12 in order to fit the colorimetric sensor 20 inside the holding part 12. The colorimetric sensor 20 is inserted into the holding unit 12, and the hand is released from the left and right curved portions of the holding unit 12 in accordance with the position shown in FIG.
5. After confirming that the colorimetric sensor 20 is fixed to the support device 7, the USB cable 26 is placed inside the hanging portion 9.
6). The USB cable 26 after being fitted to the cable clamp 14 is pulled out beyond the first hinge 10 and behind the fixing portion 8.
7). The hook 8-a of the support device 7 is hooked on the heat radiation hole 5-a (see FIG. 1), and the fixing portion 8 is placed on the bezel 6.
8). Check the close contact between the light shielding part 21 and the display surface of the panel 2, and if there is a gap, adjust the bending condition of the hook 8-a to move the first hinge 10 toward the back of the monitor 1 and connect the vertical line 30 to the panel. Move closer to 2. At this time, if the three values A, B, and C described in FIG. 3 satisfy A> C−B, the light shielding portion 21 and the display surface of the panel 2 are in close contact with each other.
9. Perform calibration work by operating the PC.
10. After the calibration is completed, the procedures in the items 1 to 7 are executed in reverse to complete the calibration work.

To summarize the configuration described above, the support device of the present embodiment has the following characteristics.
1. The support device 7 for mounting the colorimetric sensor 20 on the monitor 1 is composed of a fixing part 8, a hanging part 9, and a holding part 12.
2. The fixed portion 8 is mounted on the top surface of the bezel 6 and is provided with a hook 8-a at the rear end when viewed from the front of the monitor 1 screen, and the tip is hooked inside the heat radiating hole 5-a which is a heat radiating opening. 2. Fix. The material of the hook 8-a that is a locking portion for locking the support device to the back surface of the monitor 1 is a material (soft metal) that can be deformed by the user (operator) by hand. Further, an insulating film is formed on the surface.
4). The suspending portion 9 is rotatably supported by a first hinge 10 integrally formed in front of the fixing portion 8.
5. The hanging part 9 is a resin-molded part having a U-shaped cross section. The front side is subjected to a textured process, and a cable clamp 14 is formed on the inner side.
6). The holding portion 12 is rotatably supported by the second hinge 13 provided at the lower end portion of the hanging portion 9.
7). Since the holding part 12 is formed of an elastic material processed with a thermoplastic polyester elastomer, the colorimetric sensor 20 can be inserted and held by being spread by hand.
8). The distance between the vertical line 30 passing through the first hinge 10 and the center of gravity of the colorimetric sensor 20 is A, the distance between the vertical line 30 and the light-shielding portion 21 is B, and the distance between the vertical line 30 and the display surface of the panel 2 is C. At this time, it has a structure in which a relationship of A> CB is established.
9. In order to establish the relationship of A> CB, the position of the first hinge 10 in the front-rear direction can be adjusted by adjusting the bending state of the hook 8-a.

  As another method for establishing the relationship of A> C−B, a sliding mechanism that can adjust the front-rear direction of the fixing portion 8 (the depth direction of the monitor) is provided in the fixing portion 8, and the first hinge 10 The position may be adjusted.

Due to the above characteristics, this configuration has the following effects.
1. The support device for mounting the colorimetric sensor on the monitor rotatably supports the hanging portion with the first hinge of the fixed portion, and rotatably supports the holding portion with the second hinge of the hanging portion. Therefore, since the colorimetric sensor faces the panel display surface without inclination, the measurement accuracy of calibration is improved.
2. Since the colorimetric sensor holding part is formed of an elastic member, and the colorimetric sensor is detachably held by elastic force, it is easy to attach and detach, and can be applied to colorimetric sensors of various sizes and shapes. Increased versatility.
3. The front-rear position of the first hinge can be changed by adjusting the bent portion of the hook. Therefore, the colorimetric sensor can be brought into close contact with the panel display surface, and the calibration measurement accuracy is further improved.
4). By establishing the relationship of A> C−B by the position adjustment, calibration work can be performed without tilting the monitor, and workability is improved.
5. Since the fixing portion is placed on the top of the monitor and the hook can be inserted into the monitor heat radiating hole, it can be attached and detached without requiring a fastening means such as a screw, so that workability is improved.
6). Since the hook is made of a soft metal, it can be applied to monitors having different positions and thicknesses of the heat radiation holes, thereby increasing the versatility of the fixing device.
7). Since an insulating coating is formed on the hook surface, it is possible to prevent an electric shock from being inserted into the heat radiation hole.
8). Since the hanging part has a U-shaped cross section, a texture is formed on the outer surface, and a cable clamp is provided on the inside so that the USB cable can be wired, thereby improving the appearance quality.

  Even when the first hinge position is adjusted by providing a mechanism capable of sliding in the front-rear direction on the fixed portion, the colorimetric sensor can be brought into close contact with the panel display surface, thereby improving the measurement accuracy of calibration. In the present embodiment, the hook is inserted into the heat radiating hole of the monitor and the fixing portion is mounted. However, the present invention is not limited to this. The fixing portion may be mounted by using another structure of the monitor capable of inserting, fitting or locking the hook.

(Example 2)
FIG. 4 is a longitudinal sectional view of an essential part in a state where a colorimetric sensor is mounted on the image display device by the support device of the second embodiment of the present invention. FIG. 5 is a three-side view of the support device of the second embodiment of the present invention, in which (A) is a front view, (B) is a side view, and (C) is a top view. In the top view, the colorimetric sensor is omitted.
The features of the structure will be described with reference to the above drawings, but the description of the same configuration and the same parts as those in the first embodiment will be omitted.

The support device 40 is a device for mounting a colorimetric sensor 46, which will be described later, on the monitor 1, and can be attached and detached without the need for fastening means such as screws.
The fixing portion 41 is a part of a constituent unit of the support device 40 placed on the top surface portion of the bezel 6, and is processed into a predetermined shape by rubber molding. Since it is thick, it has mass and is difficult to slide against the bezel 6.
The cable groove 42 is formed of a thin groove integrally formed on the front and rear sides of the fixing portion 41, and has a size capable of storing the USB cable 26.

The hanging portion 43 is a lightweight aluminum alloy part made of two substantially parallel square bars fastened to the front of the fixed portion 41 so as to be rotatable. A plurality of penetrations are formed at predetermined positions. In addition, a present Example is an example of this invention, A suspending part can be comprised by at least 2 rod-shaped member.
The width adjusting unit 44 is a unit that is arranged using a penetrating portion provided near the center of the hanging part 43, and has a function of adjusting the interval between the two square bars constituting the hanging part 43. Yes.
The holding part 45 is a unit arranged using a through part provided below the suspension part 43 and has a symmetrical shape. The right and left holding portions 45 have a function of holding the colorimetric sensor 46 rotatably.

The colorimetric sensor 46 is a measuring device that incorporates the same functional components as in the first embodiment. However, the measuring accuracy is different from that in the first embodiment, and the product is an enlarged size.
The light shielding part 47 is an annular part for the purpose of preventing ambient light from entering the optical system of the colorimetric sensor 46, and is formed of a soft rubber material so as to be in close contact with the display surface of the panel 2.
The rotating portion 48 is a second rotating mechanism provided at the upper end of the hanging portion 43, and can be rotated around a rotating shaft (not shown) extending from the fixed portion 41 and has a retaining structure (not shown). ing.

The first coil spring 49 is a coil spring that urges the hanging portion 43 in the direction of the panel 2 of the monitor 1. One end is located on the upper surface of the fixing portion 41, and the other end is located on the front surface of the hanging portion 43. The first coil springs 49 are arranged to face each other.
The spring holder 50 is a circular component disposed between the fixed portion 41 and the rotating portion, and the first coil spring 49 is positioned in a groove formed in the central portion. The spring holder 50 is disposed so as to face the left and right sides of the fixing portion 41.

The spacer 51 is a main part constituting the width adjusting portion 44 and is disposed so as to be sandwiched between the left and right hanging portions 43. The spacer 51 is made of an aluminum alloy and is processed into a predetermined shape by lathe processing.
The male screw 52 is a screw integrally formed at both ends of the spacer 51, and is supported by penetrating a through portion provided near the center of the hanging portion 43.
The adjusting female screw 53 is a screw that fits into the male screw 52, and has an outer periphery that is knurled so that it can be easily turned by hand. The adjusting female screw 53 is disposed so as to face the left and right sides of the hanging portion 43.

The second coil spring 54 is a compression coil spring interposed between the inner walls of the two square bars of the hanging portion 43 and the spacer 51, and is disposed so as to face both end portions of the spacer 51. Has penetrated.
The washer 55 is attached to both ends of the spacer 51 to prevent the second coil spring 54 from coming off.
The angle adjusting screw 56 is a male screw having a knob whose outer periphery is knurled so that it can be easily turned by hand, and is arranged to face each other so as to pass through a penetrating portion provided in the hanging portion 43.

The holding plate 57 is a metal part in which a female screw is processed at the center, and the male screw portion of the angle adjusting screw 56 is fitted.
The elastic portion 58 is an elastic member that is bonded and fixed to the holding plate 57, and a rubber-based material having a large frictional force is used to sandwich the colorimetric sensor 46.
The long hole 59 is a through portion provided below the hanging portion 43, and the male screw portion of the angle adjusting screw 56 passes therethrough.

Next, how to use the support device 40 of this embodiment will be described. 6 is a front view when the width of the support device 40 is adjusted, and FIG. 7 is a side view when the depth of the support device 40 is adjusted.

First, in FIG. 6, it is assumed that the colorimetric sensor 60 is wider than the colorimetric sensor 46 described above, and the work procedure in this case is as follows.
1. The colorimetric sensor 60 is placed beside the support device 40.
2. The distance between the left and right holding parts 45 provided in the hanging part 43 is compared with the width of the colorimetric sensor 60.
3. The left and right holding portions 45 are moved in the B and B ′ directions by rotating the adjusting female screw 53 in the direction of loosening both left and right.
4). It is confirmed by the second coil spring 54 that the interval between the suspended portions 43 is widened. 5. When the interval between the hanging parts 43 is wider than the lateral width of the colorimetric sensor 60, the colorimetric sensor 60 is temporarily arranged between the left and right holding parts 45.
6). Loosen the left and right angle adjusting screws 56.
7). Since the holding portion 45 can move up and down using the long hole 59 as a guide, the holding portion 45 is aligned near the center of the colorimetric sensor 60 in the vertical direction.
8). The adjustment female screw 53 is turned in the tightening direction, and it is confirmed that the left and right elastic parts 58 hold the colorimetric sensor 60 together.
9. Tighten the angle adjusting screw 56 on both the left and right sides.
10. Hold the holding portion 45 near the right hand and the fixing portion 41 with the left hand, and place the fixing portion 41 on the top surface of the bezel 6 of the monitor 1. At this time, adjustment is made with the right hand so that the colorimetric sensor 60 is brought into close contact with the display surface of the panel 2 gently.
11. Finally, the USB cable 26 is processed.
The right hand and the left hand may be arbitrarily selected by the operator.

Next, in FIG. 7, an example of a procedure for adjusting the position of the hanging portion 43 when the monitor 1 to be mounted is changed to a thicker model and calibration is performed is illustrated.
Note that items 1 to 10 of the work performed in the width adjustment are the same, and a description thereof will be omitted.
1. Since the thickness of the monitor 1 is increased when the support device 40 is mounted, the light shielding portion 47 is inclined with respect to the display surface of the panel 2. This is because the angle formed by the hanging portion 43 with respect to the fixed portion 41 has expanded in the A direction.
2. Loosen the left and right angle adjusting screws 56 slightly. At this time, since the width adjusting unit 44 defines the interval between the left and right square bars of the hanging unit 43, the colorimetric sensor 46 does not fall.
3. The colorimetric sensor 46 is rotated around the angle adjusting screw 56 as a rotation center, and is brought into close contact with the display surface of the panel 2.
4). Tighten the angle adjusting screw 56.
5. Finally, the USB cable 26 is processed.

To summarize the configuration described above, the support device of the present embodiment has the following characteristics. The description will focus on features that are different from the first embodiment.
1. The support device 40 for mounting the colorimetric sensor 46 on the monitor 1 is composed of a fixing part 41, a hanging part 43, a width adjusting part 44, and a holding part 45.
2. Since the fixing portion 41 is thick so that it is difficult to slide with respect to the top surface portion of the bezel 6, a rubber molded product having a mass is employed.
3. The suspending portion 43 is made of aluminum alloy and includes two substantially parallel square bars, and is fastened to the fixing portion 41 so as to be rotatable. A plurality of through portions are formed at predetermined positions.
4). The width adjusting unit 44 has a function of adjusting the interval between the two square bars constituting the hanging unit 43.
5. The holding unit 45 has a function of holding the colorimetric sensor 46 rotatably.
6). The fastening portion between the hanging portion 43 and the fixing portion 41 is an urging portion including a rotating portion 48, a first coil spring 49, and a spring holder 50, and is attached to rotate the hanging portion 43 in the direction of the panel 2 by a spring force. Generate power. The first coil spring 49 continues to act stably by the spring holder 50.
7). The width adjusting portion 44 is arranged so as to be sandwiched between two square bars, a spacer 51 having male screws 52 penetrating the square bars formed at both ends, and arranged between the square bars and the spacer 51 so as to reduce the interval between the square bars. A second coil spring 54 and a washer 55, which are urging members for urging each square bar in the spreading direction, are arranged. An adjustment female screw 53 is fastened from the outside of the square bar to the left and right male screws 52 penetrating the square bar. Therefore, if the female screw 53 is loosened, the space between the left and right square bars is widened, and if tightened, the space is narrowed, so that the width of the colorimetric sensor 46 in the left-right direction can be adapted.
8). The holding portion 45 is an elastic portion 58 that passes through the angle adjusting screw 56 from the left and right outer sides of the square bar of the suspending portion 43 and is in contact with the color measuring sensor 46 and the holding plate 57 in which the female screw is processed inside the left and right square bars. Configured. Therefore, the colorimetric sensor 46 can be pinched while being able to rotate while suppressing sliding. Even when the thickness of the colorimetric sensor 46 to be sandwiched or the thickness of the monitor changes and the light-shielding portion 47 and the display screen of the panel 2 do not adhere to each other, the angle adjustment screw 56 is loosened to adjust the angle of the colorimetric sensor 46. By adjusting, it is possible to bring the light shielding portion 47 into close contact with the display screen of the panel 2.
9. Since the holding part 45 can move along a long hole 59 which is a through hole formed in the vertical direction along a square bar provided below the hanging part 43, the upper and lower sides of the colorimetric sensor 46 with respect to the display screen of the panel 2. The position of the direction (height) can be adjusted. The angle adjusting screw 56 can be loosened and moved and fastened and fixed.
10. The USB cable 26 can be stored in the cable groove 42 provided in the fixing portion 41.
11. The adjusting female screw 53 and the angle adjusting screw 56 are each knurled on the outer periphery.

Due to the above characteristics, this configuration has the following effects.
1. The support device for mounting the colorimetric sensor on the monitor is a mechanism that urges the hanging portion in the panel direction by a first coil spring and a spring holder provided in a rotating mechanism of the fixing portion and the hanging portion. For this reason, even when the monitor is tilted downward, the colorimetric sensor is in close contact with the panel display surface, and calibration work is possible.
2. The width adjustment part composed of the spacer, the second coil spring and the washer is provided in the suspension part, so the distance between the right and left square bars constituting the suspension part can be changed by the adjustment female screw, so it can be installed The width constraint in the left-right direction has been reduced, and versatility has been expanded.
3. The holding plate and the elastic part were disposed inside the left and right square bars of the hanging part, and an angle adjusting screw penetrating the square bar from the outside was fastened. Therefore, the vertical inclination (rotation angle (tilt angle) around the horizontal axis) of the color measurement sensor can be adjusted in a state where the color measurement sensor is sandwiched. As a result, the influence of the thickness of the monitor is suppressed, and the colorimetric sensor can be brought into close contact with the display surface of the panel in monitors having various thicknesses. Therefore, the thickness limitation of the monitor that can be used for calibration is reduced, and versatility is expanded.
4). Since the angle adjusting screw is loosened and the holding part can move along the elongated hole provided in the hanging part, the vertical direction (height) of the colorimetric sensor with respect to the display screen of the panel can be adjusted. For this reason, the support device of this embodiment can be used to mount the colorimetric sensor on a panel having various screen dimensions, and versatility is expanded. Further, since the range on the display screen of the panel that can be measured without moving the support device is enlarged, the workability of calibration is improved.
5. Since the USB cable can be stored in the groove provided in the fixed part, the appearance is improved.
6). Workability is good because the screw that is loosened or tightened during width adjustment or angle adjustment is provided with a non-slip.

7, 40 Support device; 8, 41 Fixing part; 9, 43 Hanging part; 10 First hinge; 12, 45 Holding part; 13 Second hinge; 20, 46, 60 Colorimetric sensor

Claims (18)

A support device for supporting a colorimetric sensor used for calibration of an image display device and mounting it on the image display device,
A fixing part for mounting and fixing the support device on the upper part of the image display device;
A holding unit for holding the colorimetric sensor;
A suspension part for suspending the holding part from the fixing part;
A first rotation mechanism that supports the suspension part so as to be rotatable about an axis parallel to a horizontal direction of the screen with respect to the fixed part;
A second rotation mechanism for supporting the holding portion so as to be rotatable about an axis parallel to the horizontal direction of the screen with respect to the hanging portion;
With
When the screen of the image display device is in an upright posture, the distance between the perpendicular passing through the rotation center of the first rotation mechanism and the position of the center of gravity of the colorimetric sensor is A, and the perpendicular and the light receiving surface of the colorimetric sensor are A support device that satisfies the relationship of A> CB, where B is the distance B and C is the distance between the perpendicular and the screen.   The support device according to claim 1, wherein the holding portion includes an elastic member, and the colorimetric sensor is held by an elastic force of the elastic member.   The support device according to claim 2, wherein the holding unit detachably holds the colorimetric sensor.   The said holding | maintenance part can change the position which hold | maintains the said colorimetric sensor in the direction which makes the distance of the said perpendicular and the position of the gravity center of the said colorimetric sensor approach or separate | separate. Support device.   The support device according to any one of claims 1 to 4, wherein the hanging part includes a fastening part that sandwiches a cable from the colorimetric sensor.   The support device according to any one of claims 1 to 5, wherein the fixing portion includes a locking portion for locking the support device on a back surface of the image display device.   The support device according to claim 6, wherein the locking portion has a shape for locking the support device to a shape or structure of an exterior part of the image display device.   The support device according to claim 6 or 7, wherein the locking portion is formed of a material that is elastically deformed.   The support device according to any one of claims 6 to 8, wherein the locking portion is formed of a soft metal on which an insulating film is formed. A support device for supporting a colorimetric sensor used for calibration of an image display device and mounting it on the image display device,
A fixing part for mounting and fixing the support device on the upper part of the image display device;
A holding unit for holding the colorimetric sensor;
A suspension part for suspending the holding part from the fixing part;
A first rotation mechanism that supports the suspension part so as to be rotatable about an axis parallel to a horizontal direction of the screen with respect to the fixed part;
A second rotation mechanism for supporting the holding portion so as to be rotatable about an axis parallel to the horizontal direction of the screen with respect to the hanging portion;
An urging unit that generates an urging force that is rotated by the first rotation mechanism in a direction in which the suspension unit is brought closer to the screen in a posture in which the screen of the image display device is upright;
A support device comprising:   11. The support device according to claim 10, wherein the suspension part includes at least two bar-like members that are rotatable by the first rotation mechanism and are provided at symmetrical positions in the left-right direction with respect to the fixed part.   The support device according to claim 11, wherein the holding portion has a structure in which the colorimetric sensor is sandwiched between holding plates provided in each of at least two rod-like members of the hanging portion.   The support device according to claim 12, wherein the holding plate is provided with an elastic member at a position in contact with the colorimetric sensor.   14. The holding plate is fixed to the rod-like member by a screw passing through each of the rod-like members, and the force with which the holding plate clamps the colorimetric sensor can be adjusted by loosening or tightening the screw. The support device according to any one of the above.   The through hole of the screw is formed in a vertical direction along the rod-shaped member, and the position of the holding plate can be adjusted in the vertical direction along the rod-shaped member by changing a position where the screw is fastened. The support apparatus as described in.   The support device according to any one of claims 10 to 15, wherein the fixing portion is formed of a thick rubber molded product and fixes the support device by a frictional force with respect to a top surface portion of the image display device.   The support device according to any one of claims 10 to 16, wherein the urging portion includes a coil spring that urges the suspension portion in a direction to approach the screen by the second rotation mechanism.   The suspending portion is disposed so as to be sandwiched between at least two rod-shaped members, has a male screw passing through the rod-shaped member, and is disposed between the spacer and each rod-shaped member in a direction of widening the interval between the rod-shaped members. The biasing member that biases each rod-shaped member, and a screw that applies a force to move each rod-shaped member in a direction of narrowing the interval between the rod-shaped members by fitting and tightening to the male screw. The support apparatus of any one of Claims.

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