JP2010276902A - Projector device and method for operating the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inexpensive projector device enabling a user to easily perform focus adjustment. <P>SOLUTION: The projector device includes: a projection lens 4; a focus adjustment/fine adjustment part 9 that adjusts a focal length of the projection lens 4 from a minimum length to a maximum length; and an automatic focus adjustment touch sensor 2 that starts/stops adjusting operation of the focus adjustment/fine adjustment part 9 in response to user's external starting/stopping operation. After the adjusting operation is stopped, the focus adjustment/fine adjustment part 9 finely adjusts the focal length of the projection lens 4, and a focus fine adjustment touch sensor 3 controls fine adjusting operation of the focus adjustment/fine adjustment part 9 in response to external fine adjusting operation. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a projector device that facilitates focus adjustment and a focus adjustment system thereof.

  In a projector device that projects an image on a screen, it is necessary to adjust the focus of the projection lens so that the image is clearly formed on the screen. However, if the user has to manually adjust the focus each time the projector apparatus is installed, it becomes a burden on the user.

  As an improvement measure to reduce this burden, in Patent Document 1, a distance measuring sensor is provided to continuously measure the distance to the projection surface, and the focus of the projection lens is automatically adjusted according to the distance to the projection surface. A projector apparatus having an autofocus adjustment function has been proposed.

JP 2004-233115 A

  However, if a distance measuring sensor is provided to realize autofocus adjustment as in the projector device of Patent Document 1, there is a problem that the cost is increased and the projector device becomes expensive.

  On the other hand, if the user manually adjusts the focus, it is unclear at a glance whether the user should make the focal length of the projection lens closer or farther to focus on the screen. In this case, the focal length adjustment direction becomes confusing and inconvenience is felt.

  SUMMARY OF THE INVENTION In view of the above-described problems, an object of the present invention is to provide a projector device that allows a user to easily perform focus adjustment at low cost.

  The projector device of the present invention includes a projection lens, a focus adjustment unit that adjusts the focal length of the projection lens from the minimum distance to the maximum distance, and an external unit that starts / stops the adjustment operation of the focus adjustment unit in response to an external start / stop operation. An instruction unit.

  Further, the operation method of the projector device according to the present invention includes (a) a step of starting the adjustment operation of the focus adjustment unit by an external operation of the external instruction unit, and (b) an external stop of the external instruction unit after the step (a). A step of stopping the adjustment operation of the focus adjustment unit by an operation, and a step of performing a fine adjustment operation of the focus fine adjustment unit by an external fine adjustment operation of the external instruction unit after step (c).

  The projector device of the present invention includes a focus adjustment unit that adjusts the focal length of the projection lens from the minimum distance to the maximum distance, an external instruction unit that starts / stops the adjustment operation of the focus adjustment unit in response to an external start / stop operation, Is provided. Thereby, it becomes a low-cost projector device, and the user can easily perform the focus adjustment.

  Further, the operation method of the projector device according to the present invention includes (a) a step of starting the adjustment operation of the focus adjustment unit by an external operation of the external instruction unit, and (b) an external stop of the external instruction unit after the step (a). A step of stopping the adjustment operation of the focus adjustment unit by an operation, and a step of performing a fine adjustment operation of the focus fine adjustment unit by an external fine adjustment operation of the external instruction unit after step (c). As a result, the user can easily adjust the focus while the projector apparatus is low cost.

It is the schematic of the projector apparatus of this invention. It is a figure which shows the example of the focus adjustment dialog of this invention. 1 is a block diagram showing a configuration of a projector device according to a first embodiment. FIG. 6 is a diagram illustrating an operation of the projector device according to the first embodiment. FIG. 6 is a block diagram illustrating a configuration of a projector device according to a second embodiment. FIG. 10 is a diagram illustrating an operation of the projector device according to the second embodiment. FIG. 11 is a diagram illustrating an operation of the projector device according to the third embodiment.

(Embodiment 1)
<Configuration>
FIG. 1 is a schematic diagram of a projector device 1 according to the first embodiment. The projector device 1 includes a projection lens 4 that projects an image on a screen 5. Further, the projector apparatus 1 includes an automatic focus adjustment touch sensor 2 that starts / stops the adjustment operation (scan) of the focal length of the projection lens 4 and a fine focus adjustment touch that finely adjusts the focal length of the projection lens 4 after the scan is stopped. Sensor 3. The focus automatic adjustment touch sensor 2 is one touch sensor, and starts scanning by the first touch operation and stops scanning by the second touch operation. The focus fine adjustment touch sensor 3 includes two touch sensors: a touch sensor that slightly increases the focal length and a touch sensor that slightly decreases the focal length. These are a part of the focus adjustment mechanism of the projection lens 4 to be described later with reference to FIG.

  FIG. 3 is a block diagram illustrating a configuration of the focus adjustment mechanism of the projection lens 4 provided in the projector device 1 according to the first embodiment. In addition to the projection lens 4, the focus adjustment mechanism of the projection lens 4 includes the above-described automatic focus adjustment touch sensor 2 and focus fine adjustment sensor 3 on which the user performs a touch operation, and a microcomputer circuit that performs control by receiving these operation signals. 7, a focus adjustment unit / fine adjustment unit 9 that adjusts / fine-adjusts the focal length of the projection lens 4 under the control of the microcomputer circuit 7, and an image to be projected from the projection lens 4 under the control of the microcomputer circuit 7. And a video signal output unit 8 for outputting.

<Operation>
The operation of the focus adjustment mechanism of the projection lens 4 provided in the projector device 1 according to the first embodiment will be described with reference to FIG. First, when the user touches the automatic focus adjustment touch sensor 2 and performs an external start operation, the microcomputer circuit 7 issues a command to the video signal output unit 8 to output the focus adjustment dialog 6, and at the same time, the focus adjustment / fine adjustment is performed. A command is issued to the adjustment unit 9 to start focus adjustment. At this stage, some characters are displayed in the focus adjustment dialog 6 output from the video signal output unit 8 to the projection lens 4 so that the user can confirm how the focus adjustment is performed.

  FIG. 4 shows the focus adjustment operation of the projection lens 4 performed by the focus adjustment / fine adjustment unit 9. When the position where the focal length of the projection lens 4 is maximized is the maximum position, and the position where the focal length is the minimum is the minimum position, the focus adjustment / fine adjustment unit 9 that receives a command from the microcomputer circuit 7 moves the projection lens 4 to the minimum position. Move. At this time, assuming that the time required for the projection lens 4 to move from the maximum position to the minimum position is the maximum required time T, the focus adjustment / fine adjustment unit 9 moves the projection lens 4 toward the minimum position by the maximum required time T. You can do it. If the projection lens 4 is idle at the minimum position and does not advance any further, the projection lens 4 can be moved to the minimum position regardless of the position.

  After moving the projection lens 4 to the minimum position, the focus adjustment / fine adjustment unit 9 scans the focal length from the minimum distance to the maximum distance by moving the projection lens 4 from the minimum position to the maximum position. When the user looks at the display of the focus adjustment dialog 6 on the screen 5 and touches the automatic focus adjustment touch sensor 2 and performs an external stop operation when the focus is achieved, the microcomputer circuit 7 causes the focus adjustment / fine adjustment unit. 9 is instructed to stop the projection lens 4, and the projection lens 4 stops at the in-focus position. If the user does not interrupt the scan, the projection lens 4 moves from the minimum position for the maximum required time T and then stops at the maximum position.

  That is, the projector device according to the first embodiment includes a projection lens 4, a focus adjustment unit (focus adjustment / fine adjustment unit 9) that adjusts the focal length of the projection lens 4 from the minimum distance to the maximum distance, and an external start / stop operation. And an external instruction unit (automatic focus adjustment touch sensor 2) for starting / stopping the adjustment operation of the focus adjustment / fine adjustment unit 9. Since the focus adjustment / fine adjustment unit 9 adjusts the focal length of the projection lens 4 from the minimum distance to the maximum distance, the user may stop the adjustment operation by the automatic focus adjustment touch sensor 2 when the focus is achieved. Therefore, the user can easily perform focus adjustment without wondering whether the focal length of the projection lens 4 is reduced or not. Further, since no distance measuring sensor is used, the cost of the projector device can be reduced.

  The focus adjustment unit (focus adjustment / fine adjustment unit 9) moves the projection lens 4 toward either the minimum position where the focal length is minimum or the maximum position where the focal length is maximum, and then toward the other end. The adjustment operation is performed by moving it. As a result, the focal length of the projection lens 4 can be moved to the entire range from the minimum distance to the maximum distance, and the optimum focal length can be found from the range.

  Further, the focus adjustment unit 9 moves the projection lens 4 to the other end and then stops the projection lens 4 at the other end. Thus, even when the user does not operate the automatic focus adjustment touch sensor 2 and does not stop the focus adjustment operation, the adjustment operation is automatically stopped after the projection lens 4 is moved to the entire range.

  The external instruction unit (automatic focus adjustment touch sensor 2) includes one touch sensor that performs an external start operation by the first operation and an external stop operation by the second operation. By combining the touch sensor that starts the scan and the touch sensor that interrupts the scan, there is an advantage that the cost can be reduced by reducing the number of parts, and the user can operate without hesitating which touch sensor to use. is there.

  When the external stop operation is performed and the automatic focus adjustment is completed, the focus adjustment dialog 6 displays as shown in FIG. 2 and prompts the user to perform a fine adjustment of the focus. The user performs fine adjustment by touching the focus fine adjustment touch sensor 3. In the present embodiment, there are two types of focus fine adjustment touch sensors 3, that is, a touch sensor that increases the focal length and a touch sensor that decreases the focal length. Using these, fine adjustment of the focus is performed to adjust the focus. Complete.

  In other words, the projector device according to the first embodiment has a focus fine adjustment unit (focus adjustment / fine adjustment) that finely adjusts the focal length of the projection lens 4 after the adjustment operation of the focus adjustment unit (focus adjustment / fine adjustment unit 9) is stopped. The external instruction unit (focus fine adjustment touch sensor 2) controls the fine adjustment operation of the focus adjustment / fine adjustment unit 9 in response to the external fine adjustment operation. As a result, accurate focus adjustment is possible. Further, when the projection lens 4 is originally focused to some extent, only the fine adjustment operation may be performed without performing the automatic adjustment operation by the focus adjustment / fine adjustment unit 9.

  Further, the external instruction section (focus fine adjustment touch sensor 2) includes two touch sensors that separately perform a slight increase / decrease in the focal length. Thereby, the focus fine adjustment can be easily performed, and the focus adjustment with high accuracy becomes possible.

  In the operation method of the projector device according to the first embodiment, (a) the adjustment operation of the focus adjustment unit (focus adjustment / fine adjustment unit 9) is started by an external operation of the external instruction unit (automatic focus adjustment touch sensor 2). And (b) after step (a), stopping the adjustment operation of the focus adjustment unit (focus adjustment / fine adjustment unit 9) by external stop operation of the external instruction unit (automatic focus adjustment touch sensor 2), (C) After step (b), performing a fine adjustment operation of the focus fine adjustment unit (focus adjustment / fine adjustment unit 9) by an external fine adjustment operation of the external instruction unit (focus fine adjustment touch sensor 3). Prepare. As a result, the user can easily adjust the focus without wondering whether the focal length of the projection lens 4 is reduced or not. Further, since no distance measuring sensor is used, the cost of the projector device can be reduced.

<Effect>
According to the projector device of the first embodiment, the following effects can be obtained as described above. That is, the projector device according to the first embodiment includes a projection lens 4, a focus adjustment unit (focus adjustment / fine adjustment unit 9) that adjusts the focal length of the projection lens 4 from the minimum distance to the maximum distance, and an external start / stop operation. And an external instruction unit (automatic focus adjustment touch sensor 2) for starting / stopping the adjustment operation of the focus adjustment / fine adjustment unit 9. Since the focus adjustment / fine adjustment unit 9 adjusts the focal length of the projection lens 4 from the minimum distance to the maximum distance, the user may stop the adjustment operation by the automatic focus adjustment touch sensor 2 when the focus is achieved. Therefore, the user can easily perform focus adjustment without wondering whether the focal length of the projection lens 4 is reduced or not. Further, since no distance measuring sensor is used, the cost of the projector device can be reduced.

  The projector device further includes a focus fine adjustment unit (focus adjustment / fine adjustment unit 9) that finely adjusts the focal length of the projection lens 4 after the adjustment operation of the focus adjustment unit (focus adjustment / fine adjustment unit 9) is stopped. The external instruction section (focus fine adjustment touch sensor 2) controls the fine adjustment operation of the focus adjustment / fine adjustment section 9 in response to an external fine adjustment operation. As a result, accurate focus adjustment is possible. Further, when the projection lens 4 is originally focused to some extent, only the fine adjustment operation may be performed without performing the automatic adjustment operation by the focus adjustment / fine adjustment unit 9.

  The focus adjustment unit (focus adjustment / fine adjustment unit 9) moves the projection lens 4 toward either the minimum position where the focal length is minimum or the maximum position where the focal length is maximum, and then toward the other end. The adjustment operation is performed by moving it. As a result, the focal length of the projection lens 4 can be moved to the entire range from the minimum distance to the maximum distance, and the optimum focal length can be found from the range.

  Further, the focus adjustment unit 9 moves the projection lens 4 to the other end and then stops the projection lens 4 at the other end. Thus, even when the user does not operate the automatic focus adjustment touch sensor 2 and does not stop the focus adjustment operation, the adjustment operation is automatically stopped after the projection lens 4 is moved to the entire range.

  The external instruction unit (automatic focus adjustment touch sensor 2) includes one touch sensor that performs an external start operation by the first operation and an external stop operation by the second operation. By combining the touch sensor that starts scanning and the touch sensor that interrupts scanning with one touch sensor, there is a cost reduction effect due to the reduction in the number of parts, and without worrying about which touch sensor the user uses There is an advantage that it can be operated.

  Further, the external instruction section (focus fine adjustment touch sensor 2) includes two touch sensors that separately perform a slight increase / decrease in the focal length. Thereby, the focus fine adjustment can be easily performed, and the focus adjustment with high accuracy becomes possible.

  According to the operation method of the projector device of the first embodiment, the following effects are obtained. That is, in the operation method of the projector device of the first embodiment, (a) the adjustment operation of the focus adjustment unit (focus adjustment / fine adjustment unit 9) is started by an external operation of the external instruction unit (automatic focus adjustment touch sensor 2). And (b) after step (a), stopping the adjustment operation of the focus adjustment unit (focus adjustment / fine adjustment unit 9) by external stop operation of the external instruction unit (automatic focus adjustment touch sensor 2), (C) After step (b), performing a fine adjustment operation of the focus fine adjustment unit (focus adjustment / fine adjustment unit 9) by an external fine adjustment operation of the external instruction unit (focus fine adjustment touch sensor 3). Prepare. As a result, the user can easily adjust the focus without wondering whether the focal length of the projection lens 4 is reduced or not. Further, since no distance measuring sensor is used, the cost of the projector device can be reduced.

(Embodiment 2)
<Configuration>
FIG. 5 is a block diagram showing the configuration of the focus adjustment mechanism of the projection lens 4 provided in the projection display apparatus of the second embodiment. The same components as those in the focus adjustment mechanism of the first embodiment are given the same numbers. The focus adjustment mechanism of the second embodiment is different from the first embodiment in that it includes a projection lens position sensor 10 that senses the current position of the projection lens 4. Since the other points are the same as the focus adjustment mechanism of the first embodiment, description thereof is omitted.

<Operation>
The operation of the focus adjustment mechanism shown in FIG. 5 will be described. FIG. 6 shows the position of the projection lens 4 immediately before the focus adjustment / fine adjustment unit 9 starts focus adjustment. When the user touches the automatic focus adjustment touch sensor 2, the microcomputer circuit 7 receiving the information from the projection lens position sensor 10 determines whether the current position of the projection lens 4 is closer to the minimum position or the maximum position, and the shortest Determine the direction of travel as a route.

  In FIG. 6, since the projection lens 4 is located on the minimum position side, the microcomputer circuit 7 first instructs the focus adjustment / fine adjustment unit 9 to move toward the minimum position. The projection lens 4 moves to the minimum position and scans (adjusts) the focal length from there to the maximum position. If the initial position of the projection lens 4 is the maximum position side, the projection lens 4 is first moved to the maximum position, and the focal length is scanned from there to the minimum position. As described above, the focus adjustment / fine adjustment unit 9 performs the focus adjustment operation through the shortest path.

  That is, the projector device according to the second embodiment includes a position sensor 10 that measures the position of the projection lens 4, and the focus adjustment unit (focus adjustment / fine adjustment unit 9) is based on the measurement result of the position sensor 10 and has a focal length. The adjustment operation is performed by moving the projection lens 4 to the closest position between the minimum position where the minimum is the maximum and the maximum position where the maximum is the maximum, and then to the other end. Since the focal length is adjusted through the shortest path, the time required for focus adjustment can be shortened.

<Effect>
According to the projector device of the second embodiment, the following effects can be obtained as described above. That is, the projector device according to the second embodiment includes a position sensor 10 that measures the position of the projection lens 4, and the focus adjustment unit (focus adjustment / fine adjustment unit 9) is based on the measurement result of the position sensor 10 and has a focal length. The adjustment operation is performed by moving the projection lens 4 to the closest position between the minimum position where the minimum is the maximum and the maximum position where the maximum is the maximum, and then to the other end. Since the focal length is adjusted through the shortest path, the time required for focus adjustment can be shortened.

(Embodiment 3)
<Configuration>
The configuration of the focus adjustment mechanism of the projection lens provided in the projector device of the third embodiment is the same as the focus adjustment mechanism of the second embodiment shown in FIG.

<Operation>
In the third embodiment, a high-frequency region that is frequently used is set in advance among the focal length of the projection lens 4. Assuming that it is used in a general small and medium meeting room, the focal length is 60 inches to 100 inches, and may be further increased for large meeting rooms.

  FIG. 7 shows the position of the projection lens 4 immediately before the focus adjustment / fine adjustment unit 9 starts focus adjustment. When the user touches the automatic focus adjustment touch sensor 2, the microcomputer circuit 7 compares the current position of the projection lens with the high-frequency area and starts scanning the focus adjustment unit 9 toward the high-frequency area. Command. If the projection lens 4 is located in the high frequency area from the beginning, it is necessary to scan the whole, so that the microcomputer circuit 7 receiving the information of the projection lens position sensor 10 has the current position of the projection lens 4 being the minimum. It is determined whether the position is closer to the maximum position or not, and the traveling direction that is the shortest path is determined. The operation in this case is the same as in the second embodiment.

  That is, in the projector device according to the third embodiment, a high-frequency area frequently used in the focal length of the projection lens 4 is determined in advance, and the focus adjustment unit (focus adjustment / fine adjustment unit 9) is the projection lens. If 4 is not in the high-frequency area, the focal length adjustment operation is performed by moving the projection lens 4 in the direction passing through the high-frequency area between the maximum position and the minimum position, and then moving to the other end. If it is in the region, the adjustment operation is performed by moving the projection lens 4 to the closer of the maximum position and the minimum position based on the measurement result of the position sensor 10 and then to the other end. Thus, by setting a frequently used region in advance, it is possible to quickly move to the focus adjustment position desired by the user.

<Effect>
According to the projector device of the third embodiment, the following effects can be obtained as described above. That is, in the projector device according to the third embodiment, a high-frequency area that is frequently used is determined in advance within the focal length of the projection lens 4, and the focus adjustment unit (focus adjustment / fine adjustment unit 9) If 4 is not in the high-frequency area, the focal length adjustment operation is performed by moving the projection lens 4 in the direction passing through the high-frequency area between the maximum position and the minimum position, and then moving to the other end. If it is in the region, the adjustment operation is performed by moving the projection lens 4 to the closer of the maximum position and the minimum position based on the measurement result of the position sensor 10 and then to the other end. In this way, by setting a frequently used region in advance, it is possible to quickly move to the focus adjustment position desired by the user.

  DESCRIPTION OF SYMBOLS 1 Projector apparatus, 2 focus automatic adjustment touch sensor, 3 focus fine adjustment touch sensor, 4 projection lens, 9 focus adjustment / fine adjustment part.

Claims (9)

A projection lens;
A focus adjustment unit for adjusting the focal length of the projection lens from a minimum distance to a maximum distance;
A projector device comprising: an external instruction unit that starts / stops the adjustment operation of the focus adjustment unit in response to an external start / stop operation. A focus fine adjustment unit that finely adjusts the focal length of the projection lens after the adjustment operation of the focus adjustment unit is stopped;
The projector device according to claim 1, wherein the external instruction unit receives an external fine adjustment operation to control the fine adjustment operation of the focus fine adjustment unit.   The focus adjustment unit performs the adjustment operation by moving the projection lens toward either the minimum position where the focal length is minimized or the maximum position where the projection distance is maximized, and then toward the other end. The projector device according to claim 1, wherein: A position sensor for measuring the position of the projection lens;
Based on the measurement result of the position sensor, the focus adjustment unit moves the projection lens to the closer of the minimum position where the focal length is minimum or the maximum position where the focal length is maximum, and then moves the projection lens to the other end. The projector apparatus according to claim 1, wherein the adjustment operation is performed. Of the focal length of the projection lens, a frequently used high frequency region is determined in advance,
If the projection lens is not in the high-frequency area, the focus adjustment unit moves the projection lens in the direction passing through the high-frequency area between the maximum position and the minimum position, and then moves the projection lens to the other end. The adjustment operation is performed, and if in the high frequency region, the projection lens is moved closer to the maximum position or the minimum position based on the measurement result of the position sensor, and then moved to the other end. The projector apparatus according to claim 4, wherein the adjustment operation is performed by performing the adjustment.   The projector device according to claim 3, wherein the focus adjustment unit moves the projection lens to the other end and then stops the projection lens at the other end.   The projector according to claim 1, wherein the external instruction unit includes one touch sensor that performs the external start operation by a first operation and the external stop operation by a second operation. apparatus.   The projector device according to claim 2, wherein the external instruction unit includes two touch sensors that perform a slight increase / decrease in the focal length separately. An operation method of the projector device according to claim 2,
(A) starting the adjustment operation of the focus adjustment unit by an external operation of the external instruction unit;
(B) after the step (a), stopping the adjustment operation of the focus adjustment unit by an external stop operation of the external instruction unit;
(C) After the step (b), a step of performing the fine adjustment operation of the focus fine adjustment unit by an external fine adjustment operation of the external instruction unit.

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