KR20090129337A - Control unit for dimmer and dimmer system - Google Patents

Abstract

PURPOSE: A dimming operator and a dimming system are provided to recognize a dimming level by the feeling of a finger by forming a sensor pattern operation region with a curve shape. CONSTITUTION: A dimming operator(10) includes an input unit(12-1 to 12-5), a dimming operation mode selection unit(13-1 to 13-3), a dimming control signal output unit(18), and a dimming level display unit(15-1 to 15-5). The input unit is a surface contact input sensor and has a sensor pattern operation area with a curved shape. The dimming control signal output unit outputs the dimming control signal according to the operation level information inputted from the sensor pattern operation area of the input unit. The dimming level display unit is installed along the sensor pattern operation area. The dimming operation mode selection unit selects a fader function, an encoder function, or a touch switch function.

Description

Dimming Manipulator and Lighting System {CONTROL UNIT FOR DIMMER AND DIMMER SYSTEM}

The present invention relates to a light control manipulator having an input means composed of a surface contact input sensor and a light control system using the same.

Conventionally, when performing dimming control regarding the illumination of the production space of a studio or a theater, operation is performed using operators, such as a fader, an encoder, and a switch provided in the operation surface of a dimming table. These operators are lever, arm type, belt type, and handles protrude from the operating surface, and the structure is composed of mechanical parts. Therefore, replacement of moving parts and regular maintenance work are necessary. Moreover, there existed a problem that component management was also complicated (for example, refer patent document 1 and patent document 2).

For this reason, the development of the input means comprised by the surface contact input sensor which does not have these mechanical components is made | formed. The input means is provided in such a manner that the input sensor is formed in a planar linear shape. For example, in the fader, a plurality of the input sensors are arranged in parallel so that the straight portions of the sensor pattern operation area of the input means are parallel to each other.

[Patent Document 1] Japanese Unexamined Patent Publication No. 2005-268108

[Patent Document 2] Japanese Unexamined Patent Publication No. 2004-127722 (FIG. 3, FIG. 10, etc.)

In general, however, the operator of the dimming table often performs dimming operation while visually confirming the brightness of the output lighting device without substantially seeing the hand operation, that is, the sensor pattern operation area. In this case, if the sensor pattern manipulation area is a flat straight line, it is difficult to grasp how much the position of the sensor pattern manipulation area that the fingertip of the operator is in contact with is at the actual dimming level. In addition, when the input means constituted by the surface contact type input sensor is provided so that the display of the output level is provided in parallel, the space in the width direction is required, and it is difficult to make the whole apparatus compact by making the operation surface high density. Become.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is possible to recognize the dimming level by the touch of a finger, to reduce the display space of the dimming manipulator or the output level, which can improve operability, and to increase the operating surface density, It is an object of the present invention to provide a light control apparatus or the like which can be configured compactly.

The light modulation operator according to claim 1 comprises: input means comprising a surface contact input sensor and having a sensor pattern operation area formed in a curved shape; And a dimming control signal output means for transmitting a dimming control signal in accordance with the operation level information input from the sensor pattern operating area of the input means.

Although the capacitive switch is suitable for the surface contact input sensor, a sensor such as a resistive film type or a light type may be used. In addition, as the surface contact input sensor, a sensor which requires a touch operation by placing a finger or the like on the operation surface is preferable. It may be changed. The curved shape is not particularly limited as long as the shape includes an S shape, a bow shape, or a wavy shape, and the operation area is changed in a direction orthogonal to the operation direction.

The dimming manipulator according to claim 2 has a dimming level display means provided along the sensor pattern operation region in the dimming manipulator according to claim 1. Although LED is suitable for display means, it is not limited to LED, You may use an EL element, an LCD, a neon lamp, etc.

The dimming control device according to claim 3 comprises: input means composed of a surface contact input sensor and having a sensor pattern operation area on a surface side thereof; Display means arranged on a rear side of the input means for displaying input level information from the input means through the sensor pattern manipulation area; And a dimming control signal output means for transmitting a dimming control signal according to the operation level information input from the sensor pattern manipulation area of the input means. Although LED is suitable for a display element, it is not limited to LED, You may use an EL element, an LCD, a neon lamp, etc.

The light modulation system of Claim 4 is a light control operator of any one of Claims 1-3; An illuminant controllable lighting load; And a dimmer for receiving a dimming control signal from the dimming controller and dimming a corresponding illumination load.

According to the invention of claim 1, by forming the sensor pattern operation region in a curved shape, the dimming operation can be performed while recognizing the dimming level by the touch of the operator's finger, and the operability can be improved.

According to invention of Claim 2, in addition to the effect of invention of Claim 1, a sensor pattern operation area | region can be operated, grasping the dimming level of a lighting apparatus.

According to the invention as set forth in claim 3, since the display means is arranged on the back side of the input means, the space on the operating surface occupied by the display means can be reduced, and the light control manipulator can be provided compactly.

According to invention of Claim 4, the light control system which exhibits the effect of invention of each said claim can be provided.

EMBODIMENT OF THE INVENTION Below, the 1st Embodiment of the light control operator and light control system of this invention is demonstrated with reference to FIGS. Fig. 1 is a block configuration diagram showing a dimming system, Figs. 2 and 3 are front views schematically showing an operation surface of the dimming operator, and Fig. 4 is a block configuration diagram showing a dimming operator. In Fig. 1, the dimming manipulator 10 provided in the dimming chamber has a plurality of input means in the main body, and the operation information input from the input means, that is, the operation level information is provided in the dimmer apparatus room as, for example, a DMX signal. The light is sent to the light control panel 20. The DMX signal is a digital signal used for the production field standardized by the US Theater Technology Association (USITT), etc., and represents the DMX512 used as a standard of the dimming signal for dimming control. On the other hand, the dimming control signal may be transmitted by wire or wireless.

A plurality of dimmers 20-1 to 20-n are provided in the dimmer panel 20, and a dimming power source is supplied to these dimmers 20-1 to 20-n. Illumination loads 30-1 to 30-n such as spotlights are connected to the dimmers 20-1 to 20-n, respectively. The lighting loads 30-1 to 30-n are provided in a studio or a stage to perform directing illumination, and a dimming voltage controlled by the dimming control signal is supplied from the dimmers 20-1 to 20-n.

Next, in FIG.2 and FIG.3, the Example regarding the operation surface 11 of the dimmer operation apparatus 10 is demonstrated.

(Example 1) As shown in FIG. 2, the operation surface 11 of the light control operator 10 is formed in the panel shape, and input means 12-1 to 12-5 which consist of a surface contact type input sensor. ) And dimming operation mode selection means 13-1 to 13-3. The surface contact input sensor is a capacitive switch, and is formed by arranging, for example, five rows of curved sensor pattern operation regions 14-1 to 14-5 coated on the surface side with a translucent resin. Each of the sensor pattern operating regions 14-1 to 14-5 is formed in a substantially S-shape made of a gentle curve and is formed to be rotated symmetrically by 180 degrees, and slightly recessed about 1 mm to 2 mm from the operating surface 11. It consists of. Therefore, the operator can recognize the contour shape of the sensor pattern operation area | regions 14-1 to 14-5 by the touch of a fingertip. On the other hand, since only the contour shape of the sensor pattern operation area | regions 14-1 to 14-5 can be recognized, you may provide the rib which protrudes along the contour shape. In addition, the sensor pattern operation areas 14-1 to 14-5 are not limited to substantially S-shaped shapes, but may be bow-shaped or wave-shaped, and have a sense of theft when the fingertips touch them. What is necessary is just a shape to bring. In addition, of course, it is not limited to providing 5 rows. In some cases, it is necessary to increase the number of columns as the dimming system increases in size.

Substrates formed of glass, insulating resin, or the like are disposed on the lower surfaces of the sensor pattern operating regions 14-1 to 14-5, and a plurality of switches are disposed on the substrate. When the fingertip or the like touches the switch through the sensor pattern operation areas 14-1 to 14-5, the amount of change in the weak capacitance is detected. In addition, in the vicinity of the sensor pattern operation areas 14-1 to 14-5, the dimming level composed of display elements 15a such as a plurality of LEDs along the contour of the sensor pattern operation areas 14-1 to 14-5. Display means 15-1 to 15-5 are provided. The display means 15-1 to 15-5 display operation level information input by overwriting the sensor pattern operation areas 14-1 to 14-5 with a fingertip, and consequently, to display the output level. will be. On the other hand, the display means 15-1 to 15-5 can be applied not only to LED but also to EL elements, LCDs, neon lamps and the like. The input means 12-1 to 12-5 are associated with the dimmers 20-1 to 20-n of the light control panel 20 in a one-to-one or one-to-one relationship.

The dimming operation mode selecting means 13-1 to 13-3 are constituted by a touch switch, and can select a fader function, an encoder function, and a touch switch function. Roughly, the fader function here refers to a function of gradually dimming the brightness to maintain a desired brightness, and the encoder function up / down the brightness by using a previously set dimming level as the starting point of the operation and finely dimming the light. The touch switch function refers to a function of turning on / off at a predetermined selected brightness, so-called flashing and dimming. In the vicinity of the dimming operation mode selection means 13-1 to 13-3, display sections 16-1 to 16-3 composed of LEDs and the like for displaying the mode selection state are provided.

(Embodiment 2) As shown in Fig. 3, in the present embodiment, the dimming level display means 15-1 to 15-5 is the back side corresponding to the sensor pattern operation regions 14-1 to 14-5. Will be placed in. In addition, the same code | symbol is attached | subjected to the same or equivalent part as Example 1, and the overlapping description is abbreviate | omitted. A square display window is disposed on the lower surface of the sensor pattern operation regions 14-1 to 14-5 and is opened to face the display element 15a on a substrate on which a plurality of sensors and switches are arranged. On the back side of the substrate, dimming level display means 15-1 to 15-5 are disposed, and each display element 15a is disposed to face the display window. Therefore, the display by the dimming level display means 15-1 to 15-5 is made through the sensor pattern operation areas 14-1 to 14-5. Further, in the dimming level display means 15-1 to 15-5, each display element 15a is arranged in a curved shape along the contour shape of the sensor pattern operation regions 14-1 to 14-5. According to this embodiment, the space of the operation surface 11 occupied by the dimming level display means 15-1 to 15-5 can be reduced, and the compact structure can be achieved.

In Fig. 4, the dimming control unit 10 includes input means 12-1 to 12-5, display means 15-1 to 15-5, control means 17, dimming control signal output means 18 and Dimming operation mode selection means 13-1 to 13-3 are provided. The input means 12-1 to 12-5 include a plurality of capacitive sensors and switches mounted on a substrate, and a detection circuit 19 for detecting these outputs and sending detection signals. The display means 15-1 to 15-5 are connected to the input means 12-1 to 12-5, and the input means 12-1 to 12-5 are the control means 17. Is connected to.

The control means 17 is comprised by a central processing unit, a field programmable gate array (FPGA), etc., and has a function which performs the signal processing of the whole light control operator 10. FIG. The control means 17 is connected to the dimming control signal output means 18. The dimming control signal output means 18 receives a signal from the control means 17 and outputs a DMX signal. In addition, the control means 17 is connected to the dimming operation mode selection means 13-1 to 13-3. When a predetermined mode is selected by the dimming operation mode selection means 13-1 to 13-3, the control means 17 performs an operation input from the input means 12-1 to 12-5 according to the selected mode. Information is computed and sent to the dimming control signal output means 18 as a result of the processing.

The operation of the dimmer operator and the dimmer system configured as described above will be described. Here, the case where light control is performed by operating the input means 12-1 by the fader function typically is demonstrated. The dimming operation mode selection means 13-1 of the fader function is selected, that is, the operator presses the touch switch. Then, the display unit 16-1 showing this selection state lights up, and as shown in FIG. 4, a mode selection signal is sent from the dimming operation mode selection means 13-1 to the control means 17. FIG. Lose. The control means 17 recognizes that it is a mode of the fader function, and enters the standby state of the operation information from the input means 12-1 to 12-5.

Here, when the operator touches and slides the approximately S-shaped sensor pattern operation area 14-1 of the input means 12-1 with the fingertip so as to overwrite from below, the electrostatic force is reduced according to the movement trajectory of the fingertip. The capacitive sensor outputs position data, the detection circuit 19 detects this position data, and sends a detection signal to the control means 17. The control means 17 determines the operation position, the operation direction, and the like from the on / off information of the switch, that is, determines whether to raise or lower the dimming level and brightness, and dims the resulting dimming control data. The control signal output means 18 is transmitted. In this connection, the lower end position of the sensor pattern operation region 14-1 is the dimming level 0, and the 256th tone is set as the upper end position is 100%. That is, the fade function makes it possible to control dimming of 256 gradations in the range of 0 to 100% of the dimming level.

On the other hand, the detection signal of the detection circuit 19 is also transmitted to the display means 15-1 so that the display element 15a of the display means 15-1 is sequentially turned on in accordance with the movement trajectory of the fingertip. have. This makes it easier to grasp the current output level, that is, the dimming level. Since the sensor pattern operation area 14-1 is slid so as to be overwritten by the fingertip from the bottom, the brightness is gradually increased. When the fingertip is removed from the sensor pattern manipulation area 14-1, the detection circuit 19 detects the position, maintains the dimming level corresponding to the position, and simultaneously displays the display element corresponding to the position from below. Up to 15a is continuously lit to display the dimming level. On the other hand, the display element 15a may be turned on only by the display element 15a corresponding to the position detected by the detection circuit 19, not by continuous lighting.

Subsequently, in contrast to the above, if the sensor pattern operation area 14-1 of the input means 12-1 is contacted with the fingertip so as to be overwritten downward from the top, the control means 17 similarly The operation position, the operation direction, and the like are determined from the position data, and the dimming control data is transmitted to the dimming control signal output means 18 to operate to lower the brightness gradually.

The dimming control signal output means 18 outputs a DMX signal based on the dimming control data. This dimming control signal is transmitted to the dimmer 20-1 of the dimmer panel 20, from which the dimming voltage is supplied to the illumination load 30-1, and the illumination load 30-1. ) Dimming control. On the other hand, even when storing the dimming data and reproducing the dimming data, the display elements 15a of the display means 15-1 are sequentially turned on in order to correspond to the dimming level. Thus, it is easy to grasp the current dimming level.

On the other hand, since the operator usually performs dimming operation while visually confirming the brightness of the output lighting device without substantially seeing the hand operation to operate, that is, the sensor pattern operation region 14-1, during the dimming operation, It is difficult to grasp the actual dimming level. However, in this embodiment, since the sensor pattern operation area | region 14-1 is formed in substantially S shape, dimming operation can be performed, recognizing rough dimming level by the touch of a fingertip. That is, for example, in the sensor pattern operation region 14-1 shown in Fig. 2, the portion F of the inflection point at the center of the outline is approximately 50% of the dimming level, and the uppermost convex portion (maximum concave portion) is located. The portion A of) is a position of approximately 75% of the dimming level, and the portion B of the lower maximum convex portion (maximum concave portion) is a position of approximately 25% of the dimming level. Therefore, when the sensor pattern operation area 14-1 is touched and slided so as to be overwritten by the fingertip, a predetermined sense of theft is obtained by the touch of the fingertip, so that the dimming level can be recognized. It becomes possible to recognize.

Next, for example, a method of adjusting the dimming level from the state in which the dimming level is 50% and the display element 15a is lit from the bottom to the fifth is described. On the other hand, the following adjustment method can be achieved by designing the program of the control means 17 suitably.

The operator slides the sensor pattern operation area 14-1 with the fingertip so as to overwrite it from bottom to top or from top to bottom, but the current dimming level position, that is, the fifth position of the display element 15a, is slid. If the fingertips do not cross, the dimming level does not change. Specifically, in the case where the dimming level is adjusted to 80%, the fingertip is slid upward, for example, at the dimming level 30%, that is, from the third vicinity of the display element 15a. In such a case, the dimming level changes from the vicinity of the fifth or more vicinity of the display element 15a, and the brightness increases. The dimming level can be adjusted to 80% by releasing the fingertip near the eighth of the display element 15a. In this state, the display element 15a is lit from the bottom to the eighth.

On the contrary, in the case where the dimming level is adjusted from 50% of the dimming level to 20%, the fingertip is slid downward, for example, near the eighth of the display element 15a. In this case, the dimming level changes from the vicinity of the fifth or more vicinity of the display element 15a, and the brightness decreases. By removing the fingertip at the second vicinity of the display element 15a, the dimming level can be adjusted to 20%, and the first and second lights at the bottom of the display element 15a are turned on. Therefore, it is possible to reliably smoothly raise or lower the dimming level, and to bring about a function in which the dimming level does not change due to accidental contact with the sensor pattern operation area 14-1 or inadvertent operation.

As described above, according to the present embodiment, by forming the sensor pattern operation region 14 in a curved shape, the dimming operation can be performed smoothly while recognizing the dimming level by the touch of a finger, and the operability can be improved. . Moreover, since the dimming level display means 15 is provided along the outline shape of the sensor pattern operation area | region 14, it is easy to grasp | ascertain the dimming level. In addition, since the input means 12 is constituted by a surface contact input sensor, there are no mechanical parts, and compared with the conventional one, the replacement and maintenance work of movable parts can be reduced, and the number of parts can be reduced. In terms of advantages. In addition, the mode can be selected by the dimming operation mode selecting means 13, and in this case, since the input means 12 can be shared, the configuration can be simplified. In addition, since there is no protrusion on the operation surface 11, the operation is easy, and it is also possible to simultaneously operate the plurality of sensor pattern operation regions 14 with one hand. In addition, since the sensor pattern operation area 14 of the input means 12 is provided in a plurality of rows in a curved shape, there is an advantage that simultaneous operation is easy.

Next, the second to fourth embodiments of the light control operator and the light control system of the present invention will be described with reference to Figs. Fig. 5 is a front view showing the operation surface of the dimming manipulator, Fig. 6A is a plan view showing an output level display device, and Fig. 5B is a sectional view taken along the line A-A in Fig. 5A. In addition, after, the same code | symbol is attached | subjected to 1st Embodiment or an equivalent part, and the overlapping description is abbreviate | omitted.

In Fig. 5, the operation surface 11 of the dimming manipulator 10 is formed in a panel shape, and includes input means 12-1 to 12-5 and a dimming operation mode selection means 13, each of which is a surface contact input sensor. -1 to 13-3). The surface contact input sensor is a capacitive switch, and is formed by arranging, for example, five linear sensor pattern operating regions 14-1 to 14-5 coated on the surface side with a translucent resin. On the other hand, the input means 12-1 to 12-5 are, of course, not limited to being provided in five rows. In some cases, it is necessary to increase the number of columns as the dimming system increases in size. Substrates formed of glass, insulating resin, or the like are disposed on the lower surfaces of the sensor pattern operating regions 14-1 to 14-5, and a plurality of switches are disposed on the substrate. When the finger or the like touches the switch through the sensor pattern operating areas 14-1 to 14-5, the amount of change in the weak capacitance is detected.

On the back side of the sensor pattern operation regions 14-1 to 14-5, display means 15-1 to 15-5 are provided in which display elements 15a, such as LEDs, are mounted on a substrate formed of an insulating resin or the like. It is installed. The display means 15-1 to 15-5 input the input level information by overwriting the sensor pattern operation areas 14-1 to 14-5 with a finger, and consequently, the output level to the sensor pattern operation. It displays through the area | regions 14-1 to 14-5. The input means 12-1 to 12-5 correspond to the dimmers 20-1 to 20-n of the light control panel 20 in a one-to-one or one-to-one relationship.

The dimming operation mode selecting means 13-1 to 13-3 are constituted by a touch switch, and can select a fader function, an encoder function, and a touch switch function. In general, the fader function here refers to a function of gradually changing the brightness and dimming to maintain a desired brightness, while the encoder function is used to fine-tune the brightness by up / down by setting the previously set dimming level as the starting point of the operation. The dimming function is referred to, and the touch switch function is a function of turning on / off at a predetermined selected brightness, and so-called flashing and dimming. In the vicinity of the dimming operation mode selecting means 13-1 to 13-3, display sections 16-1 to 16-3 composed of LED lamps for displaying the mode selection state are provided.

Next, in FIG. 6, the output level display apparatus is provided with the input means 12 and the display means 15. As shown in FIG. The input means 12 consists of a rectangular plate-shaped board | substrate 12a and the sensor pattern operation area | region 14, The square display window 12b opened in the board | substrate 12a opposing the display elements 15a ... which are mentioned later. ) Is formed. The detection electrode which comprises a switch is arrange | positioned at the surface of the board | substrate 12a, and the surface of the board | substrate 12a is coated with the translucent acrylic resin etc. including a detection electrode, and the sensor pattern operation area | region 14 ) Is formed. In addition, the coating of this resin may not cover the display window 12b part. In this case, the portion of the display window 12b is formed with a penetrating opening, but the size of the opening is such that the finger does not enter, and is formed so as not to interfere with the operation.

On the back side of the input means 12, the display means 15 is arrange | positioned so that this input means 12 may be opposed. The display means 15 is provided with the board | substrate 15b formed from the rectangular plate-shaped insulating resin, and the display element 15a ... of several LED surface-mounted linearly on this board | substrate 15b. The display elements 15a... Are positioned to face the display window 12b formed on the substrate 12a of the input means 12. Therefore, the display by the display elements 15a ... is made via the sensor pattern operation area 14. And the board | substrate 15b of the display means 15 and the board | substrate 12a of the input means 12 are connected by the lead wire etc. On the other hand, the display element 15a is not limited to an LED, but an EL element, an LCD, a neon lamp, or the like can be applied.

The dimming manipulator 10 of the second embodiment is calculated by the control means 17 and the dimming control signal output means 18 shown in FIG. 4 based on the operation of the input means 12 as in the first embodiment. Processing and transmission and reception of various signals are performed, and the illumination load 30-1 is controlled by dimming similarly to the first embodiment.

As described above, according to the present embodiment, since the input level information is displayed as the positional change corresponding to the level, that is, the analog display, the operation level is easy to grasp. In this case, although the display means 15 has predetermined length and width, since the display means 15 was arrange | positioned at the back side of the input means 12, the operation surface 11 which the display means 15 occupies. It is possible to provide an output level display device which can reduce the space of the space, increase the density of the sensor pattern operation area 14 and the like on the operation surface 11, and make it compact. In addition, the board | substrate 12a in which the surface contact input sensor in the input means 12 was mounted, and the board | substrate 15b in which the display element 15a in the display means 15 were mounted are comprised as a separate board | substrate, respectively. Since the noise from the display means 15 affects the input means 12, it can be reduced.

In addition, since the input means 12-1 is constituted by a surface contact input sensor, there are no mechanical parts, and as compared with the related art, the replacement and maintenance work of movable parts can be reduced, and the number of parts can be reduced. It also benefits parts management. In addition, the mode can be selected by the dimming operation mode selecting means 13, and in this case, the input means 12-1 to 12-5 can be shared, so that the configuration can be simplified. In addition, since there is no protrusion on the operation surface 11, the operation is easy, and it is also possible to simultaneously operate the plurality of sensor pattern operation regions 14-1 to 14-5 with one hand. In addition, since the sensor pattern operation areas 14-1 to 14-5 of the input means 12-1 to 12-5 are provided in a plurality of lines in a straight line shape, the operation is simple and simultaneous operation is easy. There is an advantage.

Next, an output level display device according to a third embodiment of the present invention will be described with reference to FIG. (A) is a top view which shows the output level display apparatus, (b) is sectional drawing along the A-A line of (a). In addition, after, the same code | symbol is attached | subjected to the same or equivalent part as 2nd Embodiment, and the overlapping description is abbreviate | omitted. In this embodiment, the arrangement | positioning of the display element 15a ... in the display means 15 shift | deviates from the center of the sensor pattern operation area | region 14, and arrange | positions.

Therefore, since the actual operation range in normal operation becomes the range a shown by the dotted line shown in the figure, it is possible to reduce the case where the display of the display elements 15a ... is hidden with the fingers while the operator operates. It is easy to see and expect improvement of operability.

Next, an output level display device according to a fourth embodiment of the present invention will be described with reference to FIG. Fig. 8A is a plan view showing the output level display device, b is a plan view showing the input means 12 removed, and c is a sectional view taken along the line A-A in Fig. 8A. In this embodiment, the board | substrate 15b in which the display element 15a in the display means 15 was mounted is arrange | positioned at the side perpendicular | vertical to the sensor pattern operation area | region 14 and the side. Therefore, the diffusion panel P which spreads and guides the light from the display elements 15a ... in the center direction is provided. The diffusion panel P has a flat plate shape, and a diffusion portion Pa is formed to face the display elements 15a. By this structure, the light from the display elements 15a ... is guided to the diffusion portion Pa, and the light is emitted from the diffusion portion Pa. And this light can be visually recognized through the display window 12b.

According to the present embodiment, as in the second embodiment, since the display means 15 is disposed behind the input means 12 and the substrate 15b is disposed on the side, the operation surface 11 is compactly constructed. In addition, the depth dimension of the apparatus, and further, the light control device 10 can be reduced.

Subsequently, the case where the above-described embodiment is applied to the dimming manipulator 10 with a monitor will be described with reference to the side views of FIGS. 9 and 10. First, as shown in Fig. 10, a monitor 40 composed of an LCD or the like is installed in the main body of the light control operator 10, and the monitor 40 is opened and closed with respect to the operation surface 11 for movement or the like. Is made possible. In this case, for example, since the knob K, such as a fader, protrudes from the operation surface 11, it is difficult to close the monitor 40 surface closely to the operation surface 11, and as such, compactness is achieved. Lack (see Figure 10 (b)). However, as shown in FIG. 9, since the operation surface 11 by the said embodiment is free of protrusions and can be comprised flat, the monitor 40 surface can be closed close to the operation surface 11, and can be closed. Compactness is possible.

Next, the application example of the said embodiment is demonstrated with reference to FIG. Fig. 11 is a plan view showing the operation surface of the dimming operator. The operation surface 11 is provided with a master fader 12M and a plurality, i.e., 16 single faders 12S, as input means composed of a surface contact input sensor. In each of the faders 12M and 12S, curved sensor pattern operation regions 14M and 14S are formed side by side. In addition, various switches such as a scene selection switch (CSW) for selecting scenes (scenes) are disposed above the faders 12M and 12S, when storing or reproducing dimming data. A display unit 50 made up of an LCD which displays contents of dimming data assigned to the fader 12S and the like is disposed. Here, on this display part 50, the transparent or translucent setup writing board 51 formed from acryl etc. was piled up and joined. In this connection, the setup writing board 51 writes the contents of the dimming data assigned to the respective faders 12S and the like by hand so that the operator can easily understand them. It is effectively used to respond to such cases.

Therefore, according to this application example, the faders 12M and 12S can be operated while recognizing the dimming level by the touch of a finger. In addition, when the information displayed on the display unit 50 is used, the LCD is turned on so that the display information can be viewed through the transparent or semi-transparent setup writing plate 51. When the setup writing plate 51 is used, When the LCD of the display unit 50 is displayed entirely in a single light color such as off or white, the information written on the setup writing board 51 can be viewed and written while viewing the written information. In this case, since the display part 50 and the setup writing board 51 are arrange | positioned in the folded state, it is not necessary to provide each arrangement space, and the operation surface 11 can be comprised compactly. That is, by arranging the display section 50 and the setup writing board 51 in the same place, the depth dimension can be shortened. For example, even when the faders 12M and 12S are increased in two rows and three rows, the depth dimension can be reduced. It becomes possible to shorten and to comprise the operation surface 11 compactly. In addition, the display part 50 may be comprised not only LCD but LED and EL elements.

1 is a block diagram showing a light control system according to an embodiment of the present invention.

Fig. 2 is a front view schematically showing the operation surface of the same dimmer controller (Example 1).

Fig. 3 is a front view schematically showing the operation surface of the same dimmer operation (Example 2).

4 is a block diagram illustrating the same dimming control unit.

Fig. 5 is a plan view and a sectional view showing a light control operator according to a second embodiment of the present invention.

6 is a block diagram illustrating the same dimming control unit.

7 is a plan view and a sectional view of the output level display device according to the third embodiment of the present invention.

8 is a plan view and a sectional view of an output level display device according to a fourth embodiment of the present invention.

Fig. 9 is a side view showing a dimming controller with a monitor according to an embodiment of the present invention.

10 is a side view showing a conventional dimming controller with a monitor.

Fig. 11 is a front view showing an example of application of an operation surface of the dimmer operation according to the embodiment of the present invention.

[Description of the code]

10: dimming manipulator, 12: input means,

14: sensor pattern operating area, 15: display means,

15a: display element, 18: dimming control signal output means,

20: dimmer, 30: lighting load

Claims (4)

An input means composed of a surface contact input sensor and having a sensor pattern manipulation area formed in a curved shape; And a dimming control signal output means for transmitting a dimming control signal in accordance with the operation level information input from the sensor pattern operating area of the input means. An illuminating device according to claim 1, further comprising an illuminating level display means provided along the sensor pattern manipulation area. An input means composed of a surface contact input sensor and having a sensor pattern manipulation area on a surface side thereof; Display means arranged on a rear side of the input means for displaying input level information from the input means through the sensor pattern manipulation area; And a dimming control signal output means for transmitting a dimming control signal in accordance with the operation level information input from the sensor pattern manipulation area of the input means. A dimming control device according to any one of claims 1 to 3; An illuminant controllable lighting load; And a dimmer for receiving a dimming control signal from the dimming controller and dimming a corresponding illumination load.

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